Abstract 521: Parkin Has Non-canonical Roles In Macrophage Lipid Metabolism With Effects On Atherosclerosis

Abstract

Defects in the E3 ubiquitin ligase Parkin are sine qua non of Parkinson and related neurodegenerative diseases. Loss of ubiquitination of distinct targets leads to accumulation of cytotoxic protein aggregates, loss of mitophagy, and defects in lipid metabolism. Given the critical role of these processes in plaque macrophages, we set out to define the role of Parkin in atherosclerosis. Pro-atherogenic LDLR-KO mice were transplanted with bone marrow (BM) from wild type and Parkin-KO mice and lesion formation stimulated by 4 months of Western diet feeding. Mice transplanted with wild type BM developed lipid-rich atherosclerotic plaques in both the aortic root and whole aorta replete with foam cell macrophages. In contrast, mice transplanted with Parkin-deficient BM had significantly reduced plaque burden with concomitant reductions in lipid content, foam cell macrophages, and surrogates of plaque complexity including reduced lesional apoptosis and necrotic core formation. The paradoxical atherogenic role for Parkin including development of lipid-laden foam cell macrophages led us to focus on the impact of Parkin in macrophage lipid handling. We find that Parkin mediates the ubiquitination and stabilization of scavenger receptor CD36, a key lipid transporter in macrophages. Parkin-null macrophages had reduced expression of CD36 and concomitant reductions in oxLDL uptake. Further, Parkin deficiency decreased cholesterol efflux in macrophages exacerbating macrophage lipid storage. These results suggest that the non-canonical functions of Parkin in lipid metabolism outweigh its traditional cytoprotective roles in macrophages and mediate its deleterious effects on atherosclerotic progression.