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Papers: 4 Jun 2022 - 10 Jun 2022


2022 Jun 07


ACS Chem Neurosci

Stereospecific Effects of Benzimidazolonepiperidine Compounds on T-Type Ca Channels and Pain.

Authors

Gomez K, Tang C, Tan B, Perez-Miller S, Ran D, Loya S, Calderon-Rivera A, Stratton HJ, Duran P, Masterson KA, Gabrielsen AT, Alsbiei O, Dorame A, Serafini M, Moutal A, Wang J, Khanna R
ACS Chem Neurosci. 2022 Jun 07.
PMID: 35671441.

Abstract

T-type calcium channels activate in response to subthreshold membrane depolarizations and represent an important source of Ca influx near the resting membrane potential. These channels regulate neuronal excitability and have been linked to pain. For this reason, T-type calcium channels are suitable molecular targets for the development of new non-opioid analgesics. Our previous work identified an analogue of benzimidazolonepiperidine, 5bk, that preferentially inhibited Ca3.2 channels and reversed mechanical allodynia. In this study, we synthesized and screened a small library of 47 compounds derived from 5bk. We found several compounds that inhibited the Ca influx in DRG neurons of all sizes. After separating the enantiomers of each active compound, we found two compounds, 3-25-R and 3-14-3-S, that potently inhibited the Ca influx. Whole-cell patch clamp recordings from small- to medium-sized DRG neurons revealed that both compounds decreased total Ca. Application of 3-14-3-S (but not 3-25-R) blocked transiently expressed Ca3.1-3.3 channels with a similar IC value. 3-14-3-S decreased T-type, but not N-type, Ca currents in DRG neurons. Furthermore, intrathecal delivery of 3-14-3-S relieved tonic, neuropathic, and inflammatory pain in preclinical models. 3-14-3-S did not exhibit any activity against G protein-coupled opioid receptors. Preliminary docking studies also suggest that 3-14-3-S can bind to the central pore domain of T-type channels. Together, our chemical characterization and functional and behavioral data identify a novel T-type calcium channel blocker with in vivo efficacy in experimental models of tonic, neuropathic, and inflammatory pain.