Background: Mechanosensitive Piezo1 channel plays a key role in pulmonary hypertension (PH). However, the role of Piezo2 in PH remains unclear.
Methods: Endothelial cell (EC)-specific knockout (, Tek-Cre; ) rats and primarily cultured pulmonary microvascular ECs were used to determine the role of Piezo2 in PH.
Results: Data analysis of publicly accessible single-cell RNA-sequencing data sets uncovered significant downregulation of Piezo2 in lung ECs from patients with idiopathic pulmonary arterial hypertension, which was verified in the lungs/ECs from PH rat models induced by hypoxia or monocrotaline. Comparing to wild-type rats, rats exhibited exacerbated PH in both hypoxia-induced PH and monocrotaline-induced PH, characterized by the worsened hemodynamical and histological changes. rats showed dramatic loss of pulmonary microvessels, in association with the decreased intracellular free calcium concentration ([Ca]) and downregulation of VEGFR2 (vascular endothelial growth factor receptor 2) and phosphorylated SRF (serum response factor) in pulmonary microvascular ECs. Knockout of or treatment with a calcium chelator, EDTA, impaired the ability of tube formation and migration in pulmonary microvascular ECs, which was restored by supplementation of extra calcium. A safflower oil diet rich in linoleic acid, which can enhance the stability and function of Piezo2, effectively alleviated PH development in a hypoxia-induced PH rat model.
Conclusions: This study demonstrates that EC-specific knockout of exacerbates PH pathogenesis, at least partially, through the suppression of [Ca]/phosphorylated SRF/VEGFR2 signaling axis in pulmonary vascular ECs. Targeted activation of Piezo2 could be a novel effective strategy for the treatment of PH.
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