Phosphoinositide 3-kinase isoforms selectively couple receptors to vascular L-type Ca(2+) channels.

Nathalie Macrez, Chantal Mironneau, Valérie Carricaburu, Jean-François Quignard, Aleksei Babich, Cornelia Czupalla, Bernd Nürnberg, Jean Mironneau
Circulation Research. 2001-10-12; 89(8): 692-699
DOI: 10.1161/hh2001.097864

PubMed
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Heterodimeric class I phosphoinositide 3-kinase (PI3K) has been shown to be involved in the stimulation of voltage-gated Ca
2+
channels by various mediators. In this study, we bring evidences that vascular L-type Ca
2+
channels can be modulated by both tyrosine kinase–regulated class Ia and G protein–regulated class Ib PI3Ks. Purified recombinant PI3Ks increased the peak Ca
2+
channel current density when applied intracellularly. Furthermore, PI3Kα-, β-, and δ-mediated stimulations of Ca
2+
channel currents were increased by preactivation by a phosphotyrosyl peptide, whereas PI3Kγ- and β-mediated effects were increased by Gβγ. In freshly isolated and cultured vascular myocytes, angiotensin II and Gβγ stimulated L-type Ca
2+
channel current. In contrast, platelet-derived growth factor (PDGF)-BB and the phosphotyrosyl peptide did not stimulate Ca
2+
channel current in freshly isolated cells despite the presence of endogenous PDGF receptors and PI3Kα and PI3Kγ. Interestingly, when endogenous PI3Kβ expression arose in cultured myocytes, both PDGF and phosphotyrosyl peptide stimulated Ca
2+
channels through PI3Kβ, as revealed by the inhibitory effect of an anti-PI3Kβ antibody. These results suggest that endogenous PI3Kβ but not PI3Kα is specifically involved in PDGF receptor–induced stimulation of Ca
2+
channels and that different isoforms of PI3K regulate physiological increases of Ca
2+
influx in vascular myocytes stimulated by vasoconstrictor or growth factor.

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