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肺部综合多组学研究揭示了天冬氨酸聚糖在肺动脉高压中的保护作用。

Integrative Multiomics in the Lung Reveals a Protective Role of Asporin in Pulmonary Arterial Hypertension.

机构信息

Division of Pulmonary and Critical Care Medicine (J.H., B.W., A.B., L.L.L., A.V., R.S., R.C.), University of California, Los Angeles.

Departments of Anesthesiology & Perioperative Medicine (L.M., W.S., G.R., L.A., M.L., S.U., M. Eghbali), University of California, Los Angeles.

出版信息

Circulation. 2024 Oct 15;150(16):1268-1287. doi: 10.1161/CIRCULATIONAHA.124.069864. Epub 2024 Aug 21.

DOI:10.1161/CIRCULATIONAHA.124.069864
PMID:39167456
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11473243/
Abstract

BACKGROUND

Integrative multiomics can elucidate pulmonary arterial hypertension (PAH) pathobiology, but procuring human PAH lung samples is rare.

METHODS

We leveraged transcriptomic profiling and deep phenotyping of the largest multicenter PAH lung biobank to date (96 disease and 52 control) by integration with clinicopathologic data, genome-wide association studies, Bayesian regulatory networks, single-cell transcriptomics, and pharmacotranscriptomics.

RESULTS

We identified 2 potentially protective gene network modules associated with vascular cells, and we validated , coding for asporin, as a key hub gene that is upregulated as a compensatory response to counteract PAH. We found that asporin is upregulated in lungs and plasma of multiple independent PAH cohorts and correlates with reduced PAH severity. We show that asporin inhibits proliferation and transforming growth factor-β/phosphorylated SMAD2/3 signaling in pulmonary artery smooth muscle cells from PAH lungs. We demonstrate in Sugen-hypoxia rats that knockdown exacerbated PAH and recombinant asporin attenuated PAH.

CONCLUSIONS

Our integrative systems biology approach to dissect the PAH lung transcriptome uncovered asporin as a novel protective target with therapeutic potential in PAH.

摘要

背景

综合多组学可以阐明肺动脉高压(PAH)的病理生物学,但获取人类 PAH 肺样本非常罕见。

方法

我们利用迄今为止最大的多中心 PAH 肺生物库的转录组分析和深度表型分析(96 例疾病和 52 例对照),并结合临床病理数据、全基因组关联研究、贝叶斯调控网络、单细胞转录组学和药物转录组学进行整合。

结果

我们确定了 2 个与血管细胞相关的潜在保护基因网络模块,并验证了编码 asporin 的基因是一个关键的枢纽基因,它作为一种代偿性反应而上调,以抵消 PAH。我们发现,在多个独立的 PAH 队列的肺和血浆中,asporin 上调,并与 PAH 严重程度降低相关。我们表明,asporin 抑制肺动脉平滑肌细胞中增殖和转化生长因子-β/磷酸化 SMAD2/3 信号。我们在 Sugen-低氧大鼠中证明, 敲低加剧了 PAH,而重组 asporin 减轻了 PAH。

结论

我们采用综合系统生物学方法剖析 PAH 肺转录组,发现 asporin 是一种新的保护靶标,具有治疗 PAH 的潜在作用。

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