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K? channel gating: C-type inactivation is enhanced by calcium or lanthanum outside.


ABSTRACT: Many voltage-gated K(+) channels exhibit C-type inactivation. This typically slow process has been hypothesized to result from dilation of the outer-most ring of the carbonyls in the selectivity filter, destroying this ring's ability to bind K(+) with high affinity. We report here strong enhancement of C-type inactivation upon extracellular addition of 10-40 mM Ca(2+) or 5-50 µM La(3+). These multivalent cations mildly increase the rate of C-type inactivation during depolarization and markedly promote inactivation and/or suppress recovery when membrane voltage (V(m)) is at resting levels (-80 to -100 mV). At -80 mV with 40 mM Ca(2+) and 0 mM K(+) externally, ShB?N channels with the mutation T449A inactivate almost completely within 2 min or less with no pulsing. This behavior is observed only in those mutants that show C-type inactivation on depolarization and is distinct from the effects of Ca(2+) and La(3+) on activation (opening and closing of the V(m)-controlled gate), i.e., slower activation of K(+) channels and a positive shift of the mid-voltage of activation. The Ca(2+)/La(3+) effects on C-type inactivation are antagonized by extracellular K(+) in the low millimolar range. This, together with the known ability of Ca(2+) and La(3+) to block inward current through K(+) channels at negative voltage, strongly suggests that Ca(2+)/La(3+) acts at the outer mouth of the selectivity filter. We propose that at -80 mV, Ca(2+) or La(3+) ions compete effectively with K(+) at the channel's outer mouth and prevent K(+) from stabilizing the filter's outer carbonyl ring.

SUBMITTER: Armstrong CM 

PROVIDER: S-EPMC4144669 | biostudies-literature | 2014 Sep

REPOSITORIES: biostudies-literature

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K⁺ channel gating: C-type inactivation is enhanced by calcium or lanthanum outside.

Armstrong Clay M CM   Hoshi Toshinori T  

The Journal of general physiology 20140901 3


Many voltage-gated K(+) channels exhibit C-type inactivation. This typically slow process has been hypothesized to result from dilation of the outer-most ring of the carbonyls in the selectivity filter, destroying this ring's ability to bind K(+) with high affinity. We report here strong enhancement of C-type inactivation upon extracellular addition of 10-40 mM Ca(2+) or 5-50 µM La(3+). These multivalent cations mildly increase the rate of C-type inactivation during depolarization and markedly p  ...[more]

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