Bergeron N, Kotite L, Verges M, Blanche P, Hamilton R L, Krauss R M, Bensadoun A, Havel R J
Cardiovascular Research Institute and Department of Anatomy, University of California, San Francisco, CA 94143, USA.
Proc Natl Acad Sci U S A. 1998 Dec 22;95(26):15647-52. doi: 10.1073/pnas.95.26.15647.
Remnants of triglyceride-rich lipoproteins containing apolipoprotein (apo) B-48 accumulate in apo E-deficient mice, causing pronounced hypercholesterolemia. Mice doubly deficient in apo E and hepatic lipase have more pronounced hypercholesterolemia, even though remnants do not accumulate appreciably in mice deficient in hepatic lipase alone. Here we show that the doubly deficient mice manifest a unique lamellar hyperlipoproteinemia, characterized by vesicular particles 600 A-1,300 A in diameter. As seen by negative-staining electron microscopy, these lipoproteins also contain an electron-lucent region adjacent to the vesicle wall, similar to the core of typical lipoproteins. Correlative chemical analysis indicates that the vesicle wall is composed of a 1:1 molar mixture of cholesterol and phospholipids, whereas the electron-lucent region appears to be composed of cholesteryl esters (about 12% of the particle mass). Like the spherical lipoproteins of doubly deficient mice, the vesicular particles contain apo B-48, but they are particularly rich in apo A-IV. We propose that cholesteryl esters are removed from spherical lipoproteins of these mice by scavenger receptor B1, leaving behind polar lipid-rich particles that fuse to form vesicular lipoproteins. Hepatic lipase may prevent such vesicular lipoproteins from accumulating in apo E-deficient mice by hydrolyzing phosphatidyl choline as scavenger receptor B1 removes the cholesteryl esters and by gradual endocytosis of lipoproteins bound to hepatic lipase on the surface of hepatocytes.
含有载脂蛋白(apo)B - 48的富含甘油三酯的脂蛋白残粒在载脂蛋白E缺乏的小鼠体内蓄积,导致明显的高胆固醇血症。载脂蛋白E和肝脂酶双缺乏的小鼠高胆固醇血症更为明显,尽管在仅缺乏肝脂酶的小鼠体内残粒并无明显蓄积。我们在此表明,双缺乏小鼠表现出一种独特的层状高脂血症,其特征为直径600埃至1300埃的囊泡状颗粒。通过负染色电子显微镜观察,这些脂蛋白在囊泡壁附近还含有一个电子透亮区,类似于典型脂蛋白的核心。相关化学分析表明,囊泡壁由胆固醇和磷脂按1:1摩尔比混合组成,而电子透亮区似乎由胆固醇酯组成(约占颗粒质量的12%)。与双缺乏小鼠的球形脂蛋白一样,囊泡状颗粒含有apo B - 48,但它们特别富含apo A - IV。我们提出,胆固醇酯通过清道夫受体B1从这些小鼠的球形脂蛋白中被清除,留下富含极性脂质的颗粒,这些颗粒融合形成囊泡状脂蛋白。肝脂酶可能通过在清道夫受体B1清除胆固醇酯时水解磷脂酰胆碱以及通过肝细胞表面与肝脂酶结合的脂蛋白的逐步内吞作用,防止此类囊泡状脂蛋白在载脂蛋白E缺乏的小鼠体内蓄积。