Low density lipoprotein retention by aortic tissue: Contribution of extracellular matrix

Abstract

We compared in vitro heparin binding activity and in vivo intravascular clearance and aortic uptake in rabbits of native, reductively methylated and heparin-complexed low density lipoprotein (LDL) in order to explore the extracellular matrix binding vs cellular metabolism of LDL. Reductively methylated LDL formed soluble and insoluble complexes with heparin which was comparable to native LDL. Reductive methylation of LDL produced only 30% reduction in aortic uptake vs 60% reduction in plasma clearance, reflecting the relatively smaller contribution of receptor-mediated pathway in aortic tissue vs whole animal. The intravascular clearance of native and heparin-complexed LDL remained essentially the same, indicating similarities in cellular metabolism of LDL in both cases. But the aortic uptake of the heparin bound LDL was 30% less than the native LDL, suggesting an inhibition in binding of heparin-complexed LDL to tissue proteoglycans. Saline extraction accounted for only part (53–66%) of the LDL preparations that were retained by the tissue while subsequent collagenase and elastase treatments extracted 3–5% and 17–22% of the materials respectively. These results favor the contribution of arterial extracellular matrix components to the retention of LDL.