Keidar S, Brook G J, Rosenblat M, Fuhrman B, Dankner G, Aviram M
Lipid Research Laboratory, Rambam Medical Center, Haifa, Israel.
Arterioscler Thromb. 1992 Apr;12(4):484-93. doi: 10.1161/01.atv.12.4.484.
Macrophages, unlike most other cells, possess both low density lipoprotein (LDL) and scavenger receptors. The scavenger receptor has been shown to mediate the uptake of oxidized LDL (ox-LDL), which ultimately leads to cholesterol loading of the macrophages. The present study was undertaken to define epitopes on ox-LDL that are important for lipoprotein binding to macrophages and to ascertain whether ox-LDL can bind to the LDL receptor. Monoclonal antibodies (Mabs) directed against several epitopes along the apolipoprotein B-100 (apo B-100) molecule were used. LDL (300 micrograms/ml) was oxidized by incubation with 10 microM CuSO4 for 24 hours. Ox-LDL, as opposed to acetylated LDL (ac-LDL), reacted with Mabs directed against the LDL receptor-binding domains (Mabs B1B6 and B1B3). Similarly, uptake of ox-LDL but not ac-LDL by a murine J774 macrophage-like cell line was inhibited by as much as 40% after using Mab B1B6. The anti-LDL receptor antibody IgG-C7 also inhibited 125I-ox-LDL uptake by macrophages by 60%. Chromatography on heparin-Sepharose columns of LDL that was partially oxidized for only 3 hours resulted in two fractions: an unbound fraction with characteristics similar to those of ox-LDL and a bound fraction similar to native LDL. Macrophage degradation of the unbound fraction was inhibited by Mab IgG-C7 and Mab B1B6, which are directed toward the LDL receptor and the LDL receptor-binding domains on apo B-100, respectively. When incubated with three types of macrophages, J774 macrophage cells, mouse peritoneal macrophages, and human monocyte-derived macrophages, excess amounts of unlabeled ox-LDL, like native LDL but unlike ac-LDL, substantially suppressed the uptake and degradation of 125I-labeled LDL. Similar studies with fibroblasts, however, revealed that unlabeled LDL but not unlabeled ox-LDL or ac-LDL competed with 125I-LDL for cellular uptake and degradation. Mab directed against epitopes on the amino terminus domain of apo B-100 (C14) demonstrates a similar immunoreactivity with ox-LDL and native LDL but a much lower reactivity with ac-LDL. Mab C14 inhibited macrophage degradation of ox-LDL by 34% but had no inhibitory effect on the uptake of native LDL or ac-LDL. Thus, the ac-LDL and LDL receptor-binding domains as well as a unique epitope on the amino terminus of apo B-100 may be involved in macrophage binding of ox-LDL.(ABSTRACT TRUNCATED AT 400 WORDS)
与大多数其他细胞不同,巨噬细胞同时拥有低密度脂蛋白(LDL)受体和清道夫受体。已表明清道夫受体可介导氧化型LDL(ox-LDL)的摄取,最终导致巨噬细胞内胆固醇蓄积。本研究旨在确定ox-LDL上对脂蛋白与巨噬细胞结合很重要的表位,并确定ox-LDL是否能与LDL受体结合。使用了针对载脂蛋白B-100(apo B-100)分子上几个表位的单克隆抗体(Mab)。将LDL(300微克/毫升)与10微摩尔硫酸铜孵育24小时进行氧化。与乙酰化LDL(ac-LDL)不同,ox-LDL与针对LDL受体结合结构域的Mab(Mab B1B6和B1B3)发生反应。同样,在用Mab B1B6处理后,鼠J774巨噬细胞样细胞系对ox-LDL的摄取而非ac-LDL的摄取被抑制了多达40%。抗LDL受体抗体IgG-C7也使巨噬细胞对125I-ox-LDL的摄取抑制了60%。仅部分氧化3小时的LDL在肝素-琼脂糖柱上进行层析,得到两个组分:一个未结合组分,其特性类似于ox-LDL;一个结合组分,类似于天然LDL。针对LDL受体的Mab IgG-C7和针对apo B-100上LDL受体结合结构域的Mab B1B6分别抑制了巨噬细胞对未结合组分的降解。当与三种类型的巨噬细胞(J774巨噬细胞、小鼠腹腔巨噬细胞和人单核细胞衍生巨噬细胞)一起孵育时,过量的未标记ox-LDL,与天然LDL一样但与ac-LDL不同,显著抑制了125I标记LDL的摄取和降解。然而,对成纤维细胞进行的类似研究表明,未标记的LDL而非未标记的ox-LDL或ac-LDL与125I-LDL竞争细胞摄取和降解。针对apo B-100氨基末端结构域表位的Mab(C14)对ox-LDL和天然LDL表现出相似的免疫反应性,但对ac-LDL的反应性低得多。Mab C14抑制巨噬细胞对ox-LDL的降解达34%,但对天然LDL或ac-LDL的摄取没有抑制作用。因此,ac-LDL和LDL受体结合结构域以及apo B-100氨基末端的一个独特表位可能参与了巨噬细胞对ox-LDL的结合。(摘要截短为400字)
