Oxidized LDL-dependent pathway as new pathogenic trigger in Arrhythmogenic Cardiomyopathy.
Ontology highlight
ABSTRACT: Arrhythmogenic Cardiomyopathy (ACM) is hallmarked by ventricular fibro-adipogenic alterations, contributing to cardiac dysfunctions and arrhythmias. Although genetically-determined (e.g. PKP2 mutations), ACM phenotypes are highly variable. More data on phenotype modulators, clinical prognosticators, and etiological therapies are awaited. We hypothesized that oxidized low-density-lipoproteins (oxLDL)-dependent activation of PPAR?, a recognized effector of ACM adipogenesis, contribute to disease pathogenesis. ACM patients showing high plasma concentration of oxLDL display severe clinical phenotypes in terms of fat infiltration, ventricular dysfunction, and major arrhythmic event risk. In ACM patient-derived cardiac cells, we demonstrated that oxLDL are major cofactors of adipogenesis. Mechanistically, the increased lipid accumulation is mediated by oxLDL cell internalization through CD36, ultimately resulting in PPAR? upregulation. By boosting oxLDL in a Pkp2 heterozygous knock-out mice through high-fat-diet feeding, we confirmed in vivo the oxidized lipids dependency of cardiac adipogenesis and right ventricle systolic impairment, which are counteracted by atorvastatin treatment. The modulatory role of oxidized lipids on ACM adipogenesis, demonstrated at cellular, mouse, and patient levels, represents a novel risk stratification tool and a target for ACM pharmacological strategies.
SUBMITTER: Dr. Elena Sommariva
PROVIDER: S-SCDT-EMM-2021-14365 | biostudies-other |
REPOSITORIES: biostudies-other
ACCESS DATA