Suramin

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Suramin
Suramin.svg
Suramin sf.gif
Clinical data
Trade names Antrypol, 309 F, 309 Fourneau, Bayer 205, Moranyl, Naganin, Naganine
Routes of
administration
injection
ATC code P01CX02 (WHO) QP51AE02 (WHO)
Legal status
Legal status
Identifiers
CAS Number 145-63-1 YesY
PubChem (CID) 5361
IUPHAR/BPS 1728
DrugBank DB04786 N
ChemSpider 5168 YesY
UNII 6032D45BEM YesY
KEGG C07974 N
ChEBI CHEBI:45906 N
ChEMBL CHEMBL265502 YesY
ECHA InfoCard 100.005.145
Chemical and physical data
Formula C51H40N6O23S6
Molar mass 1297.29
3D model (Jmol) Interactive image
 NYesY (what is this?)  (verify)

Suramin is a medication used to treat African sleeping sickness and river blindness.[1][2] It is the treatment of choice for sleeping sickness without central nervous system involvement.[3] It is given by injection into a vein.[4]

Suramin causes a fair number of side effects.[4] Common side effects include nausea, vomiting, diarrhea, headache, skin tingling, and weakness. Sore palms of the hands and soles of the feet, trouble seeing, fever, and abdominal pain may also occur.[2] Severe side effects may include low blood pressure, decreased level of consciousness, kidney problems, and low blood cell levels.[4] It is unclear if it is safe when breastfeeding.[2]

Suramin was made at least as early as 1916.[5] It is on the World Health Organization's List of Essential Medicines, the most effective and safe medicines needed in a health system.[6] In the United States it can be acquired from the Center for Disease Control (CDC).[3] The cost of the medication for a course of treatment is about 27 USD.[7] In regions of the world where the disease is common suramin is provided for free by the World Health Organization.[8]

Medical uses[edit]

Suramin is used for treatment of human sleeping sickness caused by trypanosomes.[1] Specifically, it is used for treatment of first-stage African trypanosomiasis caused by Trypanosoma brusei rhodesiense without involvement of central nervous system.[9] It is considered second-line treatment for early-stage disease due to its side effects.[10]

It has been used in the treatment of river blindness (onchocerciasis).[2]

Pregnancy and breastfeeding[edit]

It is unknown whether it is safe for the baby when a women takes it while breastfeeding.[2]

Adverse reactions[edit]

The most frequent adverse reactions are nausea, vomiting, diarrhea, abdominal pain, general feeling discomfort. It is also common to experience various sensations in the skin, from crawling or tingling sensations, tenderness of palms and the soles, and numbness of hands, arm, legs or feet.[11] Other skin reactions include skin rash, swelling and stinging sensation.[11] Suramin can also cause loss of appetite and irritability.[11] Suramin causes non-harmful changes in urine during use, specifically making the urine cloudy.[11]

Less common side effects include extreme fatigue, ulcers in the mouth, and painful tender glands in the neck, armpits and groin.[11] Suramin uncommonly affects the eyes causing watery eyes, swelling around the eyes, photophobia, and changes or loss of vision.[11]

Rare side effects include hypersensitivity reactions causing difficulty breathing. Other rare systemic effects include decreased blood pressure, fever, rapid heart rate, and convulsions.[11] Other rare side effects include symptoms of liver dysfunction such as tenderness in upper abdomen, jaundice in eyes and skin, unusual bleeding or bruising.[11]

Suramin has been applied clinically to HIV/AIDS patients resulting in a significant number of fatal occurrences and as a result the application of this molecule was abandoned for this condition.[12]

Pharmacokinetics[edit]

Suramin is not orally bioavailable and is given intravenously. Intramuscular and subcutaneous administration could result in local tissue inflammation or necrosis. Suramin is approximately 99-98% protein bound in the serum and has a half-life of 41-78 days; however, the pharmacokinetics of suramin can vary substantially between individual patients. Suramin does not distribute well into cerebral spinal fluid and its concentration in the tissues is equivalently lower than its concentration in the plasma. Suramin is not extensively metabolized and about 80% is eliminated via the kidneys.[13]:1437–1438

Chemistry[edit]

The molecular formula of suramin is C51H40N6O23S6. It is a symmetric molecule in the center of which lies a urea (NH–CO–NH) functional group. Suramin contains eight benzene rings, four of which are fused in pairs (naphthalene), four amide groups (in addition to the urea) and six sulfonic acid groups. When given as drug, it is usually as the sodium sulfonate, with six sodium ions on the sulfonate groups rather than hydrogens. This formulation is soluble in water, but deteriorates rapidly in air.[13]:1437–1438

Mechanism of action[edit]

The mechanism of action for suramin is unclear, however, it is thought that parasites are able to selectively uptake suramin via receptor-mediated endocytosis of drug that is bound to low-density lipoproteins and to a lesser extent, other serum proteins.[13]:1437–1438 Once inside parasites, suramin combines with proteins, especially trypanosomal glycolytic enzymes to inhibit energy metabolism.[14]

History[edit]

It was developed by Oskar Dressel and Richard Kothe of Bayer, Germany in 1916, and is still sold by Bayer under the brand name Germanin. The formula of suramin was kept secret by Bayer for commercial reasons, however, it was elucidated and published in 1924 by Ernest Fourneau and his team of the Pasteur Institute.[15]:378–379[16]

Research[edit]

It is also used as a research reagent to inhibit the activation of heterotrimeric G proteins in a variety of GPCRs with varying potency. It prevents the association of heteromeric G proteins and therefore the receptors guanine exchange functionality (GEF). With this blockade the GDP will not release from the Gα subunit so it can not be replaced by a GTP and become activated. This has the effect of blocking downstream G protein mediated signaling of various GPCR proteins including rhodopsin, the A1 adenosine receptor, the D2 receptor,[17] the P2 receptor,[18][19] and ryanodine receptors.[20]

Suramin was studied as a possible treatment for prostate cancer in a clinical trial.[21]

It has been studied in a mouse model of autism[22]

Its effect on telomerase has been investigated.[23]

Its activity against RNA viruses has been studied.[24]

Suramin has also been studied as an inhibitor of the brown spider venom phospholipase-D.[25]

References[edit]

  1. ^ a b "WHO Model List of Essential Medicines. 18th list (April 2013)" (PDF). World Health Organization. October 2013. Retrieved 22 April 2014. 
  2. ^ a b c d e "Micromedex Detailed Drug Information for the Consumer: Suramin (Injection route)". PubMed Health. 1 November 2016. 
  3. ^ a b "Our Formulary Infectious Diseases Laboratories CDC". www.cdc.gov. 22 September 2016. Retrieved 30 November 2016. 
  4. ^ a b c Zuckerman, Dr Jane N. (2002). Principles and Practice of Travel Medicine. John Wiley & Sons. p. 113. ISBN 9780471490791. 
  5. ^ Mehlhorn, Heinz (2008). Encyclopedia of Parasitology: A-M. Springer Science & Business Media. p. 475. ISBN 9783540489948. 
  6. ^ "WHO Model List of Essential Medicines (19th List)" (PDF). World Health Organization. April 2015. Retrieved 8 December 2016. 
  7. ^ Dumas, Michel; Bouteille, Bernard; Buguet, Alain (2013). Progress in Human African Trypanosomiasis, Sleeping Sickness. Springer Science & Business Media. p. 256. ISBN 9782817808574. 
  8. ^ "Trypanosomiasis, human African (sleeping sickness)". World Health Organization. February 2016. Retrieved 7 December 2016. 
  9. ^ "CDC Infectious Diseases Laboratory: Our Formulary". CDC. Retrieved 2016-11-08. 
  10. ^ Kappagoda, Shanthi; Singh, Upinder; Blackburn, Brian G. (September 22, 2016). "Antiparasitic Therapy". Mayo Clinic Proceedings. 86 (6): 561–583. doi:10.4065/mcp.2011.0203. ISSN 0025-6196. PMC 3104918Freely accessible. PMID 21628620. 
  11. ^ a b c d e f g h "Suramin Injection Advanced Patient Information - Drugs.com". Retrieved 2016-11-08. 
  12. ^ Kaplan, Lawrence D.; Wolfe, Peter R.; Volberding, Paul A.; Feorino, Paul; Abrams, Donald I.; Levy, Jay A.; Wong, Roberta; Kaufman, Lilian; Gottlieb, Michael S. (1987). "Lack of response to suramin in patients with AIDS and AIDS-related complex". The American Journal of Medicine. 82 (3): 615–620. doi:10.1016/0002-9343(87)90108-2. PMID 3548350. 
  13. ^ a b c Phillips, Margaret A.; Stanley, Jr, Samuel L. (2011). "Chapter 50: Chemotherapy of Protozoal Infections: Amebiasis, Giardiasis, Trichomoniasis, Trypanosomiasis, Leishmaniasis, and Other Protozoal Infections". In Brunton, Laurence L.; Chabner, Bruce A.; Knollmann, Bjorn Christian. Goodman and Gilman's The Pharmacological Basis of Therapeutics (12th ed.). McGraw Hill. ISBN 9780071769396. 
  14. ^ Moore, Thomas A. (2015). "246e: Agents Used to Treat Parasitic Infections". In Kasper, Dennis L.; et al. Harrison's Principles of Internal Medicine (19th ed.). McGraw-Hil. ISBN 9780071802161. 
  15. ^ Walter Sneader (2005). Drug Discovery: A History. John Wiley & Sons. ISBN 9780471899792. 
  16. ^ Fourneau, E.; Tréfouël, J.; Vallée, J. (1924). "Sur une nouvelle série de médicaments trypanocides". Comptes Rendus des Seances de l'Academie des Sciences. 178: 675. 
  17. ^ Beindl W, Mitterauer T, Hohenegger M, Ijzerman AP, Nanoff C, Freissmuth M (August 1996). "Inhibition of receptor/G protein coupling by suramin analogues". Molecular Pharmacology. 50 (2): 415–23. PMID 8700151. 
  18. ^ Abbracchio MP, Burnstock G, Boeynaems JM, Barnard EA, Boyer JL, Kennedy C, Knight GE, Fumagalli M, Gachet C, Jacobson KA, Weisman GA (September 2006). "International Union of Pharmacology LVIII: update on the P2Y G protein-coupled nucleotide receptors: from molecular mechanisms and pathophysiology to therapy". Pharmacological Reviews. 58 (3): 281–341. doi:10.1124/pr.58.3.3. PMC 3471216Freely accessible. PMID 16968944. 
  19. ^ Khakh BS, Burnstock G, Kennedy C, King BF, North RA, Séguéla P, Voigt M, Humphrey PP (March 2001). "International union of pharmacology. XXIV. Current status of the nomenclature and properties of P2X receptors and their subunits". Pharmacological Reviews. 53 (1): 107–118. PMID 11171941. 
  20. ^ Wolner I, Kassack MU, Ullmann H, Karel A, Hohenegger M (October 2005). "Use-dependent inhibition of the skeletal muscle ryanodine receptor by the suramin analogue NF676". British Journal of Pharmacology. 146 (4): 525–33. doi:10.1038/sj.bjp.0706359. PMC 1751178Freely accessible. PMID 16056233. 
  21. ^ Ahles TA, Herndon JE, Small EJ, et al. (November 2004). "Quality of life impact of three different doses of suramin in patients with metastatic hormone-refractory prostate carcinoma: results of Intergroup O159/Cancer and Leukemia Group B 9480". Cancer. 101 (10): 2202–8. doi:10.1002/cncr.20655. PMID 15484217. 
  22. ^ Naviaux, J C; Schuchbauer, M A; Li, K; Wang, L; Risbrough, V B; Powell, S B; Naviaux, R K (2014). "Reversal of autism-like behaviors and metabolism in adult mice with single-dose antipurinergic therapy". Translational Psychiatry. 4 (6): e400. doi:10.1038/tp.2014.33. 
  23. ^ Erguven M, Akev N, Ozdemir A, Karabulut E, Bilir A (August 2008). "The inhibitory effect of suramin on telomerase activity and spheroid growth of C6 glioma cells". Medical Science Monitor. 14 (8): BR165–73. PMID 18667993. 
  24. ^ Mastrangelo, Eloise; Pezzullo, Margherita; Tarantino, Delia; Petazzi, Roberto; Germani, Francesca; Kramer, Dorothea; Robel, Ivonne; Rohayem, Jacques; Bolognesi, Martino; Milani, Mario (2012). "Structure-based inhibition of norovirus RNA-dependent RNA-polymerases". Journal of Molecular Biology. 419 (3-4): 198–210. doi:10.1016/j.jmb.2012.03.008. 
  25. ^ Chaves-Moreira, Daniele; de Moraes, Fábio Rogério; Caruso, Ícaro Putinhon; Chaim, Olga Meiri; Senff-Ribeiro, Andrea; Ullah, Anwar; da Silva, Luciane Sussuchi; Chahine, Jorge; Arni, Raghuvir K. (2016-08-26). "Potential Implications for Designing Drugs Against the Brown Spider Venom Phospholipase-D". Journal of Cellular Biochemistry. doi:10.1002/jcb.25678. ISSN 1097-4644. PMID 27563734. 

External links[edit]