Abbott G W, Goldstein S A
Department of Pediatrics, Boyer Center for Molecular Medicine, Yale University School of Medicine, New Haven, CT 06536, USA.
Mol Interv. 2001 Jun;1(2):95-107.
Voltage-gated potassium channels provide tightly Controlled, ion-specific pathways across membranes and are key to the normal function of nerves muscles. They arise from the assembly of four pore-forming proteins called alpha-subunits. To attain the properties of native currents, alpha-subunits interact with additional molecules such as the mink-related peptides (MiRPs), single-transmembrane subunits encoded by the KCNE genes. Significantly, mutations in KCNE 1, 2 and 3 have been linked either to life-threatening cardiac arrhythmia or a disorder of skeletal muscle, familial periodic paralysis. The capacity of MiRPs to partner with multiple alpha-subunits in experimental cells appears to reflect still undiscovered roles for the KCNE-encoded peptides in vivo. Here, we consider these unique peptides in health disease and discuss future research directions.
电压门控钾通道提供跨膜的严格受控、离子特异性途径,是神经肌肉正常功能的关键。它们由四种称为α亚基的成孔蛋白组装而成。为了获得天然电流的特性,α亚基与其他分子相互作用,如貂相关肽(MiRPs),它们是由KCNE基因编码的单跨膜亚基。值得注意的是,KCNE 1、2和3中的突变与危及生命的心律失常或骨骼肌疾病——家族性周期性麻痹有关。在实验细胞中,MiRPs与多个α亚基结合的能力似乎反映了KCNE编码肽在体内仍未被发现的作用。在这里,我们考虑这些独特的肽在健康和疾病中的情况,并讨论未来的研究方向。