Abstract 398: GLP-1 Receptor Agonist Administered After the Infarct Suppresses miR-33 Expression in Lean Mice Subjected to Permanent Coronary Artery Occlusion

Abstract

MicroRNAs (miRs) regulate post-transcriptional gene expression and protein translation. There is now increasing evidence that miRs regulate mitochondrial turnover. miR-33 regulates cholesterol metabolism and mitochondrial function in cardiac fibroblasts and macrophages and has been implicated in promoting fibrosis. Excessive fibrosis contributes to the development of adverse LV remodeling. Given our recent findings that a glucagon-like peptide-1 receptor agonist (GLP1Ra) [Sigma] induces mitophagy and mitigates post-MI LV remodeling, the purpose of this study was to determine its effects on miR-33 expression after MI. We analyzed miR-33 expression in the viable regions of hearts in lean mice after permanent coronary arterial ligation (PCAL) and subsequent treatment with GLP1Ra administered 2h and 48h after the infarction (total of 2 doses). PCAL was associated with a marked increase in miR-33 that peaked at day 3 (data not shown). In the presence of GLP1Ra, miR-33 expression was suppressed 3 days post-PCAL ( A ). Polysome profiling revealed that miR-33 was decreased in the translating fractions of GLP1Ra-treated mice and increased in the non-translating fraction (80S free ribosomes) compared to vehicle ( B and C ). Decreased association of miR-33 with polysomes in GLP1Ra-treated mice would allow for increased target translation. Given that suppression of miR-33 is implicated in promoting fibrosis, a suppression of this miR by acute GLP1Ra treatment could explain the beneficial effects of this drug in limiting adverse cardiac remodeling.