PPARĪ³ is a gatekeeper for extracellular matrix and vascular cell homeostasis: beneficial role in pulmonary hypertension and renal/cardiac/pulmonary fibrosis.
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PURPOSE OF REVIEW: Pulmonary arterial hypertension (PAH) is characterized by pulmonary arterial endothelial cell (PAEC) dysfunction and apoptosis, pulmonary arterial smooth muscle cell (PASMC) proliferation, inflammation, vasoconstriction, and metabolic disturbances that include disrupted bone morphogenetic protein receptor (BMPR2)-peroxisome proliferator-activated receptor gamma (PPARĪ³) axis and DNA damage. Activation of PPARĪ³ improves many of these mechanisms, although erroneous reports on potential adverse effects of thiazolidinedione (TZD)-class PPARĪ³ agonists reduced their clinical use in the past decade. Here, we review recent findings in heart, lung, and kidney research related to the pathobiology of vascular remodeling and tissue fibrosis, and also potential therapeutic effects of the PPARĪ³ agonist pioglitazone. RECENT FINDINGS: Independent of its metabolic effects (improved insulin sensitivity and fatty acid handling), PPARĪ³ activation rescues BMPR2 dysfunction, inhibits TGFĪ²/Smad3/CTGF and TGFĪ²/pSTAT3/pFoxO1 pathways, and induces the PPARĪ³/apoE axis, inhibiting vascular remodeling. PPARĪ³ activation dampens mtDNA damage via PPARĪ³/UBR5/ATM pathway, improves function of endothelial progenitor cells (EPCs), and decrease renal fibrosis by repressing TGFĪ²/pSTAT3 and TGFĪ²/EGR1. SUMMARY: Pharmacological PPARĪ³ activation improves many hallmarks of PAH, including dysfunction of BMPR2-PPARĪ³ axis, PAEC, PASMC, EPC, mitochondria/metabolism, and inflammation. Recent randomized controlled trials, including IRIS (Insulin Resistance Intervention After Stroke Trial), emphasize the beneficial effects of PPARĪ³ agonists in PAH patients, leading to recent revival for clinical use.
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1473-6543