Small and intermediate conductance Ca2+‐activated K+channels regulate spontaneous contraction of mouse portal vein myocytes

Abstract

Ca2+‐activated K+ channels (KCa) are key components of vascular myocytes EC coupling through their control of smooth muscle cell membrane potential. Whilst BKCa is expressed ubiquitously in smooth muscle cells, only proliferative VSMCs express KCa3.1 channels. However, mouse portal vein (mPV) is an atypical blood vessel showing spontaneous and rhythmic contractions. Since KCa channels are involved in the regulation of excitability of other cell types like neurons, the contribution of KCa2.x and KCa3.1 channels to the control of mPV excitability was investigated. Expression of KCa2.x and KCa3.1 was detected in mPV by PCR and immunohistochemistry. In single cell patch clamp studies, the RMP of isolated mPV myocytes was hyperpolarized (≈15 mV) by exposure to NS309 (10 μM), a KCa2.x and KCa3.1 channel activator. Inhibition of KCa2.x channels with UCL1689 (3 μM) reversed the effect of NS309 whilst inhibition of KCa3.1 channels (TRAM‐34; 10 μM) had no effect. NS309 significantly decreased the amplitude and increased the frequency of spontaneous contractions of intact mPV. These effects were reversed by application of UCL1689, suggesting that the NS309‐induced changes in spontaneous mPV contractions is carried out by KCa2.x channels. This study suggest that KCa2.x and KCa3.1 channels are expressed in mouse portal vein myocytes and play an important role in regulation of spontaneous contractions.Supported by FICM