Lo D, Burkly L C, Flavell R A, Palmiter R D, Brinster R L
Laboratory of Reproductive Physiology, School of Veterinary Medicine, University of Pennsylvania, Philadelphia 19104.
J Exp Med. 1989 Jul 1;170(1):87-104. doi: 10.1084/jem.170.1.87.
To study the nature of tolerance to antigens not expressed by cells of the lymphoid system, expression of class II MHC I-E was targeted to the acinar cells of the exocrine pancreas in transgenic mice (elastase [EL]-I-E). Despite the absence of detectable I-E in the thymus of EL-I-E transgenic mice, both thymocytes and peripheral T lymphocytes were tolerant to I-E, and the pancreas was free of autoimmune infiltrates. Nontolerant T cells adoptively transferred into irradiated or T-depleted transgenic mice rapidly destroy the I-E+ components of the pancreas; however, adoptive transfer of nontolerant T lymphocytes into nonirradiated transgenic mice do not. These results suggest that tolerance in transgenic mice is maintained by some peripheral tolerance mechanism. However, further studies indicate that tolerance in transgenic mice is not maintained by specific Ts cells. For example, cell mixing experiments both in vitro and in vivo fail to reveal dominant unresponsiveness. Furthermore, nontolerant T cells injected into otherwise unmanipulated EL-I-E mice can be primed in situ (by injections of I-E+ spleen cells) to destroy the I-E+ acinar cells.
为了研究对淋巴系统细胞未表达的抗原的耐受性质,在转基因小鼠(弹性蛋白酶[EL]-I-E)中,将II类MHC I-E的表达靶向到外分泌胰腺的腺泡细胞。尽管在EL-I-E转基因小鼠的胸腺中未检测到I-E,但胸腺细胞和外周T淋巴细胞均对I-E耐受,且胰腺没有自身免疫浸润。过继转移到经照射或T细胞耗竭的转基因小鼠中的不耐受T细胞会迅速破坏胰腺的I-E+成分;然而,将不耐受T淋巴细胞过继转移到未照射的转基因小鼠中则不会。这些结果表明,转基因小鼠中的耐受是由某种外周耐受机制维持的。然而,进一步的研究表明,转基因小鼠中的耐受并非由特异性Ts细胞维持。例如,体外和体内的细胞混合实验均未揭示显性无反应性。此外,注射到未作其他处理的EL-I-E小鼠体内的不耐受T细胞可在原位(通过注射I-E+脾细胞)被激活以破坏I-E+腺泡细胞。