Planells-Cases R, Ferrer-Montiel A V, Patten C D, Montal M
Department of Neuroscience, University of California at San Diego, La Jolla 92093-0366, USA.
Proc Natl Acad Sci U S A. 1995 Sep 26;92(20):9422-6. doi: 10.1073/pnas.92.20.9422.
Voltage-gated channel proteins sense a change in the transmembrane electric field and respond with a conformational change that allows ions to diffuse across the pore-forming structure. Site-specific mutagenesis combined with electrophysiological analysis of expressed mutants in amphibian oocytes has previously established the S4 transmembrane segment as an element of the voltage sensor. Here, we show that mutations of conserved negatively charged residues in S2 and S3 of a brain K+ channel, thought of as countercharges for the positively charged residues in S4, selectively modulate channel gating without modifying the permeation properties. Mutations of Glu235 in S2 that neutralize or reverse charge increase the probability of channel opening and the apparent gating valence. In contrast, replacements of Glu272 by Arg or Thr268 by Asp in S3 decrease the open probability and the apparent gating valence. Residue Glu225 in S2 tolerated replacement only by acidic residues, whereas Asp258 in S3 was intolerant to any attempted change. These results imply that S2 and S3 are unlikely to be involved in channel lining, yet, together with S4, may be additional components of the voltage-sensing structure.
电压门控通道蛋白感知跨膜电场的变化,并通过构象变化做出响应,这种构象变化使离子能够扩散穿过形成孔道的结构。位点特异性诱变结合对两栖类卵母细胞中表达的突变体进行的电生理分析,先前已确定S4跨膜片段是电压感受器的一个元件。在此,我们表明,一种脑钾通道的S2和S3中保守的带负电荷残基的突变,被认为是S4中带正电荷残基的反电荷,可选择性地调节通道门控,而不改变通透特性。S2中使电荷中和或反转的Glu235突变增加了通道开放的概率和表观门控价。相反,S3中用Arg取代Glu272或用Asp取代Thr268会降低开放概率和表观门控价。S2中的Glu225残基仅能被酸性残基取代,而S3中的Asp258对任何尝试的改变都不耐受。这些结果表明,S2和S3不太可能参与通道内衬,但与S4一起,可能是电压传感结构的其他组成部分。