TRPV4‐associated alterations of Ca2+ pulsars in a murine model of pulmonary hypertension secondary to heart failure (1090.11)

Abstract

Heart failure is the most frequent cause of pulmonary hypertension (PH) (group 2). Pathophysiological mechanisms modulating pulmonary vascular tone and leading to group 2‐PH are poorly defined. Since Ca2+ homeostasis is crucial to endothelial control of vascular tone, mechanisms involved, including TRPV4 channels, may be altered. This study aimed to characterize intracellular Ca2+ dynamics in pulmonary endothelium and their alterations in group 2 PH. A mouse model of group 2 PH was developed and 3rd order resistance arteries were isolated to investigate endothelial intracellular Ca2+. TRPV4 involvement was studied using a high‐speed confocal microscope. Characterization of endothelial localized calcium transients, similar to Ca2+ pulsars, was carried out in pulmonary arteries from control mice. Exposure of Sham arteries to GSK1016790A (100 nM), a TRPV4‐agonist, increased the frequency (1.5 fold) of Ca2+ pulsars. However, exposure to GSK1016790A had little if any effect on Ca2+ dynamics in PH arteries. TRPV4 channel expression at both mRNA and protein levels within pulmonary endothelium was confirmed by qPCR, IHC and WB approaches. Our data suggest a potential role for endothelial TRPV4 in vasoregulatory alterations involving local Ca2+ dynamics. This study strengthens our understanding of endothelial Ca2+ dyshomeostasis occurring in a clinically relevant model of PH.Grant Funding Source: FRQS, HSFC, FICM, CIHR