Mahley R W, Weisgraber K H, Innerarity T, Brewer H B
Biochemistry. 1976 May 4;15(9):1928-33. doi: 10.1021/bi00654a021.
Patas monkey lipoproteins were fractionated into four distinct classes by a combination of ultracentrifugation and Geon-Pevikon block electrophoresis and characterized with respect to their chemical and physical properties. Very low density lipoproteins (VLDL) were isolated at d is less than 1.006, were triglyceride rich, and were in the size range 300-850 A. They were similar in apoprotein content to the VLDL of man, dog, and swine. The Patas monkey low density lipoprotein referred to as LDL-I had beta mobility and a size which ranged from 190 to 240 A in diameter. Their chemical composition and apoprotein content were similar to those of human LDL. A second low density lipoprotein referred to as LDL-II occurred at a density of 1.05-1.085, ranged in size from 190 to 300 A, and contained the B, arginine-rich, and A-I apoproteins. Differences between LDL-I and LDL-II included a higher sialic acid content for LDL-II and lipid to protein ratios of 3.7 and 3.0 for LDL-I and LDL-II, respectively. In addition, the LDL-II, but not LDL-I, reacted immunochemically with antisera prepared to human Lp(a). The physical, chemical, and immunochemical properties indicated that monkey LDL-II were equivalent to the human Lp(a). Patas monkey HDL, equivalent to human HDL, were protein and phospholipid rich and ranged in size from 70 to 100 A in diameter. The two major HDL apoproteins, A-I and A-II, were isolated from apo-HDL by column chromatography. The amino-terminal sequence of Patas A-I showed striking homology to that reported for human, dog, and swing A-I. The amino acid composition of monkey A-II was very similar to that of human A-II; however, unlike human A-II, the monkey apoprotein was shown to exist as a monomer similar to that reported for Rhesus monkey A-II. The similarities between the plasma lipoproteins of the monkey and of man suggest that the Patas monkey would serve as a suitable model for metabolic studies.
通过超速离心和Geon-Pevikon块电泳相结合的方法,将叟猴脂蛋白分为四个不同类别,并对其化学和物理性质进行了表征。极低密度脂蛋白(VLDL)在密度小于1.006时分离得到,富含甘油三酯,大小范围为300 - 850埃。它们的载脂蛋白含量与人类、狗和猪的VLDL相似。叟猴低密度脂蛋白LDL-I具有β迁移率,直径范围为190至240埃。其化学组成和载脂蛋白含量与人类LDL相似。另一种低密度脂蛋白LDL-II的密度为1.05 - 1.085,大小范围为190至300埃,含有B、富含精氨酸的载脂蛋白和A-I载脂蛋白。LDL-I和LDL-II之间的差异包括LDL-II的唾液酸含量较高,LDL-I和LDL-II的脂蛋白比分别为3.7和3.0。此外,LDL-II而非LDL-I与针对人类Lp(a)制备的抗血清发生免疫化学反应。物理、化学和免疫化学性质表明,猴LDL-II等同于人类Lp(a)。与人类HDL相当的叟猴HDL富含蛋白质和磷脂,直径范围为70至100埃。通过柱色谱从脱辅基HDL中分离出两种主要的HDL载脂蛋白A-I和A-II。叟猴A-I的氨基末端序列与报道的人类、狗和猪的A-I序列具有显著同源性。猴A-II的氨基酸组成与人类A-II非常相似;然而,与人类A-II不同的是,猴载脂蛋白显示为单体形式,类似于恒河猴A-II的报道。猴和人类血浆脂蛋白之间的相似性表明,叟猴可作为代谢研究的合适模型。
