CaM‐dependent modulation of human CaV1.3 whole‐cell and single‐channel currents by C‐terminal CaMKII phosphorylation site S1475

Author:

Salamon Sarah1,Kuzmenkina Elza1ORCID,Fried Cora1,Matthes Jan1ORCID

Affiliation:

1. Center of Pharmacology, Institute II Faculty of Medicine and University Hospital of Cologne University of Cologne Cologne Germany

Abstract

AbstractPhosphorylation enables rapid modulation of voltage‐gated calcium channels (VGCC) in physiological and pathophysiological conditions. How phosphorylation modulates human CaV1.3 VGCC, however, is largely unexplored. We characterized modulation of CaV1.3 gating via S1475, the human equivalent of a phosphorylation site identified in the rat. S1475 is highly conserved in CaV1.3 but absent from all other high‐voltage activating calcium channel types co‐expressed with CaV1.3 in similar tissues. Further, it is located in the C‐terminal EF‐hand motif, which binds calmodulin (CaM). This is involved in calcium‐dependent channel inactivation (CDI). We used amino acid exchanges that mimic either sustained phosphorylation (S1475D) or phosphorylation resistance (S1475A). Whole‐cell and single‐channel recordings of phosphorylation state imitating CaV1.3 variants in transiently transfected HEK‐293 cells revealed functional relevance of S1475 in human CaV1.3. We obtained three main findings: (1) CaV1.3_S1475D, imitating sustained phosphorylation, displayed decreased current density, reduced CDI and (in‐) activation kinetics shifted to more depolarized voltages compared with both wildtype CaV1.3 and the phosphorylation‐resistant CaV1.3_S1475A variant. Corresponding to the decreased current density, we find a reduced open probability of CaV1.3_S1475D at the single‐channel level. (2) Using CaM overexpression or depletion, we find that CaM is necessary for modulating CaV1.3 through S1475. (3) CaMKII activation led to CaV1.3_WT‐current properties similar to those of CaV1.3_S1475D, but did not affect CaV1.3_S1475A, confirming that CaMKII modulates human CaV1.3 via S1475. Given the physiological and pathophysiological importance of CaV1.3, our findings on the S1475‐mediated interplay of phosphorylation, CaM interaction and CDI provide hints for approaches on specific CaV1.3 modulation under physiological and pathophysiological conditions. imageKey points Phosphorylation modulates activity of voltage‐gated L‐type calcium channels for specific cellular needs but is largely unexplored for human CaV1.3 channels. Here we report that S1475, a CaMKII phosphorylation site identified in rats, is functionally relevant in human CaV1.3. Imitating phosphorylation states at S1475 alters current density and inactivation in a calmodulin‐dependent manner. In wildtype CaV1.3 but not in the phosphorylation‐resistant variant S1475A, CaMKII activation elicits effects similar to constitutively mimicking phosphorylation at S1475. Our findings provide novel insights on the interplay of modulatory mechanisms of human CaV1.3 channels, and present a possible target for CaV1.3‐specific gating modulation in physiological and pathophysiological conditions.

Publisher

Wiley

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