Arylcyclohexylamine

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Phencyclidine, the prototypal arylcyclohexylamine derivative.

Arylcyclohexylamines, also known as arylcyclohexamines or arylcyclohexanamines, are a chemical class of pharmaceutical, designer, and experimental drugs.

History[edit]

Phencyclidine (PCP) is believed to be the first arylcyclohexylamine with recognized anesthetic properties, but several arylcyclohexylamines were described before PCP in the scientific literature, beginning with PCA (1-phenylcyclohexan-1-amine) the synthesis of which was first published in 1907. PCE was reported in 1953 and PCMo in 1954, with the latter compound described as a potent sedative.[1] Arylcyclohexylamines anesthetics were intensively investigated at Parke-Davis, beginning with the 1956 synthesis of phencyclidine and later the related compound ketamine.[1] The 1970s saw the debut of these compounds, especially PCP and its analogues, as illicitly used recreational drugs due to their dissociative hallucinogenic and euphoriant effects. Since, the class has been expanded by scientific research into stimulant, analgesic, and neuroprotective agents, and also by clandestine chemists in search of novel recreational drugs.

Structure[edit]

General structure of arylcyclohexylamines

An arylcyclohexylamine is composed of a cyclohexylamine unit with an aryl moiety attachment. The aryl group is positioned geminal to the amine. In the simplest cases, the aryl moiety is typically a phenyl ring, sometimes with additional substitution. The amine is usually not primary, secondary amines such as methylamino or ethylamino, or tertiary cycloalkylamines such as piperidino and pyrrolidino, are the most commonly encountered N-substituents.

Pharmacology[edit]

Arylcyclohexylamines varyingly possess NMDA receptor antagonistic,[2][3] dopamine reuptake inhibitory,[4] and μ-opioid receptor agonistic[5] properties. Additionally, σ receptor agonistic,[6] nACh receptor antagonistic,[7] and D2 receptor agonistic[8] actions have been reported for some of these agents. Antagonism of the NMDA receptor confers anesthetic, anticonvulsant, neuroprotective, and dissociative effects; blockade of the dopamine transporter mediates stimulant and euphoriant effects as well as psychosis in high amounts; and activation of the μ-opioid receptor causes analgesic and euphoriant effects. Stimulation of the σ and D2 receptors may also contribute to hallucinogenic and psychomimetic effects.[8]

Versatile agents with a wide range of possible pharmacological activities depending on the extent and range to which chemical modifications are implemented. The various choice of substitutions that are made allows for "fine-tuning" of the pharmacological profile that results. As examples, BTCP is a selective dopamine reuptake inhibitor,[4] PCP is primarily an NMDA antagonist,[2] and BDPC is a superpotent μ-opioid agonist,[9] while PRE-084 is a selective sigma receptor agonist.[10] Thus, radically different pharmacology is possible through different structural combinations.

List of arylcyclohexylamines[edit]

Compound Aryl Substituent N Group Cyclohexyl ring
PCA[11] Phenyl NH2 -
PCM[11] Phenyl Methylamino -
Eticyclidine Phenyl Ethylamino -
PCPr[12] Phenyl n-Propylamino -
PCiP Phenyl Isopropylamino -
PCBu Phenyl n-Butylamino -
PCEOH Phenyl Hydroxyethylamino -
PCMEA[13] Phenyl Methoxyethylamino -
PCEEA Phenyl Ethoxyethylamino -
PCMPA Phenyl Methoxypropylamino -
PCDM[11] Phenyl Dimethylamino -
Dieticyclidine Phenyl Diethylamino -
2-HO-PCP[2] Phenyl Piperidine 2-Hydroxy
2-Me-PCP[14] Phenyl Piperidine 2-Methyl
2-MeO-PCP[15] Phenyl Piperidine 2-Methoxy
2-Keto-PCP Phenyl Piperidine 2-Keto
2-Keto-PCE Phenyl Ethylamino 2-Keto
4-Methyl-PCP Phenyl Piperidine 4-Methyl
4-Keto-PCP Phenyl Piperidine 4-Keto
2'-Cl-PCP o-Chlorophenyl Piperidine -
2'-MeO-PCP o-Methoxyphenyl Piperidine -
3'-F-PCP[16] m-Fluorophenyl Piperidine -
3'-Me-PCP[17] m-Methylphenyl Piperidine -
3'-NH2-PCP m-Aminophenyl Piperidine -
3'-HO-PCP m-Hydroxyphenyl Piperidine -
3'-MeO-PCP m-Methoxyphenyl Piperidine -
3'-MeO-PCE m-Methoxyphenyl Ethylamino -
3'-MeO-PCPr m-Methoxyphenyl n-Propylamino -
3'-MeO-PCPy[17] m-Methoxyphenyl Pyrrolidine -
3'-MeO-2-Keto-PCPr m-Methoxyphenyl n-Propylamino 2-Keto
3'-MeO-2-Keto-PCPy m-Methoxyphenyl Pyrrolidine 2-Keto
2'-Cl-2-Keto-PCPy o-Chlorophenyl Pyrrolidine 2-Keto
4'-HO-PCP p-Hydroxyphenyl Piperidine -
Methoxydine (4'-MeO-PCP) p-Methoxyphenyl Piperidine -
4'-F-PCP[16] p-Fluorophenyl Piperidine -
Arketamine o-Chlorophenyl Methylamino 2-Keto
Deschloroketamine Phenyl Methylamino 2-Keto
Esketamine o-Chlorophenyl Methylamino 2-Keto
Ethketamine o-Chlorophenyl Ethylamino 2-Keto
Ketamine o-Chlorophenyl Methylamino 2-Keto
Methoxyketamine o-Methoxyphenyl Methylamino 2-Keto
2-Fluorodeschloroketamine o-Fluorophenyl Methylamino 2-Keto
Bromoketamine o-Bromophenyl Methylamino 2-Keto
SN 35210 [18] o-Chlorophenyl Carbomethoxybutylamino 2-Keto
Methoxetamine m-Methoxyphenyl Ethylamino 2-Keto
Methoxmetamine m-Methoxyphenyl Methylamino 2-Keto
Phencyclidine (PCP) Phenyl Piperidine -
PC3MP Phenyl 3-Methylpiperidine -
PC4MP Phenyl 4-Methylpiperidine -
Rolicyclidine (PCPy) Phenyl Pyrrolidine -
PCDMPy Phenyl 3,3-Dimethylpyrrolidine -
PCMo Phenyl Morpholine -
Methoxy-PCM[3] (2-MeO-PCMo) o-Methoxyphenyl Morpholine -
3'-MeO-PCMo m-Methoxyphenyl Morpholine -
4'-MeO-PCMo p-Methoxyphenyl Morpholine -
Methyl-PCM[19] (4-Me-PCMo) p-Methylphenyl Morpholine -
Hydroxy-methyl-PCM 2-Methyl-4-hydroxyphenyl Morpholine -
TCM 2-Thienyl Methylamino -
TCE 2-Thienyl Ethylamino -
Tenocyclidine (TCP) 2-Thienyl Piperidine -
TCPy 2-Thienyl Pyrrolidine -
Tiletamine 2-Thienyl Ethylamino 2-Keto
Gacyclidine 2-Thienyl Piperidine 2-Methyl
BDPC p-Bromophenyl Dimethylamino 4-Phenethyl-4-hydroxy
Dimetamine p-Methylphenyl Dimethylamino 4-Keto
BTCP[20] Benzothiophen-2-yl Piperidine -
PRE-084 Phenyl Morpholinylethylcarboxylate -
  • Other cycloalkane ring sizes have been experimented with than just purely thinking in terms of the cyclohexylamine. The requisite cycloalkylketone is reacted with PhMgBr; 3° alcohol is then reacted with NaN3; azide then reduced with LAH. Then in the final step the piperidine ring is constructed with 1-5-dibromo-pentane.[21]

In the p- and m-fluoro pcp analog paper, pyrrolidino ring sizes were also experimented with.

Arylcyclohexylamines by Ahmadi and Kalir[edit]

Ketamine Ahmadi (2012).[22] Ahmadi (2009).[23] Ahmadi (2014).[24]
Ketamine Ahmadi 2012.svg Ahmadi 2009.svg Ahmadi2014.svg
Ahmadi (2011).[25] Ahmadi 1-tetralone (2010).[26] Ahmadi (2010).[27] Ahmadi PCP (2010).[28]
PMID 21755813.svg Ahmadi 2010.svg PMID 20184224.svg Ahmadi pcp 2010.svg
Ahmadi PCP Maze (2012).[29] F, L, B, P. Kalir PCP analgesic analog (1981).[30]
Ahmadi pcp maze 2012.svg Pcp analgesic.svg

Rigid[edit]

Conformationally constrained analogs have also been prepared and researched by Morieti et al.[31]

References[edit]

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  2. ^ a b c Ahmadi, A.; Mahmoudi, A. (2005). "Synthesis and biological properties of 2-hydroxy-1-(1-phenyltetralyl)piperidine and some of its intermediates as derivatives of phencyclidine". Arzneimittel-Forschung. 55 (9): 528–532. doi:10.1055/s-0031-1296900. PMID 16229117. 
  3. ^ a b Ahmadi, A.; Khalili, M.; Hajikhani, R.; Naserbakht, M. (2011). "New morpholine analogues of phencyclidine: Chemical synthesis and pain perception in rats". Pharmacology Biochemistry and Behavior. 98 (2): 227–233. doi:10.1016/j.pbb.2010.12.019. PMID 21215770. 
  4. ^ a b Chaudieu, I.; Vignon; Chicheportiche; Kamenka; Trouiller; Chicheportiche (1989). "Role of the aromatic group in the inhibition of phencyclidine binding and dopamine uptake by PCP analogs". Pharmacology, Biochemistry, and Behavior. 32 (3): 699–705. doi:10.1016/0091-3057(89)90020-8. PMID 2544905. 
  5. ^ Itzhak, Y.; Simon (1984). "A novel phencyclidine analog interacts selectively with mu opioid receptors". The Journal of Pharmacology and Experimental Therapeutics. 230 (2): 383–386. PMID 6086884. 
  6. ^ He, X. S.; Raymon, L. P.; Mattson, M. V.; Eldefrawi, M. E.; De Costa, B. R. (1993). "Synthesis and biological evaluation of 1-1-(2-benzobthienyl)cyclohexylpiperidine homologues at dopamine-uptake and phencyclidine- and sigma-binding sites". Journal of Medicinal Chemistry. 36 (9): 1188–1193. doi:10.1021/jm00061a009. PMID 8098066. 
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  11. ^ a b c Thurkauf, A.; De Costa, B.; Yamaguchi, S.; Mattson, M. V.; Jacobson, A. E.; Rice, K. C.; Rogawski, M. A. (1990). "Synthesis and anticonvulsant activity of 1-phenylcyclohexylamine analogs". Journal of Medicinal Chemistry. 33 (5): 1452–8. doi:10.1021/jm00167a027. PMID 2329567. 
  12. ^ Sauer, C.; Peters, F.; Staack, R.; Fritschi, G.; Maurer, H. (2008). "Metabolism and toxicological detection of a new designer drug, N-(1-phenylcyclohexyl)propanamine, in rat urine using gas chromatography-mass spectrometry". Journal of Chromatography A. 1186 (1–2): 380–390. doi:10.1016/j.chroma.2007.11.002. PMID 18035363. 
  13. ^ Sauer, C.; Peters, F.; Schwaninger, A.; Meyer, M.; Maurer, H. (2009). "Investigations on the cytochrome P450 (CYP) isoenzymes involved in the metabolism of the designer drugs N-(1-phenyl cyclohexyl)-2-ethoxyethanamine and N-(1-phenylcyclohexyl)-2-methoxyethanamine". Biochemical Pharmacology. 77 (3): 444–450. doi:10.1016/j.bcp.2008.10.024. PMID 19022226. 
  14. ^ Iorio, M. A.; Tomassini, L.; Mattson, M. V.; George, C.; Jacobson, A. E. (1991). "Synthesis, stereochemistry, and biological activity of the 1-(1-phenyl-2-methylcyclohexyl)piperidines and the 1-(1-phenyl-4-methylcyclohexyl)piperidines. Absolute configuration of the potent trans-(-)-1-(1-phenyl-2-methylcyclohexyl)piperidine". Journal of Medicinal Chemistry. 34 (8): 2615–2623. doi:10.1021/jm00112a041. PMID 1875352. 
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  16. ^ a b Ogunbadeniyi, A. M.; Adejare, A. (2002). "Syntheses of fluorinated phencyclidine analogs". Journal of Fluorine Chemistry. 114: 39–42. doi:10.1016/S0022-1139(01)00565-6. 
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External links[edit]