Literature DB >> 16080781

Distinct domains of the sodium channel beta3-subunit modulate channel-gating kinetics and subcellular location.

Esther J Yu1, Seong-Hoon Ko, Paul W Lenkowski, Alena Pance, Manoj K Patel, Antony P Jackson.   

Abstract

Electrical excitability in neurons depends on the expression and activity of voltage-gated sodium channels in the neuronal plasma membrane. The ion-conducting alpha-subunit of the channel is associated with auxiliary beta-subunits of which there are four known types. In the present study, we describe the first detailed structure/function analysis of the beta3-subunit. We correlate the effect of point mutations and deletions in beta3 with the functional properties of the sodium channel and its membrane-targeting behaviour. We show that the extracellular domain influences sodium channel gating properties, but is not required for the delivery of beta3 to the plasma membrane when expressed with the alpha-subunit. In contrast, the intracellular domain is essential for correct subunit targeting. Our results reveal the crucial importance of the Cys21-Cys96 disulphide bond in maintaining the functionally correct beta3 structure and establish a role for a second putative disulphide bond (Cys2-Cys24) in modulating channel inactivation kinetics. Surprisingly, our results imply that the wild-type beta3 molecule can traverse the secretory pathway independently of the alpha-subunit.

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Year:  2005        PMID: 16080781      PMCID: PMC1316291          DOI: 10.1042/BJ20050518

Source DB:  PubMed          Journal:  Biochem J        ISSN: 0264-6021            Impact factor:   3.857


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