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
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