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  • Small caliber arterial endothelial cells calcium signals elicited by PAR2 are preserved from endothelial dysfunction.

Small caliber arterial endothelial cells calcium signals elicited by PAR2 are preserved from endothelial dysfunction.

Pharmacology research & perspectives (2015-03-03)
John C Hennessey, Bruno D Stuyvers, John J McGuire
ABSTRACT

Endothelial cell (EC)-dependent vasodilation by proteinase-activated receptor 2 (PAR2) is preserved in small caliber arteries in disease states where vasodilation by muscarinic receptors is decreased. In this study, we identified and characterized the PAR2-mediated intracellular calcium (Ca(2+))-release mechanisms in EC from small caliber arteries in healthy and diseased states. Mesenteric arterial EC were isolated from PAR2 wild-type (WT) and null mice, after saline (controls) or angiotensin II (AngII) infusion, for imaging intracellular calcium and characterizing the calcium-release system by immunofluorescence. EC Ca(2+) signals comprised two forms of Ca(2+)-release events that had distinct spatial-temporal properties and occurred near either the plasmalemma (peripheral) or center of EC. In healthy EC, PAR2-dependent increases in the densities and firing rates of both forms of Ca(2+)-release were abolished by inositol 1,4,5- trisphosphate receptor (IP3R) inhibitor, but partially reduced by transient potential vanilloid channels inhibitor ruthenium red (RR). Acetylcholine (ACh)-induced less overall Ca(2+)-release than PAR2 activation, but enhanced selectively the incidence of central events. PAR2-dependent Ca(2+)-activity, inhibitors sensitivities, IP3R, small- and intermediate-conductance Ca(2+)-activated potassium channels expressions were unchanged in EC from AngII WT. However, the same cells exhibited decreases in ACh-induced Ca(2+)-release, RR sensitivity, and endothelial nitric oxide synthase expression, indicating AngII-induced dysfunction was differentiated by receptor, Ca(2+)-release, and downstream targets of EC activation. We conclude that PAR2 and muscarinic receptors selectively elicit two elementary Ca(2+) signals in single EC. PAR2-selective IP3R-dependent peripheral Ca(2+)-release mechanisms are identical between healthy and diseased states. Further study of PAR2-selective Ca(2+)-release for eliciting pathological and/or normal EC functions is warranted.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-IP₃ Receptor Mouse mAb (IPR.1), liquid, clone IPR.1, Calbiochem®