Control of ion flux and selectivity by negatively charged residues in the outer mouth of rat sodium channels

被引：57

作者：

Chiamvimonvat, N ^{[1
]}

PerezGarcia, MT ^{[1
]}

Tomaselli, GF ^{[1
]}

Marban, E ^{[1
]}

机构：

[1] JOHNS HOPKINS UNIV,SCH MED,SECT MOLEC & CELLULAR CARDIOL,BALTIMORE,MD 21205

来源：

JOURNAL OF PHYSIOLOGY-LONDON | 1996年 / 491卷 / 01期

关键词：

D O I：

10.1113/jphysiol.1996.sp021195

中图分类号：

Q189 [神经科学];

学科分类号：

071006 ;

摘要：

1. The sodium channel has a ring of negatively charged amino acids on its external face. This common structural feature of cation-selective channels has been proposed to optimize conduction by electrostatic attraction of permeant cations into the channel mouth. We tested this idea by mutagenesis of mu 1 rat skeletal sodium channels expressed in Xenopus oocytes. 2. Replacement of the external glutamate residue in domain II by cysteine reduces sodium current by decreasing single-channel conductance. While this effect can be reversed by the negatively charged sulfhydryl modifying reagent methanethiosulphonate ethylsulphonate (MTSES), the flux saturation behaviour cannot be rationalized simply by changes in the surface charge. 3. The analogous mutations in domains I, III and IV affect not only conductance but also selectivity. These changes in selectivity are only partially reversed by exposure to MTSES. 4. Our findings necessitate revision of prevailing concepts regarding the role of superficial negatively charged residues in the process of ion permeation. These residues do not act solely by electrostatic attraction of permeant ions, but instead may help to form ion-specific binding sites within the pore.

引用

页码：51 / 59

页数：9

共 20 条

[1] IDENTIFICATION OF ACETYLCHOLINE-RECEPTOR CHANNEL-LINING RESIDUES IN THE ENTIRE M2 SEGMENT OF THE ALPHA-SUBUNIT
AKABAS, MH
KAUFMANN, C
ARCHDEACON, P
KARLIN, A
[J]. NEURON, 1994, 13 (04) : 919 - 927
[2] ACETYLCHOLINE-RECEPTOR CHANNEL STRUCTURE PROBED IN CYSTEINE-SUBSTITUTION MUTANTS
AKABAS, MH
STAUFFER, DA
XU, M
KARLIN, A
[J]. SCIENCE, 1992, 258 (5080) : 307 - 310
[3] MOLECULAR LOCALIZATION OF AN ION-BINDING SITE WITHIN THE PORE OF MAMMALIAN SODIUM-CHANNELS
BACKX, PH
YUE, DT
LAWRENCE, JH
MARBAN, E
TOMASELLI, GF
[J]. SCIENCE, 1992, 257 (5067) : 248 - 251
[4] EFFECTS OF PHOSPHOLIPID SURFACE-CHARGE ON ION CONDUCTION IN THE K+ CHANNEL OF SARCOPLASMIC-RETICULUM
BELL, JE
MILLER, C
[J]. BIOPHYSICAL JOURNAL, 1984, 45 (01) : 279 - 287
[5] BOCKRIS JO, 1970, MODERN ELECTROCHEMIS, P180
[6] BATRACHOTOXIN-MODIFIED SODIUM-CHANNELS IN PLANAR LIPID BILAYERS - ION PERMEATION AND BLOCK
GREEN, WN
WEISS, LB
ANDERSEN, OS
[J]. JOURNAL OF GENERAL PHYSIOLOGY, 1987, 89 (06) : 841 - 872
[7] GUY HR, 1995, J GEN PHYSL S, P1
[8] IMPROVED PATCH-CLAMP TECHNIQUES FOR HIGH-RESOLUTION CURRENT RECORDING FROM CELLS AND CELL-FREE MEMBRANE PATCHES
HAMILL, OP
MARTY, A
NEHER, E
SAKMANN, B
SIGWORTH, FJ
[J]. PFLUGERS ARCHIV-EUROPEAN JOURNAL OF PHYSIOLOGY, 1981, 391 (02): : 85 - 100
[9] CALCIUM-CHANNEL CHARACTERISTICS CONFERRED ON THE SODIUM-CHANNEL BY SINGLE MUTATIONS
HEINEMANN, SH
TERLAU, H
STUHMER, W
IMOTO, K
NUMA, S
[J]. NATURE, 1992, 356 (6368) : 441 - 443
[10] Hille B, 1992, IONIC CHANNELS EXCIT, P341

← 1 2 →