Abstract

Rationale: Pulmonary arterial hypertension (PAH) is characterized by progressive distal pulmonary artery (PA) obstruction, leading to right ventricular hypertrophy and failure. Exacerbated intracellular calcium (Ca 2+ ) signaling contributes to abnormalities in PA smooth muscle cells (PASMCs), including aberrant proliferation, apoptosis resistance, exacerbated migration, and arterial contractility. Store-operated Ca 2+ entry (SOCE) is involved in Ca 2+ homeostasis in PASMCs, but its properties in PAH are unclear. Methods: Using a combination of Ca 2+ imaging, molecular biology, in vitro , ex vivo , and in vivo approaches, we investigated the roles of SOCE channel Orai1 in PA remodeling in PAH, and determined the consequences of pharmacological Orai1 inhibition in vivo using experimental models of pulmonary hypertension (PH). Results: Human PASMCs (hPASMCs) from patients with PAH (PAH-hPASMCs) showed upregulation of SOCE and Orai1 expression, in which ERK1/2, nuclear factor of activated T cells (NFAT), and nuclear factor-kappa B (NFκB) were contributing factors. Using siRNA and two Orai1 inhibitors, we found that Orai1 inhibition reduced SOCE, mitochondrial Ca 2+ entry, aberrant proliferation, apoptosis resistance, migration, and excessive calcineurin activity in PAH-hPASMCs. Orai1 inhibitors reduced agonist-evoked constriction in human PAs. In experimental rat models of PH evoked by chronic-hypoxia or monocrotaline or Sugen/hypoxia, administration of Orai1 inhibitors (BTP2, JPIII, or 5J4) protected against PH. Conclusions: In human PAH and experimental PH, Orai1 expression and activity are increased. Orai1 inhibition normalizes the PAH-hPASMC phenotype and attenuates PH in rat models, suggesting that Orai1 should be considered as a relevant therapeutic target for PAH.

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