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Proteomic and functional mapping of cardiac NaV1.5 channel phosphorylation sites

Abstract : Phosphorylation of the voltage-gated Na+ (NaV) channel NaV1.5 regulates cardiac excitability, yet the phosphorylation sites regulating its function and the underlying mechanisms remain largely unknown. Using a systematic, quantitative phosphoproteomic approach, we analyzed NaV1.5 channel complexes purified from nonfailing and failing mouse left ventricles, and we identified 42 phosphorylation sites on NaV1.5. Most sites are clustered, and three of these clusters are highly phosphorylated. Analyses of phosphosilent and phosphomimetic NaV1.5 mutants revealed the roles of three phosphosites in regulating NaV1.5 channel expression and gating. The phosphorylated serines S664 and S667 regulate the voltage dependence of channel activation in a cumulative manner, whereas the nearby S671, the phosphorylation of which is increased in failing hearts, regulates cell surface NaV1.5 expression and peak Na+ current. No additional roles could be assigned to the other clusters of phosphosites. Taken together, our results demonstrate that ventricular NaV1.5 is highly phosphorylated and that the phosphorylation-dependent regulation of NaV1.5 channels is highly complex, site specific, and dynamic.
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https://hal.archives-ouvertes.fr/hal-03113169
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Soumis le : vendredi 15 octobre 2021 - 16:34:17
Dernière modification le : mardi 19 octobre 2021 - 11:14:07

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Maxime Lorenzini, Sophie Burel, Adrien Lesage, Emily Wagner, Camille Charrière, et al.. Proteomic and functional mapping of cardiac NaV1.5 channel phosphorylation sites. Journal of General Physiology, Rockefeller University Press, 2021, 153 (2), pp.e202012646. ⟨10.1085/jgp.202012646⟩. ⟨hal-03113169⟩

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