Abstract

Abstract Background Clinical research has demonstrated that glucagon-like peptide-1 receptor (GLP1R) agonists (GLP1RA) can decrease the occurrence of major cardiovascular events in diabetic patients, regardless of their glycemic control. However, a significant challenge in understanding the positive effects of GLP1RA has been the lack of knowledge regarding the specific cellular types that express GLP1R. Despite the established cardiovascular benefits of GLP1RA, previous studies have been unable to confirm the expression of GLP1R in the heart. Aim The study aimed to investigate the expression and function of GLP1R in heart tissue. Methods We collected human cardiac tissue samples from 30 patients who underwent left ventricle (LV) biopsies (n=21) or right atrial (RA) appendage closure (n=9) at a university hospital. Gene expression levels were assessed using RT-qPCR, protein levels by Western blot analysis, in situ tissue localization of proteins by immunofluorescence (IF) staining, and the level of oxidative stress using dihydroethidium. Results LV biopsies and RA appendages showed a substantial heterogeneity in GLP1R mRNA levels. GLP1R mRNA levels exhibited a positive correlation with IL1B, IL6, TNFα, CCL2, CD68, ACE1, AT1R, and VCAM1 mRNA levels, but a negative correlation with NOS3 mRNA levels. High GLP1R expression in both RA appendages and LV biopsies was associated with increased oxidative stress levels, which were mitigated by the antioxidant N-acetylcysteine (NAC), NADPH oxidase inhibitor (VAS-2870), ACE inhibitor (perindoprilat), AT1R antagonist (losartan), TNF-α receptor neutralizing antibody (infliximab) and by GLP1R agonists (liraglutide and semaglutide) with inhibitory effects amounting to about 50-60 %. Exendin, a GLP1R antagonist reversed the effect of liraglutide and semaglutide which accounted for a receptor-mediated antioxidant effect. H-89, a PKA inhibitor equally reversed liraglutide and semaglutide effect on ROS generation suggesting a canonical GLP1R mediated effect involving the AMPK pathway. Conclusion These findings indicate that human cardiac GLP1R expression levels are correlated to low-grade inflammation and endothelial dysfunction. Increased expression levels of GLP1R were associated with higher levels of oxidative stress sensitive to GLP1RA in a canonical GLP1R AMPK-mediated manner. Therefore, the cardiovascular beneficial effects of GLP1RA might be attributable to their antioxidant and anti-inflammatory properties, specifically within the cardiac system.

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