Abstract
Pulmonary arterial endothelial cells (PAEC) are mechanistically linked to origins of pulmonary arterial hypertension (PAH). Here, global proteomics and phosphoproteomics of PAEC from PAH (n = 4) and healthy lungs (n = 5) were performed using LC-MS/MS to confirm known pathways and identify new areas of investigation in PAH. Among PAH and control cells, 170 proteins and 240 phosphopeptides were differentially expressed; of these, 45 proteins and 18 phosphopeptides were located in the mitochondria. Pathologic pathways were identified with integrative bioinformatics and human protein-protein interactome network analyses, then confirmed with targeted proteomics in PAH PAEC and non-targeted metabolomics and targeted high-performance liquid chromatography of metabolites in plasma from PAH patients (n = 30) and healthy controls (n = 12). Dysregulated pathways in PAH include accelerated one carbon metabolism, abnormal tricarboxylic acid (TCA) cycle flux and glutamate metabolism, dysfunctional arginine and nitric oxide pathways, and increased oxidative stress. Functional studies in cells confirmed abnormalities in glucose metabolism, mitochondrial oxygen consumption, and production of reactive oxygen species in PAH. Altogether, the findings indicate that PAH is typified by changes in metabolic pathways that are primarily found in mitochondria.
Highlights
Pulmonary arterial endothelial cells (PAEC) were derived from 15 individuals with Pulmonary arterial hypertension (PAH) undergoing lung transplantation [age 33 ± 4 years; race, 11 white, 1 Asian, and 3 unknown; gender, 5 men, 9 women, and 1 unknown] and from donor lungs not used for transplantation from 14 individuals [age 43 ± 4 years; race, 9 white and 5 unknown; gender, 4 men, 9 women, and 1 unknown]
PAH was clinically confirmed by right heart catheterization [pulmonary arterial pressure (PAP) mm Hg, 62 ± 3; pulmonary vascular resistance (PVR) Wood units, 10 ± 1] and by pathologic review of explanted lungs
Consistent with the high purity of PAEC cultures, proteins expressed in smooth muscle or fibroblasts [SM22α, myosin heavy chain and fibroblast-specific protein 1 (FSP1)] were undetectable in PAH or control endothelial cells
Summary
To identify protein expression and phosphorylation in PAH, primary PAEC derived from PAH lungs (n = 4) and control lungs (n = 5) were analyzed (Fig. 1). 22 proteins among 170 differentially expressed proteins along with actin and tubulin were picked to perform targeted analyses in 5 PAH PAEC from 5 different patients compared with control cells.
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