RO4929097 inhibits NICD3 to alleviate pulmonary hypertension via blocking Notch3/HIF-2α/FoxM1 signaling pathway.

IF 1.5 4区生物学 Q4 CELL BIOLOGY

In Vitro Cellular & Developmental Biology. Animal Pub Date : 2025-01-01 Epub Date: 2024-12-02 DOI:10.1007/s11626-024-00976-2

Hao Zhu, Cheng Li, Fang Hu, Lifu Wu, Ling Wu, Meihua Zhou, Wei Liu, Aiguo Dai

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Abstract

Pulmonary hypertension (PH) is a condition in which the smooth muscle cells (SMCs) in the pulmonary arteries multiply excessively, causing the arteries to narrow. This can ultimately result in right heart failure and premature death. Notch3 is an important factor involved in pulmonary vascular remodeling in PH. RO4929097, as a γ-secretase inhibitor that inhibits Notch3 signaling pathway, may be a potential drug for the treatment of PH, but its feasibility and related mechanism of action need to be further investigated. In vitro modeling by hypoxic incubation of human pulmonary artery SMCs (HPASMCs). RO4929097 and plasmids including overexpression-NICD3 (oe-NICD3) and NICD3 small interfering RNA (siRNA) were used to alter the expression of NICD3, and HIF-2α inhibitor PT-2385 was used to alter the expression of HIF-2α. Western blot, EdU incorporation assay was used to investigate the alteration of NICD3, HIF-2α, FoxM1 protein expression, and cell proliferation. The severity of PH in rats was assessed by measuring the weight ratio of right ventricle (RV) to left ventricle (LV) and septum (S) (RV/[LV + S]) and hematoxylin-eosin (H&E) staining of lung tissues in a hypoxia-induced PH rat model. We first determined that hypoxia induction for 48 h had the strongest induction of NICD3 and Notch3 in HPASMCs, and the strongest inhibition by 10 μM RO4929097. Treatment of HPASMCs under hypoxic conditions with RO4929097 inhibited hypoxia-induced expression of NICD3, HIF-2α, FoxM1, and proliferation of HPASMCs. The inhibitory effect of RO4929097 was reversed after overexpression of NICD3 in HPASMCs. Further, we found that PT-2385 reversed the promotional effect of overexpression of NICD3 on the proliferation of HPASMCs. In vivo experiments, hypoxia-induced PH rats treated with RO4929097 showed a reduction in right ventricular hypertrophy index (RVHI) and a return to normal pulmonary artery morphology, indicating a reduction in the severity of PH. Our data suggest that RO4929097 regulates the Notch3/HIF-2α/FoxM1 signaling pathway by inhibiting the expression of NICD3, thereby inhibiting hypoxia-induced proliferation of HPASMCs. In vivo experiments also confirmed that RO4929097 could alleviate PH as a potential therapeutic strategy.

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RO4929097通过阻断Notch3/HIF-2α/FoxM1信号通路抑制NICD3减轻肺动脉高压。

肺动脉高压（Pulmonary hypertension， PH）是肺动脉内平滑肌细胞（SMCs）增生过多，导致动脉狭窄的一种疾病。这最终会导致右心衰和过早死亡。Notch3是PH中参与肺血管重构的重要因子，RO4929097作为抑制Notch3信号通路的γ-分泌酶抑制剂，可能是治疗PH的潜在药物，但其可行性及相关作用机制有待进一步研究。人肺动脉SMCs （HPASMCs）体外缺氧培养模型。用RO4929097和含有过表达NICD3 （one -NICD3）和NICD3小干扰RNA （siRNA）的质粒改变NICD3的表达，用HIF-2α抑制剂PT-2385改变HIF-2α的表达。采用Western blot、EdU掺入法观察NICD3、HIF-2α、FoxM1蛋白表达及细胞增殖的变化。缺氧诱导的PH大鼠模型，通过测量右心室（RV）与左心室（LV）和中隔(S)的重量比（RV/[LV + S]）和肺组织苏木精-伊红（H&E）染色来评估大鼠PH的严重程度。我们首先确定缺氧诱导48 h对HPASMCs中NICD3和Notch3的诱导作用最强，10 μM RO4929097的抑制作用最强。用RO4929097治疗缺氧条件下的HPASMCs，可抑制缺氧诱导的NICD3、HIF-2α、FoxM1的表达和HPASMCs的增殖。在HPASMCs中过表达NICD3后，RO4929097的抑制作用被逆转。此外，我们发现PT-2385逆转了NICD3过表达对HPASMCs增殖的促进作用。体内实验显示，缺氧诱导的PH大鼠右心室肥厚指数（RVHI）降低，肺动脉形态恢复正常，表明PH严重程度减轻。我们的数据表明，RO4929097通过抑制NICD3的表达调节Notch3/HIF-2α/FoxM1信号通路，从而抑制缺氧诱导的HPASMCs增殖。体内实验也证实了RO4929097可以作为一种潜在的治疗策略来缓解PH。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

In Vitro Cellular & Developmental Biology. Animal 生物-发育生物学

CiteScore

3.70

自引率

4.80%

发文量

审稿时长

3 months

期刊介绍： In Vitro Cellular & Developmental Biology - Animal is a journal of the Society for In Vitro Biology (SIVB). Original manuscripts reporting results of research in cellular, molecular, and developmental biology that employ or are relevant to organs, tissue, tumors, and cells in vitro will be considered for publication. Topics covered include: Biotechnology; Cell and Tissue Models; Cell Growth/Differentiation/Apoptosis; Cellular Pathology/Virology; Cytokines/Growth Factors/Adhesion Factors; Establishment of Cell Lines; Signal Transduction; Stem Cells; Toxicology/Chemical Carcinogenesis; Product Applications.