Jayawardena A N, Janeway C A, Kemp J D
J Immunol. 1979 Dec;123(6):2532-9.
CBA/N mice carry an X-linked, recessive gene, which results in the absence of a B cell subset, and is expressed primarily as an inability to respond to a certain class of thymus-independent antigens. We have examined the responses of these mice to the malaria parasite Plasmodium yoelii and found that primary infections induced by this parasite are more severe and last longer in mice with X-linked defect than in normal controls. The decreased resistance of the defective mice is associated with a striking deficiency in their IgM antibody response. After recovery from a primary infection, defective mice resist reinfection with the homologous parasite as well as normal mice. Although as resistant as normal controls, B cells from defective mice transfer considerably less immunity to naive recipients than B cells from normal animals. Hence, two modes of thymus-dependent protective immunity may contribute to the host response to P. yoelii. Control of an acute primary infection appears to involve a thymus-dependent antibody response that CBA/N mice are deficient in. Resistance to reinfection may be mediated primarily by a different mechanism.
CBA/N小鼠携带一种X连锁隐性基因,该基因导致一种B细胞亚群缺失,主要表现为无法对某类非胸腺依赖性抗原作出反应。我们研究了这些小鼠对疟原虫约氏疟原虫的反应,发现这种寄生虫引起的初次感染在具有X连锁缺陷的小鼠中比正常对照更严重且持续时间更长。缺陷小鼠抵抗力下降与它们的IgM抗体反应显著缺乏有关。从初次感染中恢复后,缺陷小鼠对同源寄生虫的再次感染的抵抗力与正常小鼠一样。尽管缺陷小鼠的B细胞与正常对照一样具有抵抗力,但与正常动物的B细胞相比,它们转移给未免疫受体的免疫力要少得多。因此,两种胸腺依赖性保护性免疫模式可能有助于宿主对约氏疟原虫的反应。急性初次感染的控制似乎涉及CBA/N小鼠所缺乏的胸腺依赖性抗体反应。对再次感染的抵抗力可能主要由不同的机制介导。