Rall S C, Weisgraber K H, Innerarity T L, Mahley R W
J Clin Invest. 1983 Apr;71(4):1023-31. doi: 10.1172/jci110829.
Apolipoprotein E (apoprotein E or apo-E) from type III hyperlipoproteinemic subjects with the E2/2 homozygous phenotype displays both structural and receptor binding heterogeneity. The apo-E from all subjects thus far studied, however, has been functionally defective, though to different degrees. Although nearly every type III hyperlipoproteinemic subject has the E2/2 phenotype, 95-99% of the people with this same phenotype do not display type III hyperlipoproteinemia, nor do they have elevated plasma cholesterol levels. Consequently, it became important to determine whether the apo-E2 from hypo- and normocholesterolemic individuals with the E2/2 phenotype is also functionally abnormal. To do this, apo-E2 was isolated from two hypo-, two normo- and two hypercholesterolemic homozygous E2/2 subjects. The apo-E2 was recombined with vesicles and tested for its ability to displace (125)I-low density lipoproteins (LDL) from apo-B,E (LDL) receptors on human fibroblasts. The apo-E2 from all six subjects was found to be severely defective in receptor binding (<2% of the binding activity of normal apo-E3). In all cases, the binding activity of the apo-E2 was increased 10- to 20-fold by treating the apoproteins with cysteamine, a reagent that converts cysteine residues to positively charged lysine analogues. The cysteine content of each apo-E was determined by monitoring the change in the isoelectric focusing position of the cysteamine-treated apo-E2. Using this method, it was found that the apo-E2 from each subject contained two cysteine residues per mole. A partial sequence analysis of the cysteine-containing regions of the apo-E from three of the six subjects indicated that the two cysteine residues were at residues 112 and 158 in the amino acid sequence. The cysteine at residue 158 has previously been implicated in the severe binding defect of the apo-E2 from a type III hyperlipoproteinemic subject. Since the apo-E2 of the hypo-, normo-, and hypercholesterolemic subjects in this study all displayed a severe functional abnormality, it is apparent that factors in addition to the defective receptor binding activity of the apo-E2 are necessary for the manifestation of type III hyperlipoproteinemia.
来自具有E2/2纯合子表型的III型高脂蛋白血症患者的载脂蛋白E(脱辅基脂蛋白E或apo-E)表现出结构和受体结合的异质性。然而,迄今为止研究的所有受试者的apo-E在功能上都有缺陷,只是程度不同。虽然几乎每个III型高脂蛋白血症患者都有E2/2表型,但95%-99%具有相同表型的人并未表现出III型高脂蛋白血症,他们的血浆胆固醇水平也未升高。因此,确定具有E2/2表型的低胆固醇血症和正常胆固醇血症个体的apo-E2在功能上是否也异常变得很重要。为此,从两名低胆固醇血症、两名正常胆固醇血症和两名高胆固醇血症的纯合子E2/2受试者中分离出apo-E2。将apo-E2与囊泡重组,并测试其从人成纤维细胞上的apo-B、E(LDL)受体置换(125)I-低密度脂蛋白(LDL)的能力。发现来自所有六名受试者的apo-E2在受体结合方面存在严重缺陷(<正常apo-E3结合活性的2%)。在所有情况下,用半胱胺处理载脂蛋白可使apo-E2的结合活性提高10至20倍,半胱胺是一种将半胱氨酸残基转化为带正电荷的赖氨酸类似物的试剂。通过监测半胱胺处理的apo-E2在等电聚焦位置的变化来确定每种apo-E的半胱氨酸含量。使用这种方法发现,来自每个受试者的apo-E2每摩尔含有两个半胱氨酸残基。对六名受试者中的三名受试者的apo-E含半胱氨酸区域进行的部分序列分析表明,这两个半胱氨酸残基位于氨基酸序列的第112位和第158位。第158位的半胱氨酸先前已被认为与一名III型高脂蛋白血症患者的apo-E2的严重结合缺陷有关。由于本研究中低胆固醇血症、正常胆固醇血症和高胆固醇血症受试者的apo-E2均表现出严重的功能异常,显然除了apo-E2的受体结合活性缺陷外还需要其他因素才会出现III型高脂蛋白血症。
