Alcohol and pregnenolone interaction on cerebral arteries through targeting of vascular smooth muscle Ca2+- and voltage-gated K+ channels of big conductance.

Advances in drug and alcohol research Pub Date : 2023-01-01 Epub Date: 2023-08-14 DOI:10.3389/adar.2023.11735
Kelsey C North, Andrew A Shaw, Luiz Moreira, Anna N Bukiya, Alex M Dopico
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Abstract

Despite the significant number of people who may be taking pregnenolone supplements while drinking alcohol (ethanol), the widely documented cerebrovascular actions of pregnenolone and ethanol, and the critical dependence of cerebrovascular function on cerebral artery diameter, there are no studies addressing the effect of pregnenolone + ethanol in combination on cerebral artery diameter. We investigated this by evaluating the effect of this combination on middle cerebral artery diameter in male and female C57BL/6J mice, both in vivo and in vitro. The use of de-endothelialized, in vitro pressurized middle cerebral artery segments allowed us to conduct a concentration-response study of constriction induced by pregnenolone ± ethanol, in which drug action could be evaluated independently of circulating and endothelial factors. In both male and female animals, pregnenolone at lower concentrations (≤1 μM) was found to synergize with 50 mM ethanol to cause vasoconstriction. In both sexes, this synergism was lost as one or both vasoconstrictors approached their maximally effective concentrations (75 mM and 10 μM for ethanol and pregnenolone, respectively), whether this was evaluated in vitro or in vivo using a cranial window. Vasoconstriction by pregnenolone + ethanol was abolished by 1 μM paxilline, indicating BK channel involvement. Moreover, cell-free recordings of BK channel activity in cerebral artery myocyte membranes showed that 10 μM pregnenolone and pregnenolone +50 mM ethanol reduced channel activity to an identical extent, suggesting that these drugs inhibit cerebrovascular BK channels via a common mechanism or mechanisms. Indeed, pregnenolone was found to disrupt allosteric coupling to Ca2+-driven gating, as previously reported for ethanol.

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酒精和孕烯醇酮通过靶向大电导的血管平滑肌Ca2+-和电压门控K+通道对脑动脉的相互作用。
尽管有相当多的人可能在饮酒(乙醇)时服用孕烯醇酮补充剂,孕烯醇酮和乙醇的脑血管作用被广泛记录,脑血管功能对脑动脉直径的严重依赖性,但没有研究表明孕烯醇酮+乙醇联合用药对脑动脉径的影响。我们通过评估这种组合在体内和体外对雄性和雌性C57BL/6J小鼠大脑中动脉直径的影响来研究这一点。使用去内皮化的体外加压大脑中动脉段使我们能够对孕烯醇酮±乙醇诱导的收缩进行浓度反应研究,其中药物作用可以独立于循环和内皮因素进行评估。在雄性和雌性动物中,发现较低浓度(≤1μM)的孕烯醇酮与50mM乙醇协同作用,导致血管收缩。在两性中,当一种或两种血管收缩剂接近其最大有效浓度(乙醇和孕烯醇酮分别为75 mM和10μM)时,无论是在体外还是在体内使用颅窗进行评估,这种协同作用都会丧失。孕烯醇酮+乙醇引起的血管收缩被1μM的帕罗西汀消除,表明BK通道参与。此外,对脑动脉肌细胞膜中BK通道活性的无细胞记录显示,10μM孕烯醇酮和孕烯醇酮+50mM乙醇在相同程度上降低了通道活性,这表明这些药物通过一种或多种常见机制抑制脑血管BK通道。事实上,孕烯醇酮被发现会破坏Ca2+驱动门控的变构偶联,就像之前报道的乙醇一样。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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