Department of Anesthesiology, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan 430022, China.
Department of Anesthesiology, Peking Union Medical College Hospital, CAMS&PUMC, Beijing, China.
Life Sci. 2020 Apr 1;246:117419. doi: 10.1016/j.lfs.2020.117419. Epub 2020 Feb 8.
Although resistin-like molecule β (RELM-β) is involved in the pathological processes of various lung diseases, such as pulmonary inflammation, asthma and fibrosis, its potential roles in hypoxic pulmonary arterial hypertension (PAH) remain largely unknown. The study aims to investigate whether RELM-β contributes to hypoxia-induced excessive proliferation of human pulmonary artery smooth muscle cells (PASMCs) and to explore the potential mechanisms of this process.
Human PASMCs were exposed to normoxia or hypoxia (1% O) for 24 h. siRNA targeting RELM-β was transfected into cells. Protein levels of KCNK3, RELM-β, pSTAT3 and STAT3 were determined by immunoblotting. The translocation of NFATc2 and expression of KCNK3 were visualized by immunofluorescence. 5-ethynyl-2'-deoxyuridine assays and cell counting kit-8 assays were performed to assess the proliferation of PASMCs.
(1) Chronic hypoxia significantly decreased KCNK3 protein levels while upregulating RELM-β protein levels in human PASMCs, which was accompanied by excessive proliferation of cells. (2) RELM-β could promote human PASMCs proliferation and activate the STAT3/NFAT axis by downregulating KCNK3 protein under normoxia. (3) Inhibition of RELM-β expression effectively prevented KCNK3-mediated cell proliferation under hypoxia. (4) Phospholipase C (PLC) inhibitor U-73122 could not only prevent the hypoxia/RELM-β-induced decrease in KCNK3 protein, but also inhibit the enhanced cell viability caused by hypoxia/RELM-β. (5) Both hypoxia and RELM-β could downregulate membrane KCNK3 protein levels by enhancing endocytosis.
RELM-β activation is responsible for hypoxia-induced excessive proliferation of human PASMCs. Interfering with RELM-β may alleviate the progression of hypoxic PAH by upregulating PLC-dependent KCNK3 expression.
尽管抵抗素样分子β(RELM-β)参与了各种肺部疾病的病理过程,如肺部炎症、哮喘和纤维化,但它在低氧性肺动脉高压(PAH)中的潜在作用在很大程度上仍不清楚。本研究旨在探讨 RELM-β 是否有助于低氧诱导的人肺动脉平滑肌细胞(PASMC)过度增殖,并探讨这一过程的潜在机制。
将人 PASMC 在常氧或低氧(1% O)中孵育 24 小时。用靶向 RELM-β 的 siRNA 转染细胞。用免疫印迹法测定 KCNK3、RELM-β、pSTAT3 和 STAT3 的蛋白水平。用免疫荧光法观察 NFATc2 的易位和 KCNK3 的表达。用 5-乙炔基-2'-脱氧尿苷测定法和细胞计数试剂盒-8 测定法评估 PASMC 的增殖。
(1)慢性低氧显著降低了人 PASMC 中的 KCNK3 蛋白水平,同时上调了 RELM-β 蛋白水平,这伴随着细胞的过度增殖。(2)在常氧条件下,RELM-β 可以通过下调 KCNK3 蛋白来促进人 PASMC 的增殖并激活 STAT3/NFAT 轴。(3)抑制 RELM-β 表达可有效防止低氧条件下 KCNK3 介导的细胞增殖。(4)PLC 抑制剂 U-73122 不仅可以防止低氧/RELM-β 诱导的 KCNK3 蛋白减少,还可以抑制低氧/RELM-β 引起的细胞活力增强。(5)低氧和 RELM-β 均可通过增强内吞作用下调膜 KCNK3 蛋白水平。
RELM-β 的激活是低氧诱导的人 PASMC 过度增殖的原因。干扰 RELM-β 可能通过上调 PLC 依赖性 KCNK3 表达来减轻低氧性 PAH 的进展。
