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雄性大鼠中,单氰胺诱导的肺动脉高压导致右心室衰竭的蛋白质组学和转录组学综合特征。

An integrated proteomic and transcriptomic signature of the failing right ventricle in monocrotaline induced pulmonary arterial hypertension in male rats.

作者信息

Hindmarch Charles Colin Thomas, Tian Lian, Xiong Ping Yu, Potus Francois, Bentley Rachel Emily Teresa, Al-Qazazi Ruaa, Prins Kurt W, Archer Stephen L

机构信息

QCPU, Queen's Cardiopulmonary Unit, Translational Institute of Medicine (TIME), Department of Medicine, Queen's University, Kingston, ON, Canada.

Department of Medicine, Queen's University, Kingston, ON, Canada.

出版信息

Front Physiol. 2022 Nov 1;13:966454. doi: 10.3389/fphys.2022.966454. eCollection 2022.

DOI:10.3389/fphys.2022.966454
PMID:36388115
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9664166/
Abstract

Pulmonary arterial hypertension (PAH) is an obstructive pulmonary vasculopathy that results in death from right ventricular failure (RVF). There is limited understanding of the molecular mechanisms of RVF in PAH. In a PAH-RVF model induced by injection of adult male rats with monocrotaline (MCT; 60 mg/kg), we performed mass spectrometry to identify proteins that change in the RV as a consequence of PAH induced RVF. Bioinformatic analysis was used to integrate our previously published RNA sequencing data from an independent cohort of PAH rats. We identified 1,277 differentially regulated proteins in the RV of MCT rats compared to controls. Integration of MCT RV transcriptome and proteome data sets identified 410 targets that are concordantly regulated at the mRNA and protein levels. Functional analysis of these data revealed enriched functions, including mitochondrial metabolism, cellular respiration, and purine metabolism. We also prioritized 15 highly enriched protein:transcript pairs and confirmed their biological plausibility as contributors to RVF. We demonstrated an overlap of these differentially expressed pairs with data published by independent investigators using multiple PAH models, including the male SU5416-hypoxia model and several male rat strains. Multiomic integration provides a novel view of the molecular phenotype of RVF in PAH which includes dysregulation of pathways involving purine metabolism, mitochondrial function, inflammation, and fibrosis.

摘要

肺动脉高压(PAH)是一种阻塞性肺血管病,可导致右心室衰竭(RVF)死亡。目前对PAH中RVF的分子机制了解有限。在通过给成年雄性大鼠注射野百合碱(MCT;60mg/kg)诱导的PAH-RVF模型中,我们进行了质谱分析,以鉴定因PAH诱导的RVF而在右心室中发生变化的蛋白质。生物信息学分析用于整合我们先前发表的来自独立PAH大鼠队列的RNA测序数据。与对照组相比,我们在MCT大鼠的右心室中鉴定出1277种差异调节蛋白。MCT右心室转录组和蛋白质组数据集的整合确定了410个在mRNA和蛋白质水平上受到一致调节的靶点。对这些数据的功能分析揭示了丰富的功能,包括线粒体代谢、细胞呼吸和嘌呤代谢。我们还对15个高度富集的蛋白质:转录本对进行了优先排序,并证实了它们作为RVF促成因素的生物学合理性。我们证明了这些差异表达对与使用多种PAH模型(包括雄性SU5416-低氧模型和几种雄性大鼠品系)的独立研究人员发表的数据存在重叠。多组学整合为PAH中RVF的分子表型提供了新的视角,其中包括涉及嘌呤代谢、线粒体功能、炎症和纤维化的途径失调。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5ead/9664166/4f3ace8d247f/fphys-13-966454-g007.jpg
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