AIMS: The lipid and protein kinase phosphoinositide 3-kinase γ (PI3Kγ) is abundantly expressed in inflammatory cells and in the cardiovascular tissue. In recent years, its role in inflammation and in cardiac function and remodelling has been unravelled, highlighting the beneficial effects of its pharmacological inhibition. Furthermore, a role for PI3Kγ in the regulation of vascular tone has been emphasized. However, the impact of this signalling in the control of blood pressure is still poorly understood. Our study investigated the effect of a selective inhibition of PI3Kγ, obtained by using two independent small molecules, on blood pressure. Moreover, we dissected the molecular mechanisms involved in control of contraction of resistance arteries by PI3Kγ. METHODS AND RESULTS: We showed that inhibition of PI3Kγ reduced blood pressure in normotensive and hypertensive mice in a concentration-dependent fashion. This effect was dependent on enhanced vasodilatation, documented in vivo by decreased peripheral vascular resistance, and ex vivo by vasorelaxing effects on isolated resistance vessels. The vasorelaxation induced by PI3Kγ inhibition relied on blunted pressure-induced Akt phosphorylation and a myogenic contractile response. Molecular insights revealed that PI3Kγ inhibition affected smooth muscle L-type calcium channel current density and calcium influx by impairing plasma membrane translocation of the α1C L-type calcium channel subunit responsible for channel open-state probability. CONCLUSION: Overall our findings suggest that PI3Kγ inhibition could be a novel tool to modulate calcium influx in vascular smooth muscle cells, thus relaxing resistance arteries and lowering blood pressure.
AIMS: The lipid and protein kinase phosphoinositide 3-kinase γ (PI3Kγ) is abundantly expressed in inflammatory cells and in the cardiovascular tissue. In recent years, its role in inflammation and in cardiac function and remodelling has been unravelled, highlighting the beneficial effects of its pharmacological inhibition. Furthermore, a role for PI3Kγ in the regulation of vascular tone has been emphasized. However, the impact of this signalling in the control of blood pressure is still poorly understood. Our study investigated the effect of a selective inhibition of PI3Kγ, obtained by using two independent small molecules, on blood pressure. Moreover, we dissected the molecular mechanisms involved in control of contraction of resistance arteries by PI3Kγ. METHODS AND RESULTS: We showed that inhibition of PI3Kγ reduced blood pressure in normotensive and hypertensivemice in a concentration-dependent fashion. This effect was dependent on enhanced vasodilatation, documented in vivo by decreased peripheral vascular resistance, and ex vivo by vasorelaxing effects on isolated resistance vessels. The vasorelaxation induced by PI3Kγ inhibition relied on blunted pressure-induced Akt phosphorylation and a myogenic contractile response. Molecular insights revealed that PI3Kγ inhibition affected smooth muscle L-type calcium channel current density and calcium influx by impairing plasma membrane translocation of the α1C L-type calcium channel subunit responsible for channel open-state probability. CONCLUSION: Overall our findings suggest that PI3Kγ inhibition could be a novel tool to modulate calcium influx in vascular smooth muscle cells, thus relaxing resistance arteries and lowering blood pressure.
Authors: Gilles Kauffenstein; Sophie Tamareille; Fabrice Prunier; Charlotte Roy; Audrey Ayer; Bertrand Toutain; Marie Billaud; Brant E Isakson; Linda Grimaud; Laurent Loufrani; Pascal Rousseau; Pierre Abraham; Vincent Procaccio; Hannah Monyer; Cor de Wit; Jean-Marie Boeynaems; Bernard Robaye; Brenda R Kwak; Daniel Henrion Journal: Arterioscler Thromb Vasc Biol Date: 2016-06-02 Impact factor: 8.311
Authors: Francesco Villa; Albino Carrizzo; Chiara C Spinelli; Anna Ferrario; Alberto Malovini; Anna Maciąg; Antonio Damato; Alberto Auricchio; Gaia Spinetti; Elena Sangalli; Zexu Dang; Michele Madonna; Mariateresa Ambrosio; Leopoldo Sitia; Paolo Bigini; Gaetano Calì; Stefan Schreiber; Thomas Perls; Sergio Fucile; Francesca Mulas; Almut Nebel; Riccardo Bellazzi; Paolo Madeddu; Carmine Vecchione; Annibale A Puca Journal: Circ Res Date: 2015-06-01 Impact factor: 17.367
Authors: Evan Paul Tracy; William Hughes; Jason E Beare; Gabrielle Rowe; Andreas Beyer; Amanda Jo LeBlanc Journal: Antioxid Redox Signal Date: 2021-09-17 Impact factor: 7.468
Authors: Karolina M Turczyńska; Anirban Bhattachariya; Johanna Säll; Olga Göransson; Karl Swärd; Per Hellstrand; Sebastian Albinsson Journal: PLoS One Date: 2013-05-21 Impact factor: 3.240