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  • A non-catalytic function of PI3Kγ drives smooth muscle cell proliferation after arterial damage.

A non-catalytic function of PI3Kγ drives smooth muscle cell proliferation after arterial damage.

Journal of cell science (2020-06-03)
Adrien Lupieri, Régis Blaise, Alessandra Ghigo, Natalia Smirnova, Marie-Kerguelen Sarthou, Nicole Malet, Isabelle Limon, Pierre Vincent, Emilio Hirsch, Stéphanie Gayral, Damien Ramel, Muriel Laffargue
ABSTRACT

Arterial remodeling in hypertension and intimal hyperplasia involves inflammation and disrupted flow, both of which contribute to smooth muscle cell dedifferentiation and proliferation. In this context, our previous results identified phosphoinositide 3-kinase γ (PI3Kγ) as an essential factor in inflammatory processes of the arterial wall. Here, we identify for the first time a kinase-independent role of nonhematopoietic PI3Kγ in the vascular wall during intimal hyperplasia using PI3Kγ-deleted mice and mice expressing a kinase-dead version of the enzyme. Moreover, we found that the absence of PI3Kγ in vascular smooth muscle cells (VSMCs) leads to modulation of cell proliferation, associated with an increase in intracellular cAMP levels. Real-time analysis of cAMP dynamics revealed that PI3Kγ modulates the degradation of cAMP in primary VSMCs independently of its kinase activity through regulation of the enzyme phosphodiesterase 4. Importantly, the use of an N-terminal competing peptide of PI3Kγ blocked primary VSMC proliferation. These data provide evidence for a kinase-independent role of PI3Kγ in arterial remodeling and reveal novel strategies targeting the docking function of PI3Kγ for the treatment of cardiovascular diseases.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Forskolin, For use in molecular biology applications
Sigma-Aldrich
3-Isobutyl-1-methylxanthine, ≥99% (HPLC), powder
Sigma-Aldrich
StableCell DMEM - high glucose, With 4500 mg/L glucose, stable glutamine, sodium pyruvate and sodium bicarbonate, liquid, sterile-filtered, suitable for cell culture