具有不同河豚毒素解离常数的蟾毒素激活通道的离子选择性比较。

Comparison of ionic selectivity of batrachotoxin-activated channels with different tetrodotoxin dissociation constants.

作者信息

Huang L Y, Catterall W A, Ehrenstein G

出版信息

J Gen Physiol. 1979 Jun;73(6):839-54. doi: 10.1085/jgp.73.6.839.

DOI:10.1085/jgp.73.6.839

PMID:39111

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2215211/

Abstract

The purpose of these experiments is to test whether the differences between normal and tetrodotoxin-resistant Na+ channels reside in the selectivity filter. To do this, we have compared the selectivity of batrachotoxin-activated channels for alkali cations, organic cations, and nonelectrolytes in two neuroblastoma clonal cell lines: N18, which has normal tetrodotoxin (TTX) sensitivity, and C9, which is relatively TTX-resistant. We have also studied the effect of H+ on Na+ permeability and on the interaction between TTX and its receptor site in both cell lines. There is no qualitative difference between the two cell lines in any of these properties. In both cell lines the batrachotoxin-activated Na+ channels have a selectivity sequence of Tl+ greater than Na+ greater than K+, guanidinium greater than Rb+ greater than Cs+, methylamine. Also, in both cell lines H+ blocks Na+ channels with a pKa of 5.5 and inhibits the action of TTX with the same pKa. These observations indicate that the selectivity filters of the Na+ channels in C9 and N18 do not differ significantly despite the 100-fold difference in TTX-affinity. Our selectivity studies of batrachotoxin-activated Na+ channels for both cell lines suggest that these toxin-activated Na+ channels have a limiting pore size of 3.8 x 6.0 A, as compared to a pore size of 3.0 x 5.0 A for potential-activated Na+ channels.

摘要

这些实验的目的是测试正常和抗河豚毒素的Na⁺通道之间的差异是否存在于选择性过滤器中。为此，我们比较了两种神经母细胞瘤克隆细胞系中，经藜芦碱激活的通道对碱金属阳离子、有机阳离子和非电解质的选择性：N18细胞系对河豚毒素（TTX）敏感，C9细胞系相对抗TTX。我们还研究了H⁺对两种细胞系中Na⁺通透性以及TTX与其受体位点之间相互作用的影响。在这些特性方面，两种细胞系之间没有质的差异。在两种细胞系中，经藜芦碱激活的Na⁺通道的选择性顺序均为：Tl⁺＞Na⁺＞K⁺，胍盐＞Rb⁺＞Cs⁺，甲胺。此外，在两种细胞系中，H⁺均以pKa为5.5的方式阻断Na⁺通道，并以相同的pKa抑制TTX的作用。这些观察结果表明，尽管C9和N18细胞系中Na⁺通道对TTX的亲和力相差100倍，但其选择性过滤器并无显著差异。我们对两种细胞系经藜芦碱激活的Na⁺通道的选择性研究表明，与电压门控Na⁺通道3.0×5.0 Å的孔径相比，这些毒素激活的Na⁺通道的极限孔径为3.8×6.0 Å。

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