van Oers N S, Cohen B L, Murgita R A
Department of Microbiology and Immunology, McGill University, Montreal, Quebec, Canada.
J Exp Med. 1989 Sep 1;170(3):811-25. doi: 10.1084/jem.170.3.811.
In this report, we examine the functional significance of the molecular microheterogeneity of alpha-fetoprotein (AFP). In doing so, we have taken the direct approach of purifying the naturally occurring isomeric forms of fetal-derived AFP using a preparative anion exchange column linked to an automated fast protein liquid chromatography (FPLC) system followed by parallel testing of each isolated molecular variant for in vitro immunoregulatory activity. The data obtained demonstrate the presence of seven distinct variants of AFP as defined by their retention volumes on FPLC elution profiles, by their pIs on analytical IEF gels, and by Western blot analysis. Molecular mass determination by SDS-PAGE showed each isomer to be equivalent in size to 69,000-dalton native unfractionated AFP molecules. All the immunosuppressive activity of AFP was localized to a single variant representing only 6% of the total composition of native AFP. The immunoregulating isomer termed AFP-1 was the least acidic of the seven isolated variants with a pI of 5.1 and displayed a sialic acid content of 1 mol/mol of protein. The inhibitory activity of AFP-1 could be readily measured on T cell-dependent antibody synthesis, Con A-induced stimulation of Lyt-1+23- thymocyte DNA synthesis, and lymphokine-activated NK cell activity. All other isomers were without effect in these test systems. The immunosuppressive AFP-1 isomer also displayed the strongest growth-promoting influence on cultured bone marrow lymphocytes. There was no correlation between functional activity and degree of expression of sialic acid residues on the AFP molecules. These findings demonstrate that the immunoregulating function of AFP is confined to a distinct and relatively small subpopulation of native AFP molecules and should therefore contribute to the resolution of outstanding questions regarding the structure/function relationship of this onco-fetal glycoprotein.
在本报告中,我们研究了甲胎蛋白(AFP)分子微观异质性的功能意义。为此,我们采用直接方法,使用与自动快速蛋白质液相色谱(FPLC)系统相连的制备型阴离子交换柱纯化胎儿来源AFP的天然存在的异构体形式,随后对每个分离的分子变体进行体外免疫调节活性的平行测试。获得的数据表明,根据其在FPLC洗脱图谱上的保留体积、分析等电聚焦(IEF)凝胶上的pI以及蛋白质印迹分析,存在七种不同的AFP变体。通过SDS-PAGE测定分子量表明,每种异构体的大小与69,000道尔顿的天然未分级AFP分子相当。AFP的所有免疫抑制活性都定位于仅占天然AFP总组成6%的单个变体。被称为AFP-1的免疫调节异构体是七个分离变体中酸性最弱的,pI为5.1,每摩尔蛋白质的唾液酸含量为1摩尔。AFP-1的抑制活性可以很容易地在T细胞依赖性抗体合成、伴刀豆球蛋白A诱导的Lyt-1+23-胸腺细胞DNA合成刺激以及淋巴因子激活的NK细胞活性上进行测量。所有其他异构体在这些测试系统中均无作用。免疫抑制性AFP-1异构体对培养的骨髓淋巴细胞也显示出最强的促生长影响。AFP分子上唾液酸残基的功能活性与表达程度之间没有相关性。这些发现表明,AFP的免疫调节功能局限于天然AFP分子中一个独特且相对较小的亚群,因此应有助于解决有关这种癌胚糖蛋白结构/功能关系的悬而未决的问题。