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N-glycans modulate K(v)1.5 gating but have no effect on K(v)1.4 gating.

Biochim. Biophys. Acta. 2010 Mar;1798(3):367-75. Epub 2009 Dec 02
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摘要


Nerve and muscle action potential repolarization are produced and modulated by the regulated expression and activity of several types of voltage-gated K(+) (K(v)) channels. Here, we show that sialylated N-glycans uniquely impact gating of a mammalian Shaker family K(v) channel isoform, K(v)1.5, but have no effect on gating of a second Shaker isoform, K(v)1.4. Each isoform contains one potential N-glycosylation site located along the S1-S2 linker; immunoblot analyses verified that K(v)1.4 and K(v)1.5 were N-glycosylated. The conductance-voltage (G-V) relationships and channel activation rates for two glycosylation-site deficient K(v)1.5 mutants, K(v)1.5(N290Q) and K(v)1.5(S292A), and for wild-type K(v)1.5 expressed under conditions of reduced sialylation, were each shifted linearly by a depolarizing approximately 18 mV compared to wild-type K(v)1.5 activation. External divalent cation screening experiments suggested that K(v)1.5 sialic acids contribute to an external surface potential that modulates K(v)1.5 activation. Channel availability was unaffected by changes in K(v)1.5 glycosylation or sialylation. The data indicate that sialic acid residues attached to N-glycans act through electrostatic mechanisms to modulate K(v)1.5 activation. The sialic acids fully account for effects of N-glycans on K(v)1.5 gating. Conversely, K(v)1.4 gating was unaffected by changes in channel sialylation or following mutagenesis to remove the N-glycosylation site. Each phenomenon is unique for K(v)1 channel isoforms, indicating that sialylated N-glycans modulate gating of homologous K(v)1 channels through isoform-specific mechanisms. Such modulation is relevant to changes in action potential repolarization that occur as ion channel expression and glycosylation are regulated.

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