Lysosomal dysfunction and inflammatory sterol metabolism in pulmonary arterial hypertension

IF 45.8 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Science Pub Date : 2025-01-24 DOI:10.1126/science.adn7277

Lloyd D. Harvey, Mona Alotaibi, Yi-Yin Tai, Ying Tang, Hee-Jung J. Kim, Neil J. Kelly, Wei Sun, Chen-Shan C. Woodcock, Sanya Arshad, Miranda K. Culley, Wadih El Khoury, Rong Xie, Yassmin Al Aaraj, Jingsi Zhao, Neha Hafeez, Rashmi J. Rao, Siyi Jiang, Vinny Negi, Anna Kirillova, Dror Perk, Annie M. Watson, Claudette M. St. Croix, Donna B. Stolz, Ji Young Lee, Mary Hongying Cheng, Manling Zhang, Samuel Detmer, Edward Guzman, Rajith S. Manan, Rajan Saggar, Kathleen J. Haley, Aaron B. Waxman, Satoshi Okawa, Tae-Hwi Schwantes-An, Michael W. Pauciulo, Bing Wang, Amy Webb, Caroline Chauvet, Daniel G. Anderson, William C. Nichols, Ankit A. Desai, Robert Lafyatis, S. Mehdi Nouraie, Haodi Wu, Jeffrey G. McDonald, Susan Cheng, Ivet Bahar, Thomas Bertero, Raymond L. Benza, Mohit Jain, Stephen Y. Chan

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Abstract

Vascular inflammation regulates endothelial pathophenotypes, particularly in pulmonary arterial hypertension (PAH). Dysregulated lysosomal activity and cholesterol metabolism activate pathogenic inflammation, but their relevance to PAH is unclear. Nuclear receptor coactivator 7 (NCOA7) deficiency in endothelium produced an oxysterol and bile acid signature through lysosomal dysregulation, promoting endothelial pathophenotypes. This oxysterol signature overlapped with a plasma metabolite signature associated with human PAH mortality. Mice deficient for endothelial Ncoa7 or exposed to an inflammatory bile acid developed worsened PAH. Genetic predisposition to NCOA7 deficiency was driven by single-nucleotide polymorphism rs11154337, which alters endothelial immunoactivation and is associated with human PAH mortality. An NCOA7-activating agent reversed endothelial immunoactivation and rodent PAH. Thus, we established a genetic and metabolic paradigm that links lysosomal biology and oxysterol processes to endothelial inflammation and PAH.

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肺动脉高压中溶酶体功能障碍和炎性固醇代谢

血管炎症调节内皮病理表型，尤其是肺动脉高压（PAH）。失调的溶酶体活性和胆固醇代谢可激活致病性炎症，但它们与多环芳烃的相关性尚不清楚。内皮细胞核受体共激活因子7 （NCOA7）缺乏通过溶酶体失调产生氧甾醇和胆汁酸信号，促进内皮病理表型。这种氧甾醇特征与与人类多环芳烃死亡率相关的血浆代谢物特征重叠。内皮细胞Ncoa7缺乏或暴露于炎性胆汁酸的小鼠，PAH恶化。NCOA7缺乏的遗传易感性是由单核苷酸多态性rs11154337驱动的，该多态性改变内皮免疫激活并与人类PAH死亡率相关。一种ncoa7激活剂逆转内皮免疫激活和啮齿动物多环芳烃。因此，我们建立了一种遗传和代谢模式，将溶酶体生物学和氧甾醇过程与内皮炎症和多环ah联系起来。

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Science 综合性期刊-综合性期刊

CiteScore

61.10

自引率

0.90%

发文量

审稿时长

2.1 months

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