Phosphorylation-dependent functional coupling of hSlo calcium-dependent potassium channel and its hbeta 4 subunit.

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Citation

Jin P, Weiger TM, Wu Y, Levitan IB

Phosphorylation-dependent functional coupling of hSlo calcium-dependent potassium channel and its hbeta 4 subunit.

J Biol Chem. 2002 Mar 22;277(12):10014-20. Epub 2002 Jan 14.

PubMed ID
11790768 [ View in PubMed
]
Abstract

The auxiliary beta4 subunit of the human slowpoke calciumdependent potassium (slo) channel is expressed predominantly in the brain. Co-expression of beta4 subunit with the slo channel alpha subunit in HEK293 and Chinese hamster ovary cells slows channel activation and deactivation and also shifts the voltage dependence of the channel to more depolarized potentials. We show here that the functional interaction between the hbeta4 subunit and the slo channel is influenced by the phosphorylation state of hbeta4. Treatment of cells with okadaic acid (OA) reduces the effect of hbeta4 on slo channel activation kinetics and voltage dependence but not on slo channel deactivation kinetics. The effect of OA can be blocked by mutating three putative serine/threonine phosphorylation sites in hbeta4 (Thr-11/Ser-17/Ser-210) to alanines, suggesting that OA potentiates phosphorylation of hbeta4 and thereby suppresses its functional coupling to the slo channel. Mutation of Ser-17 alone to a negatively charged residue (S17E) can mimic the effect of OA. Mutating all three phosphorylation sites in hbeta4 to negatively charged residues (T11D/S17E/S210E) not only suppresses the effect of hbeta4 on slo channel activation kinetics and voltage dependence, it also suppresses its effect on slo channel deactivation kinetics. Co-immunoprecipitation/Western blot experiments indicate that all of these hbeta4 mutants, as well as the wild-type hbeta4, bind to the slo channel. Taken together, these data suggest that phosphorylation of the beta4 subunit dynamically regulates the functional coupling between the beta4 subunit and the pore-forming alpha subunit of the slo channel. In addition, phosphorylation of different residues in hbeta4 differentially influences its effects on slo channel activation kinetics, deactivation kinetics, and voltage dependence.

DrugBank Data that Cites this Article

Polypeptides
NameUniProt ID
Calcium-activated potassium channel subunit beta-4Q86W47Details