- published: 26 Jun 2012
- views: 543370
-
remove the playlistNeuromuscular Junction
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http://armandoh.org/
Talks about the space between a neuron and muscle, and describes with a bit of detail about this relationship.
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In this video, Dr Mike explains how skeletal muscle is stimulated to contract.
This involves Na+, Ca2+, and acetylcholine (ACh).
He also discusses how a number of muscle relaxants work.
- published: 04 May 2020
- views: 19873
(USMLE topics) The neuron-muscle relationship and generation of action potential in skeletal muscle cell. This video and other related videos (in HD) are available for instant download licensing here : https://www.alilamedicalmedia.com/-/galleries/narrated-videos-by-topics/basic-neurobiology
©Alila Medical Media. All rights reserved.
Voice by: Ashley Fleming
Support us on Patreon and get early access to our videos and FREE image downloads: www.patreon.com/AlilaMedicalMedia/posts
All images/videos by Alila Medical Media are for information purposes ONLY and are NOT intended to replace professional medical advice, diagnosis or treatment. Always seek the advice of a qualified healthcare provider with any questions you may have regarding a medical condition.
A skeletal muscle contracts only when stimulated by nerve impulses from a motor neuron.
The axon of a motor neuron usually gives out many branches, supplying multiple muscle fibers. These fibers constitute a motor unit. Small motor units are found in muscles that require finer control, for example, muscles that are responsible for subtle movements of the eyes. Large motor units are found in larger muscles that require strength, such as muscles of the arms and legs.
The strength of a muscle contraction is determined by the number of motor units that are activated at one time. Even at rest, most muscles are in a partial contraction state, called muscle tonus, which is maintained by alternating activation of a small number of motor units.
The connection between a motor neuron and a muscle fiber is called a neuromuscular junction, which is basically a chemical synapse between the nerve terminal and a specialized area of muscle cell membrane called the motor end-plate. When an action potential reaches the nerve terminal, it causes the release of the neurotransmitter acetylcholine into the synaptic space. Acetylcholine then binds to nicotinic receptors on the end-plate. Nicotinic receptors are ligand-gated ion channels. Upon binding to acetylcholine, they open to allow sodium to enter the cells, depolarizing the cell membrane, producing the so-called end-plate potential.
An action potential is generated in the muscle cell only when the end-plate potential reaches the threshold required to activate voltage-gated sodium channels located outside the end-plate, in the neighboring membrane. When activated, these channels allow faster influx of sodium, further depolarizing and eventually reversing the polarity of the cell membrane. At this point, voltage-gated potassium channels open for potassium to move out, quickly returning membrane voltage to its original resting value.
Once generated, the action potential spreads like a wave thanks to similar voltage-gated ion channels located throughout the muscle fiber. The action potential also runs deep into the fiber via T-tubules, to reach the sarcoplasmic reticulum. Here, it activates voltage-gated calcium channels, releasing calcium from the sarcoplasmic reticulum into the cytosol of muscle cells. Calcium then sets off muscle contraction by the “sliding filament mechanism”. This mechanism is described in another video.
Another important component of the neuromuscular junction is the enzyme acetylcholinesterase. This enzyme removes all acetylcholine molecules that do not immediately bind with a receptor and those that are done activating a receptor. The enzyme action essentially terminates synaptic activation, giving the muscle time to relax, and thus preventing continuous contraction that would result in muscle spasms.
Substances that cause muscle weakness or paralysis do so by interfering with the function of neuromuscular junction:
- Botulinum toxin prevents acetylcholine release from the presynaptic side of the junction.
- Some other toxins attach to nicotinic receptor, blocking acetylcholine from binding, but do not open the ion channel.
- Certain drugs lodge into the channel of nicotinic receptor, blocking the passage of sodium.
All these substances prevent activation of muscle cells and cause flaccid paralysis.
On the other hand, some pesticides inhibit acetylcholinesterase, preventing degradation of acetylcholine, causing continuous activation of muscles. That’s how they induce muscle spasms and cause spastic paralysis.
- published: 17 Mar 2020
- views: 118467
In this video I discuss the neuromuscular junction. The term neuromuscular junction refers to a synapse between a motor neuron and muscle fiber; activity here is essential for muscle contraction and thus movement. At the neuromuscular junction, the synaptic boutons of a motor neuron are situated over a specialized region of muscle called the end plate. The synaptic boutons release acetycholine, which travels across the synaptic cleft and activates acetylcholine receptors on the muscle fiber. This causes excitation of the muscle cell, and muscle contraction. Excess acetylcoholine is removed from the synaptic cleft by the enzyme acetylcholinesterase.
TRANSCRIPT:
Welcome to 2 minute neuroscience, where I simplistically explain neuroscience topics in 2 minutes or less. In this installment I will discuss the neuromuscular junction.
The term neuromuscular junction refers to the synapse between a motor neuron and a skeletal muscle fiber. Activity at the neuromuscular junction is essential for the contraction of skeletal muscle to occur, and even just to keep muscles from atrophying. It is also the site where synaptic transmission was first studied and thus is the best understood example of chemical signaling in the nervous system. When a motor neuron approaches a muscle, it branches out into several extensions that end in areas called synaptic boutons, which can release neurotransmitters. These synaptic boutons are situated over a specialized region of muscle called the end-plate.
The synaptic boutons are separated from the end plate by a space called the synaptic cleft. The end-plate beneath each synaptic bouton contains several deep indentations called junctional folds. These junctional folds contain high numbers of ligand-gated ion channel receptors for the neurotransmitter acetylcholine.
When an action potential travels down the motor neuron, it causes the release of acetylcholine into the synaptic cleft. Acetylcholine binds to acetylcholine receptors in the junctional folds of the muscle membrane, which causes ion channels to open to allow positive sodium ions to flow into the postsynaptic cell. This produces a depolarization of that cell called an excitatory post-synaptic potential, also known as the end-plate potential when it occurs at the neuromuscular junction. This depolarization leads to the opening of voltage gated sodium channels, which causes the end-plate potential to lead to an action potential. This action potential travels along the muscle fiber and causes contraction of the muscle.
The enzyme acetylcholinesterase is also present at the neuromuscular junction; it breaks down acetylcholine and in the process terminates its effects on the muscle fiber, thus ending the communication between the motor neuron and the muscle fiber.
REFERENCE:
Purves D, Augustine GJ, Fitzpatrick D, Hall WC, Lamantia AS, McNamara JO, White LE. Neuroscience. 4th ed. Sunderland, MA. Sinauer Associates; 2008.
- published: 06 Feb 2016
- views: 183485
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In this lecture Professor Zach Murphy will be teaching you about the neuromuscular junction, and the neuromuscular transmission. During part 1 of this series we will be discussing the action potentials carried by the alpha motor neuron, and the factors that play a role in the release of ACh, and the synaptoproteins involved with this process. We hope you enjoy this lecture and be sure to support us below!
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- published: 19 Jun 2017
- views: 218619
How do neurons talk directly to muscle cells? Learn about how a neuronal message is translated into a muscular action at the neuromuscular junction. By Raja Narayan. Created by Raja Narayan.
Watch the next lesson: https://www.khanacademy.org/test-prep/nclex-rn/rn-muscular-system/rn-the-muscular-system/v/type-1-and-2-muscle-fibers?utm_source=YT&utm;_medium=Desc&utm;_campaign=Nclex-rn
Missed the previous lesson? https://www.khanacademy.org/test-prep/nclex-rn/rn-muscular-system/rn-the-muscular-system/v/motor-neurons?utm_source=YT&utm;_medium=Desc&utm;_campaign=Nclex-rn
NCLEX-RN on Khan Academy: A collection of questions from content covered on the NCLEX-RN. These questions are available under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 United States License (available at http://creativecommons.org/licenses/by-nc-sa/3.0/us/).
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- published: 19 Sep 2013
- views: 462720
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A neuromuscular junction (or myoneural junction) is a chemical synapse formed by the contact between a motor neuron and a muscle fiber.[1] It is at the neuromuscular junction that a motor neuron is able to transmit a signal to the muscle fiber, causing muscle contraction.
Muscles require innervation to function—and even just to maintain muscle tone, avoiding atrophy. Synaptic transmission at the neuromuscular junction begins when an action potential reaches the presynaptic terminal of a motor neuron, which activates voltage-dependent calcium channels to allow calcium ions to enter the neuron. Calcium ions bind to sensor proteins (synaptotagmin) on synaptic vesicles, triggering vesicle fusion with the cell membrane and subsequent neurotransmitter release from the motor neuron into the synaptic cleft. In vertebrates, motor neurons release acetylcholine (ACh), a small molecule neurotransmitter, which diffuses across the synaptic cleft and binds to nicotinic acetylcholine receptors (nAChRs) on the cell membrane of the muscle fiber, also known as the sarcolemma. nAChRs are ionotropic receptors, meaning they serve as ligand-gated ion channels. The binding of ACh to the receptor can depolarize the muscle fiber, causing a cascade that eventually results in muscle contraction.
Neuromuscular junction diseases can be of genetic and autoimmune origin. Genetic disorders, such as Duchenne muscular dystrophy, can arise from mutated structural proteins that comprise the neuromuscular junction, whereas autoimmune diseases, such as myasthenia gravis, occur when antibodies are produced against nicotinic acetylcholine receptors on the sarcolemma.
The neuromuscular junction differs from chemical synapses between neurons. Presynaptic motor axons stop 30 nanometers from the sarcolemma, the cell membrane of a muscle cell. This 30-nanometer space forms the synaptic cleft through which signalling molecules are released. The sarcolemma has invaginations called postjunctional folds, which increase the surface area of the membrane exposed to the synaptic cleft.[2] These postjunctional folds form what is referred to as the motor endplate, which possess nicotinic acetylcholine receptors (nAChRs) at a density of 10,000 receptors/micrometer2 in skeletal muscle.[3] The presynaptic axons form bulges called terminal boutons (or presynaptic terminals) that project into the postjunctional folds of the sarcolemma. The presynaptic terminals have active zones that contain vesicles, quanta, full of acetylcholine molecules. These vesicles can fuse with the presynaptic membrane and release ACh molecules into the synaptic cleft via exocytosis after depolarization.[2] AChRs are localized opposite the presynaptic terminals by protein scaffolds at the postjunctional folds of the sarcolemma. Dystrophin, a structural protein, connects the sarcomere, sarcolemma, and extracellular matrix components. Rapsyn is another protein that docks AChRs and structural proteins to the cytoskeleton. Also present is the receptor tyrosine kinase protein MuSK, a signaling protein involved in the development of the neuromuscular junction, which is also held in place by rapsyn.[2]
Mechanism of action
The neuromuscular junction is where a neuron activates a muscle to contract. Upon the arrival of an action potential at the presynaptic neuron terminal, voltage-dependent calcium channels open and Ca2+ ions flow from the extracellular fluid into the presynaptic neuron's cytosol. This influx of Ca2+ causes neurotransmitter-containing vesicles to dock and fuse to the presynaptic neuron's cell membrane through SNARE proteins. Fusion of the vesicular membrane with the presynaptic cell membrane results in the emptying of the vesicle's contents (acetylcholine) into the synaptic cleft, a process known as exocytosis. Acetylcholine diffuses into the synaptic cleft and can bind to the nicotinic acetylcholine receptors on the motor endplate.
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- published: 07 Feb 2016
- views: 119266
This physiology video describes the 5 major steps that allow somatic motor neurons to excite the skeletal muscle and cause it to contract.
- published: 07 Feb 2019
- views: 43302
#NeuromuscularJunction #SynapticCleft #MyastheniaGravis
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- published: 08 Dec 2016
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- published: 21 Jul 2018
- views: 92117
developed with YouTube
Neuromuscular junction
A neuromuscular junction (or myoneural junction) is a chemical synapse formed by the contact between a motor neuron and a muscle fiber. It is at the neuromuscular junction that a motor neuron is able to transmit a signal to the muscle fiber, causing muscle contraction.
Muscles require innervation to function—and even just to maintain muscle tone, avoiding atrophy. Synaptic transmission at the neuromuscular junction begins when an action potential reaches the presynaptic terminal of a motor neuron, which activates voltage-dependent calcium channels to allow calcium ions to enter the neuron. Calcium ions bind to sensor proteins (synaptotagmin) on synaptic vesicles, triggering vesicle fusion with the cell membrane and subsequent neurotransmitter release from the motor neuron into the synaptic cleft. In vertebrates, motor neurons release acetylcholine (ACh), a small molecule neurotransmitter, which diffuses across the synaptic cleft and binds to nicotinic acetylcholine receptors (nAChRs) on the cell membrane of the muscle fiber, also known as the sarcolemma. nAChRs are ionotropic receptors, meaning they serve as ligand-gated ion channels. The binding of ACh to the receptor can depolarize the muscle fiber, causing a cascade that eventually results in muscle contraction.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Neuromuscular_junction
-
Neuromuscular Junction
http://armandoh.org/ Talks about the space between a neuron and muscle, and describes with a bit of detail about this relationship. https://www.facebook.com/ArmandoHasudungan Support me: http://www.patreon.com/armando Instagram: http://instagram.com/armandohasudungan Twitter: https://twitter.com/Armando71021105 PDF: https://docs.google.com/open?id=0B8Ss3-wJfHrpSE5NQThYR051UGc
published: 26 Jun 2012 -
Neuromuscular Junction
In this video, Dr Mike explains how skeletal muscle is stimulated to contract. This involves Na+, Ca2+, and acetylcholine (ACh). He also discusses how a number of muscle relaxants work.
published: 04 May 2020 -
Neuromuscular Junction, Animation
(USMLE topics) The neuron-muscle relationship and generation of action potential in skeletal muscle cell. This video and other related videos (in HD) are available for instant download licensing here : https://www.alilamedicalmedia.com/-/galleries/narrated-videos-by-topics/basic-neurobiology ©Alila Medical Media. All rights reserved. Voice by: Ashley Fleming Support us on Patreon and get early access to our videos and FREE image downloads: www.patreon.com/AlilaMedicalMedia/posts All images/videos by Alila Medical Media are for information purposes ONLY and are NOT intended to replace professional medical advice, diagnosis or treatment. Always seek the advice of a qualified healthcare provider with any questions you may have regarding a medical condition. A skeletal muscle contracts only wh...
published: 17 Mar 2020 -
2-Minute Neuroscience: Neuromuscular Junction
In this video I discuss the neuromuscular junction. The term neuromuscular junction refers to a synapse between a motor neuron and muscle fiber; activity here is essential for muscle contraction and thus movement. At the neuromuscular junction, the synaptic boutons of a motor neuron are situated over a specialized region of muscle called the end plate. The synaptic boutons release acetycholine, which travels across the synaptic cleft and activates acetylcholine receptors on the muscle fiber. This causes excitation of the muscle cell, and muscle contraction. Excess acetylcoholine is removed from the synaptic cleft by the enzyme acetylcholinesterase. TRANSCRIPT: Welcome to 2 minute neuroscience, where I simplistically explain neuroscience topics in 2 minutes or less. In this installment I ...
published: 06 Feb 2016 -
Musculoskeletal System | Neuromuscular Junction | Neuromuscular Transmission: Part 1
Official Ninja Nerd Website: https://ninjanerd.org Ninja Nerds! In this lecture Professor Zach Murphy will be teaching you about the neuromuscular junction, and the neuromuscular transmission. During part 1 of this series we will be discussing the action potentials carried by the alpha motor neuron, and the factors that play a role in the release of ACh, and the synaptoproteins involved with this process. We hope you enjoy this lecture and be sure to support us below! Join this channel to get access to perks: https://www.youtube.com/channel/UC6QYFutt9cluQ3uSM963_KQ/join APPAREL | https://www.amazon.com/s?k=ninja+nerd&ref;=nb_sb_noss_2 DONATE PATREON | https://www.patreon.com/NinjaNerdScience PAYPAL | https://www.paypal.com/paypalme/ninjanerdscience SOCIAL MEDIA FACEBOOK | https://www....
published: 19 Jun 2017 -
Neuromuscular junction, motor end-plate | NCLEX-RN | Khan Academy
How do neurons talk directly to muscle cells? Learn about how a neuronal message is translated into a muscular action at the neuromuscular junction. By Raja Narayan. Created by Raja Narayan. Watch the next lesson: https://www.khanacademy.org/test-prep/nclex-rn/rn-muscular-system/rn-the-muscular-system/v/type-1-and-2-muscle-fibers?utm_source=YT&utm;_medium=Desc&utm;_campaign=Nclex-rn Missed the previous lesson? https://www.khanacademy.org/test-prep/nclex-rn/rn-muscular-system/rn-the-muscular-system/v/motor-neurons?utm_source=YT&utm;_medium=Desc&utm;_campaign=Nclex-rn NCLEX-RN on Khan Academy: A collection of questions from content covered on the NCLEX-RN. These questions are available under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 United States License (available at http:...
published: 19 Sep 2013 -
Neuromuscular Junction (NMJ) Structure and Action
LIKE US ON FACEBOOK : fb.me/Medsimplified BUY USING AFFILIATE LINKS : AMAZON US--- https://goo.gl/XSJtTx AMAZON India http://goo.gl/QsUhku FLIPKART http://fkrt.it/Wiv8RNNNNN FLIPKART MOBILE APP http://fkrt.it/Wiv8RNNNNN A neuromuscular junction (or myoneural junction) is a chemical synapse formed by the contact between a motor neuron and a muscle fiber.[1] It is at the neuromuscular junction that a motor neuron is able to transmit a signal to the muscle fiber, causing muscle contraction. Muscles require innervation to function—and even just to maintain muscle tone, avoiding atrophy. Synaptic transmission at the neuromuscular junction begins when an action potential reaches the presynaptic terminal of a motor neuron, which activates voltage-dependent calcium channels to allow calcium...
published: 07 Feb 2016 -
The Neuromuscular Junction (Described Concisely)
This physiology video describes the 5 major steps that allow somatic motor neurons to excite the skeletal muscle and cause it to contract.
published: 07 Feb 2019 -
Neuromuscular Junction | Structure , Function & Diseases | Synsptic Cleft
#NeuromuscularJunction #SynapticCleft #MyastheniaGravis Like this video? Sign up now on our website at https://www.DrNajeebLectures.com to access 800+ Exclusive videos on Basic Medical Sciences & Clinical Medicine. These are premium videos (NOT FROM YOUTUBE). All these videos come with English subtitles & download options. Sign up now! Get Lifetime Access for a one-time payment of $99 ONLY! Why sign up for premium membership? Here's why! Membership Features for premium website members. 1. More than 800+ Medical Lectures. 2. Basic Medical Sciences & Clinical Medicine. 3. Mobile-friendly interface with android and iOS apps. 4. English subtitles and new videos every week. 5. Download option for offline video playback. 6. Fanatic customer support and that's 24/7. 7. Fast video playback op...
published: 08 Dec 2016 -
Neuromuscular Junction
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published: 21 Jul 2018
developed with YouTube
6:52
Neuromuscular Junction
- Order: Reorder
- Duration: 6:52
- Uploaded Date: 26 Jun 2012
- views: 543370
http://armandoh.org/
Talks about the space between a neuron and muscle, and describes with a bit of detail about this relationship.
https://www.facebook.com/A...
http://armandoh.org/
Talks about the space between a neuron and muscle, and describes with a bit of detail about this relationship.
https://www.facebook.com/ArmandoHasudungan
Support me:
http://www.patreon.com/armando
Instagram:
http://instagram.com/armandohasudungan
Twitter:
https://twitter.com/Armando71021105
PDF: https://docs.google.com/open?id=0B8Ss3-wJfHrpSE5NQThYR051UGc
https://wn.com/Neuromuscular_Junction
http://armandoh.org/
Talks about the space between a neuron and muscle, and describes with a bit of detail about this relationship.
https://www.facebook.com/ArmandoHasudungan
Support me:
http://www.patreon.com/armando
Instagram:
http://instagram.com/armandohasudungan
Twitter:
https://twitter.com/Armando71021105
PDF: https://docs.google.com/open?id=0B8Ss3-wJfHrpSE5NQThYR051UGc
- published: 26 Jun 2012
- views: 543370
13:08
Neuromuscular Junction
- Order: Reorder
- Duration: 13:08
- Uploaded Date: 04 May 2020
- views: 19873
In this video, Dr Mike explains how skeletal muscle is stimulated to contract.
This involves Na+, Ca2+, and acetylcholine (ACh).
He also discusses how a number ...
In this video, Dr Mike explains how skeletal muscle is stimulated to contract.
This involves Na+, Ca2+, and acetylcholine (ACh).
He also discusses how a number of muscle relaxants work.
https://wn.com/Neuromuscular_Junction
In this video, Dr Mike explains how skeletal muscle is stimulated to contract.
This involves Na+, Ca2+, and acetylcholine (ACh).
He also discusses how a number of muscle relaxants work.
- published: 04 May 2020
- views: 19873
4:49
Neuromuscular Junction, Animation
- Order: Reorder
- Duration: 4:49
- Uploaded Date: 17 Mar 2020
- views: 118467
(USMLE topics) The neuron-muscle relationship and generation of action potential in skeletal muscle cell. This video and other related videos (in HD) are availa...
(USMLE topics) The neuron-muscle relationship and generation of action potential in skeletal muscle cell. This video and other related videos (in HD) are available for instant download licensing here : https://www.alilamedicalmedia.com/-/galleries/narrated-videos-by-topics/basic-neurobiology
©Alila Medical Media. All rights reserved.
Voice by: Ashley Fleming
Support us on Patreon and get early access to our videos and FREE image downloads: www.patreon.com/AlilaMedicalMedia/posts
All images/videos by Alila Medical Media are for information purposes ONLY and are NOT intended to replace professional medical advice, diagnosis or treatment. Always seek the advice of a qualified healthcare provider with any questions you may have regarding a medical condition.
A skeletal muscle contracts only when stimulated by nerve impulses from a motor neuron.
The axon of a motor neuron usually gives out many branches, supplying multiple muscle fibers. These fibers constitute a motor unit. Small motor units are found in muscles that require finer control, for example, muscles that are responsible for subtle movements of the eyes. Large motor units are found in larger muscles that require strength, such as muscles of the arms and legs.
The strength of a muscle contraction is determined by the number of motor units that are activated at one time. Even at rest, most muscles are in a partial contraction state, called muscle tonus, which is maintained by alternating activation of a small number of motor units.
The connection between a motor neuron and a muscle fiber is called a neuromuscular junction, which is basically a chemical synapse between the nerve terminal and a specialized area of muscle cell membrane called the motor end-plate. When an action potential reaches the nerve terminal, it causes the release of the neurotransmitter acetylcholine into the synaptic space. Acetylcholine then binds to nicotinic receptors on the end-plate. Nicotinic receptors are ligand-gated ion channels. Upon binding to acetylcholine, they open to allow sodium to enter the cells, depolarizing the cell membrane, producing the so-called end-plate potential.
An action potential is generated in the muscle cell only when the end-plate potential reaches the threshold required to activate voltage-gated sodium channels located outside the end-plate, in the neighboring membrane. When activated, these channels allow faster influx of sodium, further depolarizing and eventually reversing the polarity of the cell membrane. At this point, voltage-gated potassium channels open for potassium to move out, quickly returning membrane voltage to its original resting value.
Once generated, the action potential spreads like a wave thanks to similar voltage-gated ion channels located throughout the muscle fiber. The action potential also runs deep into the fiber via T-tubules, to reach the sarcoplasmic reticulum. Here, it activates voltage-gated calcium channels, releasing calcium from the sarcoplasmic reticulum into the cytosol of muscle cells. Calcium then sets off muscle contraction by the “sliding filament mechanism”. This mechanism is described in another video.
Another important component of the neuromuscular junction is the enzyme acetylcholinesterase. This enzyme removes all acetylcholine molecules that do not immediately bind with a receptor and those that are done activating a receptor. The enzyme action essentially terminates synaptic activation, giving the muscle time to relax, and thus preventing continuous contraction that would result in muscle spasms.
Substances that cause muscle weakness or paralysis do so by interfering with the function of neuromuscular junction:
- Botulinum toxin prevents acetylcholine release from the presynaptic side of the junction.
- Some other toxins attach to nicotinic receptor, blocking acetylcholine from binding, but do not open the ion channel.
- Certain drugs lodge into the channel of nicotinic receptor, blocking the passage of sodium.
All these substances prevent activation of muscle cells and cause flaccid paralysis.
On the other hand, some pesticides inhibit acetylcholinesterase, preventing degradation of acetylcholine, causing continuous activation of muscles. That’s how they induce muscle spasms and cause spastic paralysis.
https://wn.com/Neuromuscular_Junction,_Animation
(USMLE topics) The neuron-muscle relationship and generation of action potential in skeletal muscle cell. This video and other related videos (in HD) are available for instant download licensing here : https://www.alilamedicalmedia.com/-/galleries/narrated-videos-by-topics/basic-neurobiology
©Alila Medical Media. All rights reserved.
Voice by: Ashley Fleming
Support us on Patreon and get early access to our videos and FREE image downloads: www.patreon.com/AlilaMedicalMedia/posts
All images/videos by Alila Medical Media are for information purposes ONLY and are NOT intended to replace professional medical advice, diagnosis or treatment. Always seek the advice of a qualified healthcare provider with any questions you may have regarding a medical condition.
A skeletal muscle contracts only when stimulated by nerve impulses from a motor neuron.
The axon of a motor neuron usually gives out many branches, supplying multiple muscle fibers. These fibers constitute a motor unit. Small motor units are found in muscles that require finer control, for example, muscles that are responsible for subtle movements of the eyes. Large motor units are found in larger muscles that require strength, such as muscles of the arms and legs.
The strength of a muscle contraction is determined by the number of motor units that are activated at one time. Even at rest, most muscles are in a partial contraction state, called muscle tonus, which is maintained by alternating activation of a small number of motor units.
The connection between a motor neuron and a muscle fiber is called a neuromuscular junction, which is basically a chemical synapse between the nerve terminal and a specialized area of muscle cell membrane called the motor end-plate. When an action potential reaches the nerve terminal, it causes the release of the neurotransmitter acetylcholine into the synaptic space. Acetylcholine then binds to nicotinic receptors on the end-plate. Nicotinic receptors are ligand-gated ion channels. Upon binding to acetylcholine, they open to allow sodium to enter the cells, depolarizing the cell membrane, producing the so-called end-plate potential.
An action potential is generated in the muscle cell only when the end-plate potential reaches the threshold required to activate voltage-gated sodium channels located outside the end-plate, in the neighboring membrane. When activated, these channels allow faster influx of sodium, further depolarizing and eventually reversing the polarity of the cell membrane. At this point, voltage-gated potassium channels open for potassium to move out, quickly returning membrane voltage to its original resting value.
Once generated, the action potential spreads like a wave thanks to similar voltage-gated ion channels located throughout the muscle fiber. The action potential also runs deep into the fiber via T-tubules, to reach the sarcoplasmic reticulum. Here, it activates voltage-gated calcium channels, releasing calcium from the sarcoplasmic reticulum into the cytosol of muscle cells. Calcium then sets off muscle contraction by the “sliding filament mechanism”. This mechanism is described in another video.
Another important component of the neuromuscular junction is the enzyme acetylcholinesterase. This enzyme removes all acetylcholine molecules that do not immediately bind with a receptor and those that are done activating a receptor. The enzyme action essentially terminates synaptic activation, giving the muscle time to relax, and thus preventing continuous contraction that would result in muscle spasms.
Substances that cause muscle weakness or paralysis do so by interfering with the function of neuromuscular junction:
- Botulinum toxin prevents acetylcholine release from the presynaptic side of the junction.
- Some other toxins attach to nicotinic receptor, blocking acetylcholine from binding, but do not open the ion channel.
- Certain drugs lodge into the channel of nicotinic receptor, blocking the passage of sodium.
All these substances prevent activation of muscle cells and cause flaccid paralysis.
On the other hand, some pesticides inhibit acetylcholinesterase, preventing degradation of acetylcholine, causing continuous activation of muscles. That’s how they induce muscle spasms and cause spastic paralysis.
- published: 17 Mar 2020
- views: 118467
1:58
2-Minute Neuroscience: Neuromuscular Junction
- Order: Reorder
- Duration: 1:58
- Uploaded Date: 06 Feb 2016
- views: 183485
In this video I discuss the neuromuscular junction. The term neuromuscular junction refers to a synapse between a motor neuron and muscle fiber; activity here i...
In this video I discuss the neuromuscular junction. The term neuromuscular junction refers to a synapse between a motor neuron and muscle fiber; activity here is essential for muscle contraction and thus movement. At the neuromuscular junction, the synaptic boutons of a motor neuron are situated over a specialized region of muscle called the end plate. The synaptic boutons release acetycholine, which travels across the synaptic cleft and activates acetylcholine receptors on the muscle fiber. This causes excitation of the muscle cell, and muscle contraction. Excess acetylcoholine is removed from the synaptic cleft by the enzyme acetylcholinesterase.
TRANSCRIPT:
Welcome to 2 minute neuroscience, where I simplistically explain neuroscience topics in 2 minutes or less. In this installment I will discuss the neuromuscular junction.
The term neuromuscular junction refers to the synapse between a motor neuron and a skeletal muscle fiber. Activity at the neuromuscular junction is essential for the contraction of skeletal muscle to occur, and even just to keep muscles from atrophying. It is also the site where synaptic transmission was first studied and thus is the best understood example of chemical signaling in the nervous system. When a motor neuron approaches a muscle, it branches out into several extensions that end in areas called synaptic boutons, which can release neurotransmitters. These synaptic boutons are situated over a specialized region of muscle called the end-plate.
The synaptic boutons are separated from the end plate by a space called the synaptic cleft. The end-plate beneath each synaptic bouton contains several deep indentations called junctional folds. These junctional folds contain high numbers of ligand-gated ion channel receptors for the neurotransmitter acetylcholine.
When an action potential travels down the motor neuron, it causes the release of acetylcholine into the synaptic cleft. Acetylcholine binds to acetylcholine receptors in the junctional folds of the muscle membrane, which causes ion channels to open to allow positive sodium ions to flow into the postsynaptic cell. This produces a depolarization of that cell called an excitatory post-synaptic potential, also known as the end-plate potential when it occurs at the neuromuscular junction. This depolarization leads to the opening of voltage gated sodium channels, which causes the end-plate potential to lead to an action potential. This action potential travels along the muscle fiber and causes contraction of the muscle.
The enzyme acetylcholinesterase is also present at the neuromuscular junction; it breaks down acetylcholine and in the process terminates its effects on the muscle fiber, thus ending the communication between the motor neuron and the muscle fiber.
REFERENCE:
Purves D, Augustine GJ, Fitzpatrick D, Hall WC, Lamantia AS, McNamara JO, White LE. Neuroscience. 4th ed. Sunderland, MA. Sinauer Associates; 2008.
https://wn.com/2_Minute_Neuroscience_Neuromuscular_Junction
In this video I discuss the neuromuscular junction. The term neuromuscular junction refers to a synapse between a motor neuron and muscle fiber; activity here is essential for muscle contraction and thus movement. At the neuromuscular junction, the synaptic boutons of a motor neuron are situated over a specialized region of muscle called the end plate. The synaptic boutons release acetycholine, which travels across the synaptic cleft and activates acetylcholine receptors on the muscle fiber. This causes excitation of the muscle cell, and muscle contraction. Excess acetylcoholine is removed from the synaptic cleft by the enzyme acetylcholinesterase.
TRANSCRIPT:
Welcome to 2 minute neuroscience, where I simplistically explain neuroscience topics in 2 minutes or less. In this installment I will discuss the neuromuscular junction.
The term neuromuscular junction refers to the synapse between a motor neuron and a skeletal muscle fiber. Activity at the neuromuscular junction is essential for the contraction of skeletal muscle to occur, and even just to keep muscles from atrophying. It is also the site where synaptic transmission was first studied and thus is the best understood example of chemical signaling in the nervous system. When a motor neuron approaches a muscle, it branches out into several extensions that end in areas called synaptic boutons, which can release neurotransmitters. These synaptic boutons are situated over a specialized region of muscle called the end-plate.
The synaptic boutons are separated from the end plate by a space called the synaptic cleft. The end-plate beneath each synaptic bouton contains several deep indentations called junctional folds. These junctional folds contain high numbers of ligand-gated ion channel receptors for the neurotransmitter acetylcholine.
When an action potential travels down the motor neuron, it causes the release of acetylcholine into the synaptic cleft. Acetylcholine binds to acetylcholine receptors in the junctional folds of the muscle membrane, which causes ion channels to open to allow positive sodium ions to flow into the postsynaptic cell. This produces a depolarization of that cell called an excitatory post-synaptic potential, also known as the end-plate potential when it occurs at the neuromuscular junction. This depolarization leads to the opening of voltage gated sodium channels, which causes the end-plate potential to lead to an action potential. This action potential travels along the muscle fiber and causes contraction of the muscle.
The enzyme acetylcholinesterase is also present at the neuromuscular junction; it breaks down acetylcholine and in the process terminates its effects on the muscle fiber, thus ending the communication between the motor neuron and the muscle fiber.
REFERENCE:
Purves D, Augustine GJ, Fitzpatrick D, Hall WC, Lamantia AS, McNamara JO, White LE. Neuroscience. 4th ed. Sunderland, MA. Sinauer Associates; 2008.
- published: 06 Feb 2016
- views: 183485
31:33
Musculoskeletal System | Neuromuscular Junction | Neuromuscular Transmission: Part 1
- Order: Reorder
- Duration: 31:33
- Uploaded Date: 19 Jun 2017
- views: 218619
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In this lecture Professor Zach Murphy will be teaching you about the neuromuscular junction, an...
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In this lecture Professor Zach Murphy will be teaching you about the neuromuscular junction, and the neuromuscular transmission. During part 1 of this series we will be discussing the action potentials carried by the alpha motor neuron, and the factors that play a role in the release of ACh, and the synaptoproteins involved with this process. We hope you enjoy this lecture and be sure to support us below!
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In this lecture Professor Zach Murphy will be teaching you about the neuromuscular junction, and the neuromuscular transmission. During part 1 of this series we will be discussing the action potentials carried by the alpha motor neuron, and the factors that play a role in the release of ACh, and the synaptoproteins involved with this process. We hope you enjoy this lecture and be sure to support us below!
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- published: 19 Jun 2017
- views: 218619
9:00
Neuromuscular junction, motor end-plate | NCLEX-RN | Khan Academy
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- Duration: 9:00
- Uploaded Date: 19 Sep 2013
- views: 462720
How do neurons talk directly to muscle cells? Learn about how a neuronal message is translated into a muscular action at the neuromuscular junction. By Raja Nar...
How do neurons talk directly to muscle cells? Learn about how a neuronal message is translated into a muscular action at the neuromuscular junction. By Raja Narayan. Created by Raja Narayan.
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How do neurons talk directly to muscle cells? Learn about how a neuronal message is translated into a muscular action at the neuromuscular junction. By Raja Narayan. Created by Raja Narayan.
Watch the next lesson: https://www.khanacademy.org/test-prep/nclex-rn/rn-muscular-system/rn-the-muscular-system/v/type-1-and-2-muscle-fibers?utm_source=YT&utm;_medium=Desc&utm;_campaign=Nclex-rn
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About Khan Academy: Khan Academy offers practice exercises, instructional videos, and a personalized learning dashboard that empower learners to study at their own pace in and outside of the classroom. We tackle math, science, computer programming, history, art history, economics, and more. Our math missions guide learners from kindergarten to calculus using state-of-the-art, adaptive technology that identifies strengths and learning gaps. We've also partnered with institutions like NASA, The Museum of Modern Art, The California Academy of Sciences, and MIT to offer specialized content.
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- published: 19 Sep 2013
- views: 462720
3:38
Neuromuscular Junction (NMJ) Structure and Action
- Order: Reorder
- Duration: 3:38
- Uploaded Date: 07 Feb 2016
- views: 119266
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A neuromuscular junction (or myoneural junction) is a chemical synapse formed by the contact between a motor neuron and a muscle fiber.[1] It is at the neuromuscular junction that a motor neuron is able to transmit a signal to the muscle fiber, causing muscle contraction.
Muscles require innervation to function—and even just to maintain muscle tone, avoiding atrophy. Synaptic transmission at the neuromuscular junction begins when an action potential reaches the presynaptic terminal of a motor neuron, which activates voltage-dependent calcium channels to allow calcium ions to enter the neuron. Calcium ions bind to sensor proteins (synaptotagmin) on synaptic vesicles, triggering vesicle fusion with the cell membrane and subsequent neurotransmitter release from the motor neuron into the synaptic cleft. In vertebrates, motor neurons release acetylcholine (ACh), a small molecule neurotransmitter, which diffuses across the synaptic cleft and binds to nicotinic acetylcholine receptors (nAChRs) on the cell membrane of the muscle fiber, also known as the sarcolemma. nAChRs are ionotropic receptors, meaning they serve as ligand-gated ion channels. The binding of ACh to the receptor can depolarize the muscle fiber, causing a cascade that eventually results in muscle contraction.
Neuromuscular junction diseases can be of genetic and autoimmune origin. Genetic disorders, such as Duchenne muscular dystrophy, can arise from mutated structural proteins that comprise the neuromuscular junction, whereas autoimmune diseases, such as myasthenia gravis, occur when antibodies are produced against nicotinic acetylcholine receptors on the sarcolemma.
The neuromuscular junction differs from chemical synapses between neurons. Presynaptic motor axons stop 30 nanometers from the sarcolemma, the cell membrane of a muscle cell. This 30-nanometer space forms the synaptic cleft through which signalling molecules are released. The sarcolemma has invaginations called postjunctional folds, which increase the surface area of the membrane exposed to the synaptic cleft.[2] These postjunctional folds form what is referred to as the motor endplate, which possess nicotinic acetylcholine receptors (nAChRs) at a density of 10,000 receptors/micrometer2 in skeletal muscle.[3] The presynaptic axons form bulges called terminal boutons (or presynaptic terminals) that project into the postjunctional folds of the sarcolemma. The presynaptic terminals have active zones that contain vesicles, quanta, full of acetylcholine molecules. These vesicles can fuse with the presynaptic membrane and release ACh molecules into the synaptic cleft via exocytosis after depolarization.[2] AChRs are localized opposite the presynaptic terminals by protein scaffolds at the postjunctional folds of the sarcolemma. Dystrophin, a structural protein, connects the sarcomere, sarcolemma, and extracellular matrix components. Rapsyn is another protein that docks AChRs and structural proteins to the cytoskeleton. Also present is the receptor tyrosine kinase protein MuSK, a signaling protein involved in the development of the neuromuscular junction, which is also held in place by rapsyn.[2]
Mechanism of action
The neuromuscular junction is where a neuron activates a muscle to contract. Upon the arrival of an action potential at the presynaptic neuron terminal, voltage-dependent calcium channels open and Ca2+ ions flow from the extracellular fluid into the presynaptic neuron's cytosol. This influx of Ca2+ causes neurotransmitter-containing vesicles to dock and fuse to the presynaptic neuron's cell membrane through SNARE proteins. Fusion of the vesicular membrane with the presynaptic cell membrane results in the emptying of the vesicle's contents (acetylcholine) into the synaptic cleft, a process known as exocytosis. Acetylcholine diffuses into the synaptic cleft and can bind to the nicotinic acetylcholine receptors on the motor endplate.
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A neuromuscular junction (or myoneural junction) is a chemical synapse formed by the contact between a motor neuron and a muscle fiber.[1] It is at the neuromuscular junction that a motor neuron is able to transmit a signal to the muscle fiber, causing muscle contraction.
Muscles require innervation to function—and even just to maintain muscle tone, avoiding atrophy. Synaptic transmission at the neuromuscular junction begins when an action potential reaches the presynaptic terminal of a motor neuron, which activates voltage-dependent calcium channels to allow calcium ions to enter the neuron. Calcium ions bind to sensor proteins (synaptotagmin) on synaptic vesicles, triggering vesicle fusion with the cell membrane and subsequent neurotransmitter release from the motor neuron into the synaptic cleft. In vertebrates, motor neurons release acetylcholine (ACh), a small molecule neurotransmitter, which diffuses across the synaptic cleft and binds to nicotinic acetylcholine receptors (nAChRs) on the cell membrane of the muscle fiber, also known as the sarcolemma. nAChRs are ionotropic receptors, meaning they serve as ligand-gated ion channels. The binding of ACh to the receptor can depolarize the muscle fiber, causing a cascade that eventually results in muscle contraction.
Neuromuscular junction diseases can be of genetic and autoimmune origin. Genetic disorders, such as Duchenne muscular dystrophy, can arise from mutated structural proteins that comprise the neuromuscular junction, whereas autoimmune diseases, such as myasthenia gravis, occur when antibodies are produced against nicotinic acetylcholine receptors on the sarcolemma.
The neuromuscular junction differs from chemical synapses between neurons. Presynaptic motor axons stop 30 nanometers from the sarcolemma, the cell membrane of a muscle cell. This 30-nanometer space forms the synaptic cleft through which signalling molecules are released. The sarcolemma has invaginations called postjunctional folds, which increase the surface area of the membrane exposed to the synaptic cleft.[2] These postjunctional folds form what is referred to as the motor endplate, which possess nicotinic acetylcholine receptors (nAChRs) at a density of 10,000 receptors/micrometer2 in skeletal muscle.[3] The presynaptic axons form bulges called terminal boutons (or presynaptic terminals) that project into the postjunctional folds of the sarcolemma. The presynaptic terminals have active zones that contain vesicles, quanta, full of acetylcholine molecules. These vesicles can fuse with the presynaptic membrane and release ACh molecules into the synaptic cleft via exocytosis after depolarization.[2] AChRs are localized opposite the presynaptic terminals by protein scaffolds at the postjunctional folds of the sarcolemma. Dystrophin, a structural protein, connects the sarcomere, sarcolemma, and extracellular matrix components. Rapsyn is another protein that docks AChRs and structural proteins to the cytoskeleton. Also present is the receptor tyrosine kinase protein MuSK, a signaling protein involved in the development of the neuromuscular junction, which is also held in place by rapsyn.[2]
Mechanism of action
The neuromuscular junction is where a neuron activates a muscle to contract. Upon the arrival of an action potential at the presynaptic neuron terminal, voltage-dependent calcium channels open and Ca2+ ions flow from the extracellular fluid into the presynaptic neuron's cytosol. This influx of Ca2+ causes neurotransmitter-containing vesicles to dock and fuse to the presynaptic neuron's cell membrane through SNARE proteins. Fusion of the vesicular membrane with the presynaptic cell membrane results in the emptying of the vesicle's contents (acetylcholine) into the synaptic cleft, a process known as exocytosis. Acetylcholine diffuses into the synaptic cleft and can bind to the nicotinic acetylcholine receptors on the motor endplate.
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- published: 07 Feb 2016
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6:14
The Neuromuscular Junction (Described Concisely)
- Order: Reorder
- Duration: 6:14
- Uploaded Date: 07 Feb 2019
- views: 43302
This physiology video describes the 5 major steps that allow somatic motor neurons to excite the skeletal muscle and cause it to contract.
This physiology video describes the 5 major steps that allow somatic motor neurons to excite the skeletal muscle and cause it to contract.
https://wn.com/The_Neuromuscular_Junction_(Described_Concisely)
This physiology video describes the 5 major steps that allow somatic motor neurons to excite the skeletal muscle and cause it to contract.
- published: 07 Feb 2019
- views: 43302
1:31:36
Neuromuscular Junction | Structure , Function & Diseases | Synsptic Cleft
- Order: Reorder
- Duration: 1:31:36
- Uploaded Date: 08 Dec 2016
- views: 340647
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- published: 08 Dec 2016
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15:19
Neuromuscular Junction
- Order: Reorder
- Duration: 15:19
- Uploaded Date: 21 Jul 2018
- views: 92117
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- published: 21 Jul 2018
- views: 92117
6:52
Neuromuscular Junction
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Talks about the space between a neuron and muscle, and describes wit...
published: 26 Jun 2012
Neuromuscular Junction
Neuromuscular Junction
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Talks about the space between a neuron and muscle, and describes with a bit of detail about this relationship.
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13:08
Neuromuscular Junction
In this video, Dr Mike explains how skeletal muscle is stimulated to contract.
This involv...
published: 04 May 2020
Neuromuscular Junction
Neuromuscular Junction
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In this video, Dr Mike explains how skeletal muscle is stimulated to contract.
This involves Na+, Ca2+, and acetylcholine (ACh).
He also discusses how a number of muscle relaxants work.
4:49
Neuromuscular Junction, Animation
(USMLE topics) The neuron-muscle relationship and generation of action potential in skelet...
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Neuromuscular Junction, Animation
Neuromuscular Junction, Animation
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(USMLE topics) The neuron-muscle relationship and generation of action potential in skeletal muscle cell. This video and other related videos (in HD) are available for instant download licensing here : https://www.alilamedicalmedia.com/-/galleries/narrated-videos-by-topics/basic-neurobiology
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A skeletal muscle contracts only when stimulated by nerve impulses from a motor neuron.
The axon of a motor neuron usually gives out many branches, supplying multiple muscle fibers. These fibers constitute a motor unit. Small motor units are found in muscles that require finer control, for example, muscles that are responsible for subtle movements of the eyes. Large motor units are found in larger muscles that require strength, such as muscles of the arms and legs.
The strength of a muscle contraction is determined by the number of motor units that are activated at one time. Even at rest, most muscles are in a partial contraction state, called muscle tonus, which is maintained by alternating activation of a small number of motor units.
The connection between a motor neuron and a muscle fiber is called a neuromuscular junction, which is basically a chemical synapse between the nerve terminal and a specialized area of muscle cell membrane called the motor end-plate. When an action potential reaches the nerve terminal, it causes the release of the neurotransmitter acetylcholine into the synaptic space. Acetylcholine then binds to nicotinic receptors on the end-plate. Nicotinic receptors are ligand-gated ion channels. Upon binding to acetylcholine, they open to allow sodium to enter the cells, depolarizing the cell membrane, producing the so-called end-plate potential.
An action potential is generated in the muscle cell only when the end-plate potential reaches the threshold required to activate voltage-gated sodium channels located outside the end-plate, in the neighboring membrane. When activated, these channels allow faster influx of sodium, further depolarizing and eventually reversing the polarity of the cell membrane. At this point, voltage-gated potassium channels open for potassium to move out, quickly returning membrane voltage to its original resting value.
Once generated, the action potential spreads like a wave thanks to similar voltage-gated ion channels located throughout the muscle fiber. The action potential also runs deep into the fiber via T-tubules, to reach the sarcoplasmic reticulum. Here, it activates voltage-gated calcium channels, releasing calcium from the sarcoplasmic reticulum into the cytosol of muscle cells. Calcium then sets off muscle contraction by the “sliding filament mechanism”. This mechanism is described in another video.
Another important component of the neuromuscular junction is the enzyme acetylcholinesterase. This enzyme removes all acetylcholine molecules that do not immediately bind with a receptor and those that are done activating a receptor. The enzyme action essentially terminates synaptic activation, giving the muscle time to relax, and thus preventing continuous contraction that would result in muscle spasms.
Substances that cause muscle weakness or paralysis do so by interfering with the function of neuromuscular junction:
- Botulinum toxin prevents acetylcholine release from the presynaptic side of the junction.
- Some other toxins attach to nicotinic receptor, blocking acetylcholine from binding, but do not open the ion channel.
- Certain drugs lodge into the channel of nicotinic receptor, blocking the passage of sodium.
All these substances prevent activation of muscle cells and cause flaccid paralysis.
On the other hand, some pesticides inhibit acetylcholinesterase, preventing degradation of acetylcholine, causing continuous activation of muscles. That’s how they induce muscle spasms and cause spastic paralysis.
1:58
2-Minute Neuroscience: Neuromuscular Junction
In this video I discuss the neuromuscular junction. The term neuromuscular junction refers...
published: 06 Feb 2016
2-Minute Neuroscience: Neuromuscular Junction
2-Minute Neuroscience: Neuromuscular Junction
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In this video I discuss the neuromuscular junction. The term neuromuscular junction refers to a synapse between a motor neuron and muscle fiber; activity here is essential for muscle contraction and thus movement. At the neuromuscular junction, the synaptic boutons of a motor neuron are situated over a specialized region of muscle called the end plate. The synaptic boutons release acetycholine, which travels across the synaptic cleft and activates acetylcholine receptors on the muscle fiber. This causes excitation of the muscle cell, and muscle contraction. Excess acetylcoholine is removed from the synaptic cleft by the enzyme acetylcholinesterase.
TRANSCRIPT:
Welcome to 2 minute neuroscience, where I simplistically explain neuroscience topics in 2 minutes or less. In this installment I will discuss the neuromuscular junction.
The term neuromuscular junction refers to the synapse between a motor neuron and a skeletal muscle fiber. Activity at the neuromuscular junction is essential for the contraction of skeletal muscle to occur, and even just to keep muscles from atrophying. It is also the site where synaptic transmission was first studied and thus is the best understood example of chemical signaling in the nervous system. When a motor neuron approaches a muscle, it branches out into several extensions that end in areas called synaptic boutons, which can release neurotransmitters. These synaptic boutons are situated over a specialized region of muscle called the end-plate.
The synaptic boutons are separated from the end plate by a space called the synaptic cleft. The end-plate beneath each synaptic bouton contains several deep indentations called junctional folds. These junctional folds contain high numbers of ligand-gated ion channel receptors for the neurotransmitter acetylcholine.
When an action potential travels down the motor neuron, it causes the release of acetylcholine into the synaptic cleft. Acetylcholine binds to acetylcholine receptors in the junctional folds of the muscle membrane, which causes ion channels to open to allow positive sodium ions to flow into the postsynaptic cell. This produces a depolarization of that cell called an excitatory post-synaptic potential, also known as the end-plate potential when it occurs at the neuromuscular junction. This depolarization leads to the opening of voltage gated sodium channels, which causes the end-plate potential to lead to an action potential. This action potential travels along the muscle fiber and causes contraction of the muscle.
The enzyme acetylcholinesterase is also present at the neuromuscular junction; it breaks down acetylcholine and in the process terminates its effects on the muscle fiber, thus ending the communication between the motor neuron and the muscle fiber.
REFERENCE:
Purves D, Augustine GJ, Fitzpatrick D, Hall WC, Lamantia AS, McNamara JO, White LE. Neuroscience. 4th ed. Sunderland, MA. Sinauer Associates; 2008.
31:33
Musculoskeletal System | Neuromuscular Junction | Neuromuscular Transmission: Part 1
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published: 19 Jun 2017
Musculoskeletal System | Neuromuscular Junction | Neuromuscular Transmission: Part 1
Musculoskeletal System | Neuromuscular Junction | Neuromuscular Transmission: Part 1
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In this lecture Professor Zach Murphy will be teaching you about the neuromuscular junction, and the neuromuscular transmission. During part 1 of this series we will be discussing the action potentials carried by the alpha motor neuron, and the factors that play a role in the release of ACh, and the synaptoproteins involved with this process. We hope you enjoy this lecture and be sure to support us below!
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9:00
Neuromuscular junction, motor end-plate | NCLEX-RN | Khan Academy
How do neurons talk directly to muscle cells? Learn about how a neuronal message is transl...
published: 19 Sep 2013
Neuromuscular junction, motor end-plate | NCLEX-RN | Khan Academy
Neuromuscular junction, motor end-plate | NCLEX-RN | Khan Academy
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How do neurons talk directly to muscle cells? Learn about how a neuronal message is translated into a muscular action at the neuromuscular junction. By Raja Narayan. Created by Raja Narayan.
Watch the next lesson: https://www.khanacademy.org/test-prep/nclex-rn/rn-muscular-system/rn-the-muscular-system/v/type-1-and-2-muscle-fibers?utm_source=YT&utm;_medium=Desc&utm;_campaign=Nclex-rn
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3:38
Neuromuscular Junction (NMJ) Structure and Action
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published: 07 Feb 2016
Neuromuscular Junction (NMJ) Structure and Action
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A neuromuscular junction (or myoneural junction) is a chemical synapse formed by the contact between a motor neuron and a muscle fiber.[1] It is at the neuromuscular junction that a motor neuron is able to transmit a signal to the muscle fiber, causing muscle contraction.
Muscles require innervation to function—and even just to maintain muscle tone, avoiding atrophy. Synaptic transmission at the neuromuscular junction begins when an action potential reaches the presynaptic terminal of a motor neuron, which activates voltage-dependent calcium channels to allow calcium ions to enter the neuron. Calcium ions bind to sensor proteins (synaptotagmin) on synaptic vesicles, triggering vesicle fusion with the cell membrane and subsequent neurotransmitter release from the motor neuron into the synaptic cleft. In vertebrates, motor neurons release acetylcholine (ACh), a small molecule neurotransmitter, which diffuses across the synaptic cleft and binds to nicotinic acetylcholine receptors (nAChRs) on the cell membrane of the muscle fiber, also known as the sarcolemma. nAChRs are ionotropic receptors, meaning they serve as ligand-gated ion channels. The binding of ACh to the receptor can depolarize the muscle fiber, causing a cascade that eventually results in muscle contraction.
Neuromuscular junction diseases can be of genetic and autoimmune origin. Genetic disorders, such as Duchenne muscular dystrophy, can arise from mutated structural proteins that comprise the neuromuscular junction, whereas autoimmune diseases, such as myasthenia gravis, occur when antibodies are produced against nicotinic acetylcholine receptors on the sarcolemma.
The neuromuscular junction differs from chemical synapses between neurons. Presynaptic motor axons stop 30 nanometers from the sarcolemma, the cell membrane of a muscle cell. This 30-nanometer space forms the synaptic cleft through which signalling molecules are released. The sarcolemma has invaginations called postjunctional folds, which increase the surface area of the membrane exposed to the synaptic cleft.[2] These postjunctional folds form what is referred to as the motor endplate, which possess nicotinic acetylcholine receptors (nAChRs) at a density of 10,000 receptors/micrometer2 in skeletal muscle.[3] The presynaptic axons form bulges called terminal boutons (or presynaptic terminals) that project into the postjunctional folds of the sarcolemma. The presynaptic terminals have active zones that contain vesicles, quanta, full of acetylcholine molecules. These vesicles can fuse with the presynaptic membrane and release ACh molecules into the synaptic cleft via exocytosis after depolarization.[2] AChRs are localized opposite the presynaptic terminals by protein scaffolds at the postjunctional folds of the sarcolemma. Dystrophin, a structural protein, connects the sarcomere, sarcolemma, and extracellular matrix components. Rapsyn is another protein that docks AChRs and structural proteins to the cytoskeleton. Also present is the receptor tyrosine kinase protein MuSK, a signaling protein involved in the development of the neuromuscular junction, which is also held in place by rapsyn.[2]
Mechanism of action
The neuromuscular junction is where a neuron activates a muscle to contract. Upon the arrival of an action potential at the presynaptic neuron terminal, voltage-dependent calcium channels open and Ca2+ ions flow from the extracellular fluid into the presynaptic neuron's cytosol. This influx of Ca2+ causes neurotransmitter-containing vesicles to dock and fuse to the presynaptic neuron's cell membrane through SNARE proteins. Fusion of the vesicular membrane with the presynaptic cell membrane results in the emptying of the vesicle's contents (acetylcholine) into the synaptic cleft, a process known as exocytosis. Acetylcholine diffuses into the synaptic cleft and can bind to the nicotinic acetylcholine receptors on the motor endplate.
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6:14
The Neuromuscular Junction (Described Concisely)
This physiology video describes the 5 major steps that allow somatic motor neurons to exci...
published: 07 Feb 2019
The Neuromuscular Junction (Described Concisely)
The Neuromuscular Junction (Described Concisely)
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This physiology video describes the 5 major steps that allow somatic motor neurons to excite the skeletal muscle and cause it to contract.
1:31:36
Neuromuscular Junction | Structure , Function & Diseases | Synsptic Cleft
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published: 08 Dec 2016
Neuromuscular Junction | Structure , Function & Diseases | Synsptic Cleft
Neuromuscular Junction | Structure , Function & Diseases | Synsptic Cleft
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15:19
Neuromuscular Junction
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published: 21 Jul 2018
Neuromuscular Junction
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Neuromuscular junction
A neuromuscular junction (or myoneural junction) is a chemical synapse formed by the contact between a motor neuron and a muscle fiber. It is at the neuromuscular junction that a motor neuron is able to transmit a signal to the muscle fiber, causing muscle contraction.
Muscles require innervation to function—and even just to maintain muscle tone, avoiding atrophy. Synaptic transmission at the neuromuscular junction begins when an action potential reaches the presynaptic terminal of a motor neuron, which activates voltage-dependent calcium channels to allow calcium ions to enter the neuron. Calcium ions bind to sensor proteins (synaptotagmin) on synaptic vesicles, triggering vesicle fusion with the cell membrane and subsequent neurotransmitter release from the motor neuron into the synaptic cleft. In vertebrates, motor neurons release acetylcholine (ACh), a small molecule neurotransmitter, which diffuses across the synaptic cleft and binds to nicotinic acetylcholine receptors (nAChRs) on the cell membrane of the muscle fiber, also known as the sarcolemma. nAChRs are ionotropic receptors, meaning they serve as ligand-gated ion channels. The binding of ACh to the receptor can depolarize the muscle fiber, causing a cascade that eventually results in muscle contraction.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Neuromuscular_junction
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Ellensburg Daily Record
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Insmed Reports Third Quarter 2021 Financial Results and Provides Business Update
Ellensburg Daily Record
28 Oct 2021
ARIKAYCE ... Neuromuscular Blockade. Patients with neuromuscular disorders were not enrolled in ARIKAYCE clinical trials. Patients with known or suspected neuromuscular disorders, such as myasthenia gravis, should be closely monitored since aminoglycosides may aggravate muscle weakness by blocking the release of acetylcholine at neuromuscular junctions.
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Corvallis Gazette-Times
14 Oct 2021
To Your Good Health: Women shouldn't ignore chest pain or discomfort
Corvallis Gazette-Times
14 Oct 2021
DEAR DR. ROACH. I have been having pains and discomfort in my chest area for over a month now. I am a woman and in my early 30s ... — R.H. ANSWER ... 1 cause of death in women ... Fasciculations arise from the junction of the muscle and nerve, and although they can occasionally represent serious neuromuscular disease, are far more likely to be benign ... DEAR DR ... Dr.
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The Marshall News Messenger
14 Oct 2021
To Your Good Health: Women: Don't ignore chest pain or discomfort
The Marshall News Messenger
14 Oct 2021
DEAR DR. ROACH. I have been having pains and discomfort in my chest area for over a month now. I am a woman and in my early 30s ... — R.H. ANSWER ... 1 cause of death in women ... Fasciculations arise from the junction of the muscle and nerve, and although they can occasionally represent serious neuromuscular disease, are far more likely to be benign ... DEAR DR ... ....
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The Citizens
14 Oct 2021
HEALTH: Women: Don't ignore chest pain or discomfort
The Citizens
14 Oct 2021
DEAR DR. ROACH. I have been having pains and discomfort in my chest area for over a month now. I am a woman and in my early 30s ... -- R.H. ANSWER ... 1 cause of death in women ... Fasciculations arise from the junction of the muscle and nerve, and although they can occasionally represent serious neuromuscular disease, are far more likely to be benign ... DEAR DR ... +8 ... .
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Dear Doctor: Chest pains aren’t something to ignore even if you’re in your 30s
DEAR DR. ROACH. I have been having pains and discomfort in my chest area for over a month now. I am a woman and in my early 30s ... -- R.H. ANSWER ... 1 cause of death in women ... Fasciculations arise from the junction of the muscle and nerve, and although they can occasionally represent serious neuromuscular disease, are far more likely to be benign ... DEAR DR ... Dr.
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The Salamanca Press
06 Oct 2021
Amplo Biotechnology Closes Series Seed Financing to Advance Gene Therapies for The Treatment of Neuromuscular ...
The Salamanca Press
06 Oct 2021
6, 2021 /PRNewswire/ -- Amplo Biotechnology, a privately held�US-based biotech focused on developing AAV (Adeno-associated Virus)-based gene therapies for diseases affecting the neuromuscular junction, today announced the successful closing of an undisclosed Series Seed financing.
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Amplo Biotechnology Closes Series Seed Financing to Advance Gene Therapies for The Treatment of Neuromuscular Junction Disorders
6, 2021 /PRNewswire/ -- Amplo Biotechnology, a privately held US-based biotech focused on developing AAV (Adeno-associated Virus)-based gene therapies for diseases affecting the neuromuscular junction, today announced the successful closing of an undisclosed Series Seed financing.
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Skeletal Muscle Grown in a Dish Offers New Insight for Neuromuscular Diseases
Santoso said the neuromuscular junction is a highly-structured connection, with pretzel-like folds that increase the area for communication between a neuron and a muscle ... In neuromuscular diseases — as well as in the natural aging process — there is often stress, or a break in connection, within the neuromuscular junction.
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Daily Times Chronicle
27 Sep 2021
Harbour BioMed Announces Dosing of First Patient of Batoclimab Phase III Trial in Patients with ...
Daily Times Chronicle
27 Sep 2021
... immunoglobulin G (IgG) antibody and anti-muscle-specific tyrosine kinase (Anti-MuSK) IgG, which involves the postsynaptic membrane of the neuromuscular junction, causes impaired transmission at the neuromuscular junction, and presents with skeletal muscle contraction weakness.
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Skeletal muscle grown in a dish offers insight into neuromuscular diseases
students at USC Viterbi School of Engineering have created a vastly improved new lab-grown tissue model that offers a more stable view of the neuromuscular junction—an important part of our system that translates electrical impulses generated by the neurons in our spine into electrical activity and movement in our muscle fibers.
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Does this enzyme raise the chance of COVID-related death?
At high levels, the enzyme has the ability to "shred" the membranes of vital organs. cnxps.cmd.push(function () { cnxps({ playerId ... COVID-19 cell (credit ... "Like venom coursing through the body, [the enzyme] has the capacity to bind to receptors at neuromuscular junctions and potentially disable the function of these muscles," said Chilton ... .
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The Trentonian
25 Aug 2021
Tabula Rasa and Hesperos Receive $1.9M National Institutes of Health Award for Research Focused on ...
The Trentonian
25 Aug 2021
... multi-organ system communication and integrated computational PKPD modeling of live physiological responses utilizing functional readouts from neurons, cardiac, muscle, barrier tissues and neuromuscular junctions as well as responses from liver, pancreas and barrier tissues.
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Like Venom Coursing Through the Body: Researchers Identify Mechanism Driving COVID-19 Mortality
- Advertisement -. Mega Doctor News. By University of Arizona ... The protein “shares a high sequence homology to the active enzyme in rattlesnake venom and, like venom coursing through the body, it has the capacity to bind to receptors at neuromuscular junctions and potentially disable the function of these muscles,” Chilton said ... ....
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Killer Enzyme Similar to Rattlesnake Venom Maybe Increasing COVID-19 Mortality; New Mechanism Behind Severity Identified [Study]
The disease appears to have more tricks up its sleeve ... Explaining its damaging ability, he said, that it "shares a high sequence homology to the active enzyme in rattlesnake venom and, like venom coursing through the body, it has the capacity to bind to receptors at neuromuscular junctions and potentially disable the function of these muscles.". Dr ... .
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