Schonfeld G, Pfleger B
J Clin Invest. 1974 Aug;54(2):236-46. doi: 10.1172/JCI107758.
The major apoprotein of high density lipoprotein is apolipoprotein A-I (ApoA-I). In addition to being a structural component of this class of lipoproteins, ApoA-I also has a physiologic role as an activator of lecithin-cholesterol acyl transferase, an enzyme important in the metabolism of all lipoproteins. To measure ApoA-I content in human plasma, to assess its immunologic activity in hyperlipoproteinemia, and to carry out certain structural studies of high density lipoproteins, we have developed a double antibody radioimmunoassay. ApoA-I, isolated by gel filtration, was used to produce monospecific antisera. ApoA-I was iodinated by chloramine-T and the resulting [(125)I]-ApoA-I was purified by gel filtration. > 85% of [(125)I]-ApoA-I was precipitated by antibody, and 90% of bound [(125)I]ApoA-I was displaced by "cold" ApoA-I. Other lipoproteins and apoproteins did not react. Plasma and high density lipoprotein from normals and subjects with hyperlipoproteinemia displaced counts in parallel with ApoA-I, suggesting that the same antigenic determinants were reacting with antibody on lipid-free and lipid-associated ApoA-I. However, less than 5% of ApoA-I of high density lipoprotein reacted in the assay. Removal of the lipid by extraction increased the reactivity of ApoA-I in high density lipoprotein 15-20-fold; thus more than 95% of the ApoA-I molecules in "intact" high density lipoprotein are unreactive with antibody. Normal and hyperlipoproteinemic plasma and high density lipoproteins isolated from the same subjects continued to display parallelism with ApoA-I standard after lipid extraction, suggesting that ApoA-I of normal and hyperliproteinemic subjects are immunologically identical. About 90% of ApoA-I was in the d 1.063-1.21 fractions of normal plasma, trace quantities were found in the lipoproteins of d < 1.063, and the rest (about 10%) was in the d > 1.21 fraction. Normal plasma levels, assessed in extracted plasmas with a precision of 8%, were 100+/-35 mg/dl. Levels were normal in small groups of subjects with types II and IV hyperlipoproteinemia and high in pregnancy. However, larger population studies need to be performed to determine the distribution of ApoA-I levels in the various hyperlipoproteinemias.
高密度脂蛋白的主要载脂蛋白是载脂蛋白A-I(ApoA-I)。ApoA-I除了作为这类脂蛋白的结构成分外,还具有生理作用,即作为卵磷脂胆固醇酰基转移酶的激活剂,该酶在所有脂蛋白的代谢中都很重要。为了测定人血浆中的ApoA-I含量,评估其在高脂蛋白血症中的免疫活性,并对高密度脂蛋白进行某些结构研究,我们开发了一种双抗体放射免疫测定法。通过凝胶过滤分离得到的ApoA-I用于制备单特异性抗血清。用氯胺-T对ApoA-I进行碘化,所得的[(125)I]-ApoA-I通过凝胶过滤进行纯化。>85%的[(125)I]-ApoA-I可被抗体沉淀,90%结合的[(125)I]ApoA-I可被“冷”ApoA-I置换。其他脂蛋白和载脂蛋白不发生反应。正常人和高脂蛋白血症患者的血浆及高密度脂蛋白与ApoA-I平行置换计数,表明相同的抗原决定簇与无脂和与脂质结合的ApoA-I上的抗体发生反应。然而,在该测定中,高密度脂蛋白中只有不到5%的ApoA-I发生反应。通过提取去除脂质可使高密度脂蛋白中ApoA-I的反应性提高15 - 20倍;因此,“完整”高密度脂蛋白中超过95%的ApoA-I分子与抗体无反应。从同一受试者分离得到的正常和高脂蛋白血症血浆及高密度脂蛋白在脂质提取后继续与ApoA-I标准品呈现平行关系,表明正常和高脂蛋白血症受试者的ApoA-I在免疫上是相同的。正常血浆中约90%的ApoA-I存在于d 1.063 - 1.21组分中,在d < 1.063的脂蛋白中发现微量,其余(约10%)存在于d > 1.21组分中。用提取后的血浆评估的正常血浆水平,精密度为8%,为100±35mg/dl。II型和IV型高脂蛋白血症的小群体受试者水平正常,妊娠时升高。然而,需要进行更大规模的人群研究来确定ApoA-I水平在各种高脂蛋白血症中的分布情况。
