Back to Search View Original Cite This Article

Abstract

<jats:p>Within the vasculature, pannexin 1 (PANX1) channels in smooth muscle cells (SMCs) regulate α-adrenergic constriction and blood pressure. PANX1 channel activity is regulated by phosphorylation at Y198, S205 and Y308 residues, but the physiological significance of these modifications is unknown. Here, we utilize newly developed PANX1 Y198F, S205A and Y308F phospho-dead mutant mice to test physiological changes related to hemodynamics. Radiotelemetry-measured blood pressure was decreased in Y198F, increased in Y308F, but unchanged in S205A mice at baseline. Clonidine-sensitive sympathetic-driven hypertension was observed in all mouse lines except Y198F. Pressure myography of third-order mesenteric arteries revealed α-adrenergic contractile responses were decreased in Y198F, slightly enhanced in Y308F, but unchanged in S205A, with responses in Y198F vessels mimicking controls treated with PANX1 inhibitors. To understand signaling changes driving these phenotypes, we performed mesenteric artery bulk RNA sequencing, but found a minimal number of differentially expressed genes between phospho-dead mutants and controls. Similarly, co-immunoprecipitation-mass spectrometry of wildtype or phospho-dead mutant-expressing vascular SMCs revealed few interacting proteins distinct to each PANX1 variant. However, PANX1 channel activity assessments in HEK293T cells expressing the α1D-adrenergic receptor as well as each phospho-dead mutant PANX1 showed that phenylephrine-induced ATP release from Y198F channels was significantly decreased compared to wildtype, but current was unaffected. Conversely, basal and phenylephrine-induced S205A and Y308F currents were reduced, but ATP release resembled controls. Taken together, these findings indicate that distinct PANX1 phosphorylation determines PANX1 metabolite release versus current conducting properties and in turn, regulates physiological outcomes in the vasculature.</jats:p>

Show More

Keywords

panx1 y198f s205a y308f phosphodead

Related Articles

PORE

About

Connect