Abstract
Voltage-dependent Ca(2+) channel (Ca(v)1.2, L-type Ca(2+) channel) function is highly regulated by hormones and neurotransmitters in large part through the activation of kinases and phosphatases. Regulation of Ca(v)1.2 by protein kinase C (PKC) is of significant physiologic importance, mediating, in part, the cardiac response to hormonal regulation. Although PKC has been reported to mediate activation and/or inhibition of Ca(v)1.2 function, the molecular mechanisms mediating the response have not been definitively elucidated. We show that PKC forms a macromolecular complex with the alpha(1c) subunit of Ca(v)1.2 through direct interaction with the C terminus. This interaction leads to phosphorylation of the channel in response to activators of PKC. We identify Ser(1928) as the residue that is phosphorylated by PKC in vitro and in vivo. Ser(1928) has been identified previously as the site mediating, in part, the protein kinase A up-regulation of channel activity. Thus, the protein kinase A and PKC signaling pathways converge on the Ca(v)1.2 complex at Ser(1928) to increase channel activity. Our results identify two mechanisms leading to regulation of Ca(v)1.2 activity by PKC: pre-association of the channel with PKC isoforms and phosphorylation of specific sites within the alpha(1c) subunit.
Highlights
The influx of Ca2ϩ through Cav1.2 is essential for activation of excitation-contraction coupling in the heart [1]
Cav1.2 Forms a Macromolecular Complex with protein kinase C (PKC) in the Heart and Brain— significant evidence supports the concept that PKC signaling pathways can modulate Cav1.2 activity in the heart, there is still little to no information on the identity of the PKC isoform(s) and the molecular mechanisms underlying this regulation
Cardiomyocytes coexpress conventional, novel, and atypical isoforms; conventional PKC (cPKC) has been variably detected in cardiomyocytes by some investigators (30 –32)
Summary
The influx of Ca2ϩ through Cav1.2 is essential for activation of excitation-contraction coupling in the heart [1]. The protein kinase A and PKC signaling pathways converge on the Cav1.2 complex at Ser1928 to increase channel activity. Our results identify two mechanisms leading to regulation of Cav1.2 activity by PKC: pre-association of the channel with PKC isoforms and phosphorylation of specific sites within the ␣1c subunit.
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