Sigma-1 (Ï 1) receptor has been identified as a chaperone protein that interacts with other proteins, such as N-methyl-D-aspartate (NMDA) and opioid receptors, modulating their activity. Ï 1receptor antagonists have been developed to obtain useful compounds for the treatment of psychoses, pain, drug abuse and cancer. Some interesting compounds such as E-5842 (5) and MS-377 (24), haloperidol and piperazine derivatives, respectively, were endowed with high affinity for Ï 1receptors (KiÏ 1= 4 and 73 nM; KiÏ 2= 220 and 6900, respectively). They were developed for the treatment of psychotic disorders and 5 also underwent Phase II clinical trials suggesting interesting potential therapeutic applications. Here, Ï 1receptor antagonists have been grouped based on chemical structure and reviewed according to structure-activity relationship and potential therapeutic role.
Arena, E., Dichiara, M., Floresta, G., Parenti, C., Marrazzo, A., Pittalà, V., et al. (2018). Novel Sigma-1 receptor antagonists: From opioids to small molecules: What is new?. FUTURE MEDICINAL CHEMISTRY, 10(2), 231-256 [10.4155/fmc-2017-0164].
Novel Sigma-1 receptor antagonists: From opioids to small molecules: What is new?
Dichiara Maria;
2018-01-01
Abstract
Sigma-1 (Ï 1) receptor has been identified as a chaperone protein that interacts with other proteins, such as N-methyl-D-aspartate (NMDA) and opioid receptors, modulating their activity. Ï 1receptor antagonists have been developed to obtain useful compounds for the treatment of psychoses, pain, drug abuse and cancer. Some interesting compounds such as E-5842 (5) and MS-377 (24), haloperidol and piperazine derivatives, respectively, were endowed with high affinity for Ï 1receptors (KiÏ 1= 4 and 73 nM; KiÏ 2= 220 and 6900, respectively). They were developed for the treatment of psychotic disorders and 5 also underwent Phase II clinical trials suggesting interesting potential therapeutic applications. Here, Ï 1receptor antagonists have been grouped based on chemical structure and reviewed according to structure-activity relationship and potential therapeutic role.
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https://hdl.handle.net/11365/1232607