Vanstapel M J, Peeters B, Cordell J, Heyns W, De Wolf-Peeters C, Desmet V, Mason D
Lab Invest. 1985 Feb;52(2):232-8.
BALB/c mice were immunized with S-100 protein, which was isolated from bovine brain. The first fusion resulted in the cloning of three stable hybridoma lines (S1-61-64, S1-61-65, S1-87-4) that produced monoclonal antibodies against S-100 protein. The hybridoma lines obtained from a second fusion (S2-20, S2-95) were not stable and antibody production ceased early during cloning. Immunoblotting results showed that all antibodies reacted with antigenic determinants shared by both the alpha- and beta-subunit of S-100 protein. These antigenic sites appeared to differ from the calcium-binding site since immunoblotting against other calcium-binding proteins sharing this site (calmodulin, carp parvalbumin, oncomodulin) was negative. Despite the fact that the immunoblotting reactions of the antibodies obtained from both fusions were indistinguishable, different immunohistologic labeling patterns could be observed. These antibodies have proven to be excellent reagents for the immunocytochemical detection of S-100 in normal and pathologic human tissue.
用从牛脑中分离出的S - 100蛋白免疫BALB/c小鼠。第一次融合产生了三个稳定的杂交瘤细胞系(S1 - 61 - 64、S1 - 61 - 65、S1 - 87 - 4),它们产生了针对S - 100蛋白的单克隆抗体。从第二次融合获得的杂交瘤细胞系(S2 - 20、S2 - 95)不稳定,在克隆早期抗体产生就停止了。免疫印迹结果表明,所有抗体都与S - 100蛋白的α和β亚基共有的抗原决定簇发生反应。这些抗原位点似乎与钙结合位点不同,因为针对共享该位点的其他钙结合蛋白(钙调蛋白、鲤鱼小清蛋白、癌调蛋白)的免疫印迹呈阴性。尽管从两次融合获得的抗体的免疫印迹反应难以区分,但可以观察到不同的免疫组织化学标记模式。这些抗体已被证明是在正常和病理人类组织中免疫细胞化学检测S - 100的优秀试剂。