Galectin-3 Mediates Vascular Dysfunction in Obesity by Regulating NADPH Oxidase 1

Author:

Padgett Caleb A.ORCID,Bátori Róbert K.,Speese Andrew C.,Rosewater Cody L.,Bush Weston B.,Derella Cassandra C.ORCID,Haigh Stephen B.,Sellers Hunter G.ORCID,Corley Zachary L.ORCID,West Madison A.ORCID,Mintz James D.,Ange Brittany B.,Harris Ryan A.ORCID,Brands Michael W.ORCID,Fulton David J. R.ORCID,Stepp David W.

Abstract

AbstractRationaleObesity increases the risk of cardiovascular disease (CVD) through mechanisms that remain incompletely defined. Metabolic dysfunction, especially hyperglycemia, is thought to be a major contributor but how glucose impacts vascular function is unclear. Galectin-3 (GAL3) is a sugar binding lectin upregulated by hyperglycemia but its role as a causative mechanism of CVD remains poorly understood.ObjectiveTo determine the role of GAL3 in regulating microvascular endothelial vasodilation in obesity.Methods and ResultsGAL3 was markedly increased in the plasma of overweight and obese patients, as well as in the microvascular endothelium of diabetic patients. To investigate a role for GAL3 in CVD, mice deficient in GAL3 were bred with obesedb/dbmice to generate lean, lean GAL3 knockout (KO), obese, and obese GAL3 KO genotypes. GAL3 KO did not alter body mass, adiposity, glycemia or lipidemia, but normalized elevated markers of reactive oxygen species (TBARS) in plasma. Obese mice exhibited profound endothelial dysfunction and hypertension, both of which were rescued by GAL3 deletion. Isolated microvascular endothelial cells (EC) from obese mice had increased NOX1 expression, which we have previously shown to contribute to increased oxidative stress and endothelial dysfunction, and NOX1 levels were normalized in EC from obese mice lacking GAL3. EC-specific GAL3 knockout mice made obese using a novel AAV-approach recapitulated whole-body knockout studies, confirming that endothelial GAL3 drives obesity-induced NOX1 overexpression and endothelial dysfunction. Improved metabolism through increased muscle mass, enhanced insulin signaling, or metformin treatment, decreased microvascular GAL3 and NOX1. GAL3 increased NOX1 promoter activity and this was dependent on GAL3 oligomerization.ConclusionsDeletion of GAL3 normalizes microvascular endothelial function in obesedb/dbmice, likely through a NOX1-mediated mechanism. Pathological levels of GAL3 and in turn, NOX1, are amenable to improvements in metabolic status, presenting a potential therapeutic target to ameliorate pathological cardiovascular consequences of obesity.Figure 8.Visual abstract

Publisher

Cold Spring Harbor Laboratory

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