Metabolic Deregulation in Pulmonary Hypertension

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Abstract

The high morbidity and mortality rate of the pulmonary arterial hypertension (PAH) is partially explained by the metabolic deregulation associated with the disease. The present study identified statistically significant increase of the glucose transporter solute carrier family 2 (Slc2a1), beta nerve growth factor (Ngf), and nuclear factor erythroid derived 2, like 2 (Nfe2l2) on three standard PAH rat models and their healthy counterpart. PAH was induced by subjecting the animals to hypoxia (HO group) or by injecting them with monocrotaline in either normal (CM) or hypoxic (HM) atmospheric conditions. The Western blot and double immunofluorescent experiments were complemented with the gene expression profiling of the animal lungs analyzed from the perspective of the Genomic Fabric Paradigm. We found substantial remodeling of the genomic fabrics of the citrate cycle, pyruvate metabolism, glycolysis/gluconeogenesis and fructose and manose pathways. According to the novel transcriptomic distance criterion, the most comprehensive measure of the transcriptomic alteration, glycolysis/gluconeogenesis was the most affected functional pathway in all three PAH models. PAH decoupled the coordinated expression of many metabolic genes and replaced Pmm2 with Pmm1 in the center of the fructose and mannose metabolism. Our data show that metabolic dysregulation is a major pathogenic factor of the PAH.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00