On the structural basis for ionic selectivity among Na+, K+, and Ca2+ in the voltage-gated sodium channel.

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On the structural basis for ionic selectivity among Na+, K+, and Ca2+ in the voltage-gated sodium channel.

I Favre, E Moczydlowski and L Schild

Institut de Pharmacologie and Toxicologie de l'Universite, Lausanne, Switzerland.

ABSTRACT

Voltage-sensitive sodium channels and calcium channels are homologousproteins with distinctly different selectivity for permeationof inorganic cations. This difference in function is specifiedby amino acid residues located within P-region segments thatlink presumed transmembrane elements S5 and S6 in each of fourrepetitive Domains I, II, III, and IV. By analyzing the selectivepermeability of Na+, K+, and Ca2+ in various mutants of themu 1 rat muscle sodium channel, the results in this paper supportthe concept that a conserved motif of four residues contributedby each of the Domains I-IV, termed the DEKA locus in sodiumchannels and the EEEE locus in calcium channels, determinesthe ionic selectivity of these channels. Furthermore, the resultsindicate that the Lys residue in Domain III of the sodium channelis the critical determinant that specifies both the impermeabilityof Ca2+ and the selective permeability of Na+ over K+. We proposethat the alkylammonium ion of the Lys(III) residue acts as anendogenous cation within the ion binding site/selectivity filterof the sodium channel to tune the kinetics and affinity of inorganiccation binding within the pore in a manner analogous to ion-ioninteractions that occur in the process of multi-ion channelconduction.

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				E.-L. Bassler, T. J. Ngo-Anh, H.-S. Geisler, J. P. Ruppersberg, and S. Grunder Molecular and Functional Characterization of Acid-sensing Ion Channel (ASIC) 1b J. Biol. Chem., August 31, 2001; 276(36): 33782 - 33787. [Abstract] [Full Text] [PDF]