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Endothelial FUNDC1 Deficiency Drives Pulmonary Hypertension

粒体自噬 内分泌学 缺氧(环境) 内科学 内皮功能障碍 生物 发病机制 内皮干细胞 肺动脉高压 糖酵解 内皮 医学 化学 新陈代谢 生物化学 体外 自噬 细胞凋亡 氧气 有机化学
作者
Yandong Pei,Dongfeng Ren,Yuanhao Yin,Jiajia Shi,Qianyuan Ai,Wenxin Hao,Xiaofan Luo,Chenyue Zhang,Yanping Zhao,Chenyu Bai,Lin Zhu,Qiong Wang,S. Y. Li,Yuwei Zhang,Jiangtao Lu,Lin Liu,Lin Zhou,Yuli Wu,Yiqi Weng,Yongle Jing
出处
期刊:Circulation Research [Lippincott Williams & Wilkins]
卷期号:136 (2): e1-e19 被引量:23
标识
DOI:10.1161/circresaha.124.325156
摘要

BACKGROUND: Pulmonary hypertension (PH) is associated with endothelial dysfunction. However, the cause of endothelial dysfunction and its impact on PH remain incompletely understood. We aimed to investigate whether the hypoxia-inducible FUNDC1 (FUN14 domain-containing 1)-dependent mitophagy pathway underlies PH pathogenesis and progression. METHODS: We first analyzed FUNDC1 protein levels in lung samples from patients with PH and animal models. Using rodent PH models induced by HySu (hypoxia+SU5416) or chronic hypoxia, we further investigated PH pathogenesis and development in response to global and cell-type-specific Fundc1 loss/gain-of-function. We also investigated the spontaneous PH in mice with inducible loss of endothelial Fundc1 . In addition, histological, metabolic, and transcriptomic studies were performed to delineate molecular mechanisms. Finally, findings were validated in vivo by compound deficiency of HIF2α (hypoxia-inducible factor 2α; Epas1 ) and pharmacological intervention. RESULTS: FUNDC1 protein levels were reduced in PH lung vessels from clinical subjects and animal models. Global Fundc1 deficiency exacerbated PH, while its overexpression was protective. The effect of FUNDC1 was mediated by endothelial cells rather than smooth muscle cells. Further, inducible loss of endothelial Fundc1 in postnatal mice was sufficient to cause PH spontaneously, whereas augmenting endothelial Fundc1 protected against PH before and after the onset of disease. Mechanistically, Fundc1 deficiency impaired basal mitophagy in endothelial cells, leading to the accumulation of dysfunctional mitochondria, metabolic reprogramming toward aerobic glycolysis, pseudohypoxia, and senescence, likely via a mtROS-HIF2α signaling pathway. Subsequently, Fundc1 -deficient endothelial cells increased IGFBP2 (insulin-like growth factor-binding protein 2) secretion that drove pulmonary arterial remodeling to instigate PH. Finally, proof-of-principle in vivo studies showed significant efficacy on PH amelioration by targeting endothelial mitophagy, pseudohypoxia, senescence, or IGFBP2. CONCLUSIONS: Collectively, we show that FUNDC1-mediated basal mitophagy is critical for endothelial homeostasis, and its disruption instigates PH pathogenesis. Given that similar changes in FUNDC1 and IGFBP2 were observed in PH patients, our findings are of significant clinical relevance and provide novel therapeutic strategies for PH.
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