Different apolipoprotein B breakdown patterns in models of oxidized low density lipoprotein.

Low density lipoprotein (LDL) oxidation is characterized by alterations in biological properties and structure of the lipoprotein particles, including breakdown and modification of apolipoprotein B (apoB). We compared apoB breakdown patterns in different models of minimally and extensively oxidized LDL using Western blotting techniques and several monoclonal and polyclonal antibodies. It was found that copper and endothelial cell-mediated oxidation produced a relatively similar apoB banding pattern with progressive fragmentation of apoB during LDL oxidation, whereas malondialdehyde (MDA)- and hydroxynonenal (HNE) -modified LDL produced an aggregated apoB. It is conceivable that apoB fragments present in copper and endothelial cell oxidized LDL lead to the exposure on the lipoprotein surface of different protein epitopes than in aggregated MDA-LDL and HNE-LDL. Although all models of extensively oxidized LDL led to increased lipid uptake in macrophages, mild degrees of oxidation interfered with LDL uptake in fibroblasts and extensively oxidized LDL impaired degradation of native LDL in fibroblasts. We suggest that in order to improve interpretation and comparison of results, data obtained with various models of oxidized LDL should be compared to the simpliest and most reproducible models of 3 h and 18 h copper-oxidized LDL (apoB breakdown) and MDA-LDL (apoB aggregation) since different models of oxidized LDL have significant differences in apoB breakdown and aggregation patterns which may affect immunological and biological properties of oxidized LDL.