The effects of S4 segments on the voltage-dependence of inactivation for Cav3.1 calcium channels  

作　　者：LI JunYing 

机构地区：[1]Biophysics Department, School of Physics, Key Laboratory of Bioactive Materials of Education Ministry, Nankai University, Tianjin 300071, China

出　　处：《Chinese Science Bulletin》2007年第12期1642-1647,共6页

摘　　要：T-type calcium channels exhibit fast voltage-dependent inactivation, for which the underlying struc- ture-function relationship still remains unclear. To investigate the roles of S4 segments in volt- age-dependent inactivation of T-type calcium channels, we created S4 replacement chimeras between Cav3.1 calcium channels (fast voltage-dependent inactivation) and Cav1.2 calcium channels (little voltage-dependent inactivation) by replacing S4s in Cav3.1 with the corresponding regions in Cav1.2. Wild type and chimeric channels were expressed in Xenopus oocytes and channel currents were re- corded with two-electrode voltage-clamp. We showed that replacing S4 region in domain I shifted voltage-dependence for inactivation of Cav3.1 to the left, and the V0.5 inact and kinact value were signifi- cantly changed. However replacing S4s in domains II―IV had no effects on the voltage-dependent in- activation properties. These results suggest that the roles of S4 segments in domains I―IV are different, and S4 in domain I is likely to be involved in voltage-dependent inactivation process. Its movement during membrane depolarization may trigger a conformational change in the inactivation gate.T-type calcium channels exhibit fast voltage-dependent inactivation, for which the underlying structure-function relationship still remains unclear. To investigate the roles of S4 segments in voltage-dependent inactivation of T-type calcium channels, we created S4 replacement chimeras between Cav3.1 calcium channels （fast voltage-dependent inactivation） and Cav1.2 calcium channels （little voltage-dependent inactivation） by replacing S4s in Cav3.1 with the corresponding regions in Cav1.2. Wild type and chimeric channels were expressed in Xenopus oocytes and channel currents were recorded with two-electrode voltage-clamp. We showed that replacing S4 region in domain Ⅰ shifted voltage-dependence for inactivation of Cav3.1 to the left, and the V0.5 inact and kinact value were significantly changed. However replacing S4s in domains Ⅱ-Ⅳ had no effects on the voltage-dependent inactivation properties. These results suggest that the roles of S4 segments in domains Ⅰ-Ⅳ are different, and S4 in domain Ⅰ is likely to be involved in voltage-dependent inactivation process. Its movement during membrane depolarization may trigger a conformational change in the inactivation gate.

关 键 词：钙离子通道 电压失活 S4片断 结构-函数关系 

分 类 号：Q25[生物学—细胞生物学]