Pulmonary Arterial Hypertension Induces a Metabolic and Inflammatory Hepatopathy

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Abstract

BACKGROUND. Right ventricular failure (RVF) is a major determinant of mortality in pulmonary arterial hypertension (PAH), and hepatic dysfunction predicts adverse outcomes. However, the cell-specific effects of PAH/RVF on the human liver remain poorly defined. METHODS. We performed single-nucleus RNA sequencing of autopsy-derived liver tissue from 5 PAH patients and 4 non-PAH controls and compared these findings with publicly available single-nucleus RNA sequencing datasets from non-alcoholic steatohepatitis (NASH) and Fontan-associated liver disease (FALD). Transcriptomic analyses were integrated with histologic assessment, mitochondrial-enriched proteomics, and correlated with clinical markers of PAH/RVF severity. RESULTS. PAH livers showed cell-specific metabolic, inflammatory, and fibrotic remodeling distinct from NASH and FALD. PAH hepatocytes exhibited a hypoxia-adapted, Warburg-like metabolic phenotype with reduced fatty acid metabolism, gluconeogenesis, cytochrome P450 activity, and ketone metabolism. PAH endothelial cells demonstrated increased glycolytic pathway activity and disrupted adhesion/barrier signaling. PAH hepatic stellate cells displayed HIF-1 and PI3K-Akt pathway activation, and increased IL6 expression, which resulted in central vein fibrotic remodeling. PAH macrophages showed complement activation with reduced JAK-STAT signaling. Finally, HSC HIF-1 activity correlated with clinical markers of PAH/RVF severity. CONCLUSION. PAH induces a distinct metabolic and inflammatory hepatopathy characterized by hepatocyte metabolic reprogramming, HSC activation, and macrophage complement signaling. These findings support PAH-associated hepatopathy as a disease-specific end-organ phenotype linked to RVF severity.

Authors

Madelyn J. Blake, Sally E. Prins, Jeffrey C. Blake, Lynn M. Hartweck, Jenna B. Mendelson, Steeve Provencher, Sandra Breuils-Bonnet, Sebastien Bonnet, Kurt W. Prins