Owen F L
J Exp Med. 1982 Sep 1;156(3):703-18. doi: 10.1084/jem.156.3.703.
Monoclonal antibodies specific for three T cell alloantigens linked to the immunoglobulin complex on chromosome 12 were used to establish the order of expression of these antigens on immunocompetent cells and in ontogeny. Modification of monoclonal antibodies with fluorescein isothiocyanate (FITC) and use with anti-FITC and complement has amplified lytic capacity of the monoclonals and allowed us to complete a distribution study of Tsud, Tindd, And Tthyd alloantigens on immunocompetent cells. Tthyd is expressed on both cortisone-sensitive and cortisone-resistant thymocytes; Tsud and Tindd are on "mature" cortisone-resistant cells. Tthyd is also expressed on a Thy-1.2-bearing recirculating marrow cell but is undetectable in the peripheral T cell pool. In contrast, resting spleen and lymph node T cells express Tsud and Tindd; antigen-activated populations express these two cells in high frequencies. These antigens must be markers for relatively differentiated cells because "nude" animals, which have pre-T cells, fail to express these determinants. All three antigens segregate independently in our T cell hybrids, arising from adult peripheral node cells, supporting the hypothesis that these are three separate structural products of a gene complex. In contrast, fetal T cell hybrids fail to express these antigens. The appearance of all three antigens on the cell surface in ontogeny is postnatal; Tthyd is expressed at days 1-2, Tindd at days 2-3, and Tsud at days 5-6. If the T cell isotype genes are organized similar to the immunoglobulin loci, then the parallels in maturational expression on immunocompetent cells and in ontogeny would lead one to speculate a gene order of Tthyd leads to Tindd leads to Tsud. Orientation with respect to the centromere is unknown.
针对与12号染色体上免疫球蛋白复合体相关的三种T细胞同种异体抗原的单克隆抗体,被用于确定这些抗原在免疫活性细胞上以及个体发育过程中的表达顺序。用异硫氰酸荧光素(FITC)修饰单克隆抗体,并与抗FITC和补体一起使用,增强了单克隆抗体的裂解能力,使我们能够完成对Tsud、Tindd和Tthyd同种异体抗原在免疫活性细胞上的分布研究。Tthyd在对可的松敏感和耐药的胸腺细胞上均有表达;Tsud和Tindd存在于“成熟”的对可的松耐药的细胞上。Tthyd也在携带Thy-1.2的再循环骨髓细胞上表达,但在外周T细胞库中无法检测到。相比之下,静息的脾脏和淋巴结T细胞表达Tsud和Tindd;抗原激活的群体中这两种细胞的表达频率较高。这些抗原必定是相对分化细胞的标志物,因为有前T细胞的“裸”动物无法表达这些决定簇。在我们源自成年外周淋巴结细胞的T细胞杂交体中,所有这三种抗原都是独立分离的,这支持了这些是基因复合体的三个独立结构产物的假说。相比之下,胎儿T细胞杂交体不表达这些抗原。在个体发育过程中,所有这三种抗原在细胞表面的出现都是在出生后;Tthyd在第1 - 2天表达,Tindd在第2 - 3天表达,Tsud在第5 - 6天表达。如果T细胞同种型基因的组织方式类似于免疫球蛋白基因座,那么免疫活性细胞上成熟表达以及个体发育过程中的相似之处会使人推测基因顺序为Tthyd、Tindd、Tsud。相对于着丝粒的方向尚不清楚。