Cardiovascular disease (CVD) is the leading cause of mortality worldwide. Atherosclerosis, the main cause of CVD, results from the buildup of cholesterol-filled plaques in artery walls. Accumulation of cholesterol from oxidized low-density lipoprotein (oxLDL) leads to the formation of macrophage foam cells, a process that is mediated by CD36, a scavenger receptor that serves as the primary receptor for oxLDL. The structure of full-length CD36 has not been resolved, nor have the details or role of quaternary structure been fully elucidated. Studies have shown that CD36 has the ability to form homodimers and multimers in some cell types. However, the role of CD36 oligomerization in oxLDL uptake remains unknown. The goal of this study is to investigate CD36 oligomerization in macrophages, a cell type important in the initiation of atherosclerosis. We hypothesize that CD36 oligomerizes in macrophages to facilitate oxLDL uptake. To begin testing this hypothesis, we harvested elicited peritoneal macrophages from wild-type (WT) or CD36 knockout (CD36-KO) mice. We performed crosslinking experiments in which macrophages were incubated with BS3, a membrane-impermeable crosslinker, to stabilize CD36 oligomers. When crosslinked samples were separated by SDS-PAGE electrophoresis, we observed a decrease in monomeric species with increasing crosslinker concentration, however, BS3 also induced aggregation of CD36 rather than oligomer formation. We next turned to Native-PAGE electrophoresis, which lacks detergent entirely, to identify oligomeric species within macrophages, as well as PFO-PAGE electrophoresis, which contains a milder detergent than SDS. Both methods provided evidence of higher-order complexes in WT, but not in CD36-KO macrophages. To further validate our studies, we purified human full-length CD36 using an Sf9 insect cell system and demonstrated that pure CD36 forms homo-oligomers by PFO-PAGE. Together, these experiments provide strong evidence for CD36 oligomerization. Future studies will focus on correlating CD36 oligomerization with its functions in oxLDL binding and uptake. Understanding the higher-order structure of CD36 and how it impacts function will allow us to target CD36 to prevent foam cell formation and atherosclerosis.
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