Translations:Calcium channel blocker/23/ja: Difference between revisions

Research indicates [[alcohol (drug)|ethanol]] is involved in the inhibition of L-type calcium channels. One study showed the nature of ethanol binding to L-type calcium channels is according to first-order kinetics with a [[Hill coefficient]] around 1. This indicates ethanol binds independently to the channel, expressing [[cooperative binding|noncooperative binding]]. Early studies showed a link between calcium and the release of [[vasopressin]] by the [[secondary messenger system]]. Vasopressin levels are reduced after the ingestion of alcohol. The lower levels of vasopressin from the consumption of alcohol have been linked to ethanol acting as an antagonist to voltage-gated calcium channels (VGCCs). Studies conducted by Treistman et al. in the [[aplysia]] confirm inhibition of VGCC by ethanol. [[Voltage clamp]] recordings have been done on the aplysia neuron. VGCCs were isolated and calcium current was recorded using [[patch clamp]] technique having ethanol as a treatment. Recordings were replicated at varying concentrations (0, 10, 25, 50, and 100 mM) at a voltage clamp of +30 mV. Results showed calcium current decreased as concentration of ethanol increased. Similar results have shown to be true in single-channel recordings from isolated nerve terminal of rats that ethanol does in fact block VGCCs.