Liesenfeld O, Kosek J, Remington J S, Suzuki Y
Department of Immunology and Infectious Diseases, Palo Alto Medical Foundation, California 94301, USA.
J Exp Med. 1996 Aug 1;184(2):597-607. doi: 10.1084/jem.184.2.597.
Since there is a remarkable difference in susceptibility to peroral infection with Toxoplasma gondii among inbred strains of mice, we performed studies to examine the mechanism(s) of this difference in susceptibility. After peroral infection with the ME49 strain of T. gondii, C57BL/6 (B6) mice all died whereas BALB/c mice all survived. At day 7 of infection (when B6 mice began dying), massive necrosis of the villi and mucosal cells in the ilea were observed in B6 but not in BALB/c mice. To analyze the role of T cells in resistance against death and development of necrosis in the ilea after infection, studies were performed using athymic nude and euthymic control B6 and BALB/c mice. Athymic B6 mice all died after infection, but surprisingly, they survived significantly longer than control B6 mice, indicating that T cells predispose to early death in these mice. Necrosis in the ilea was observed in control B6 but not in athymic B6 mice; however, significantly less numbers of tachyzoites were observed in the ilea of the former than the latter mice. These results indicate that necrosis in the ilea of the B6 mice was not due to destruction of tissue by tachyzoites but was mediated by T cells. This deleterious effect of T cells appears to contribute to early death in these mice. In contrast, T cells conferred resistance against death in BALB/c mice but did not cause necrosis in their ilea. To analyze the T cell subset(s) that induces necrosis of the ilea in B6 mice, we examined histological changes of the small intestines after infection of mutant mice deficient in different T cell subsets (with the same H-2b haplotype as B6 mice). Mice deficient in alpha/beta or CD4+ T cells did not develop necrosis in the ilea, whereas wild-type control mice and mice deficient in gamma/delta or CD8+ T cells did, suggesting that the cells that induce necrosis in the ilea after infection are CD4+ alpha/beta T cells. Since interferon (IFN)-gamma has been shown to be critical for survival of BALB/c mice after infection with T. gondii, we examined the role of this cytokine in resistance/susceptibility of infected B6 mice. Treatment of B6 mice with anti-IFN-gamma monoclonal antibody shortly before they developed illness prolonged time to death and prevented necrosis in the ilea in these mice. These results indicate that IFN-gamma mediates necrosis in the ilea of B6 mice after infection. This CD4+ T cell-dependent, IFN-gamma-mediated necrosis of the small intestines appears to be a mechanism that underlies the genetic susceptibility of B6 mice to peroral infection with T. gondii, whereas the same cytokine plays a critical role in the resistance of genetically resistant BALB/c mice.
由于不同近交系小鼠对经口感染刚地弓形虫的易感性存在显著差异,我们开展了研究以探究这种易感性差异的机制。用刚地弓形虫ME49株经口感染后,C57BL/6(B6)小鼠全部死亡,而BALB/c小鼠全部存活。在感染第7天(此时B6小鼠开始死亡),在B6小鼠的回肠中观察到绒毛和黏膜细胞的大量坏死,而BALB/c小鼠中未观察到。为分析T细胞在感染后对死亡的抵抗作用以及回肠坏死发展中的作用,我们使用无胸腺裸鼠以及有胸腺的对照B6和BALB/c小鼠进行了研究。无胸腺B6小鼠在感染后全部死亡,但令人惊讶的是,它们存活的时间明显长于对照B6小鼠,这表明T细胞会使这些小鼠易于早期死亡。在对照B6小鼠的回肠中观察到坏死,而无胸腺B6小鼠中未观察到;然而,在前一种小鼠回肠中观察到的速殖子数量明显少于后一种小鼠。这些结果表明,B6小鼠回肠中的坏死不是由于速殖子对组织的破坏,而是由T细胞介导的。T细胞的这种有害作用似乎导致了这些小鼠的早期死亡。相比之下,T细胞赋予BALB/c小鼠抗死亡能力,但未导致其回肠坏死。为分析诱导B6小鼠回肠坏死的T细胞亚群,我们检查了不同T细胞亚群缺陷的突变小鼠(与B6小鼠具有相同的H-2b单倍型)感染后小肠的组织学变化。α/β或CD4+ T细胞缺陷的小鼠回肠未发生坏死,而野生型对照小鼠以及γ/δ或CD8+ T细胞缺陷的小鼠回肠发生了坏死,这表明感染后诱导回肠坏死的细胞是CD4+ α/β T细胞。由于干扰素(IFN)-γ已被证明对BALB/c小鼠感染刚地弓形虫后的存活至关重要,我们研究了这种细胞因子在感染的B6小鼠的抗性/易感性中的作用。在B6小鼠发病前不久用抗IFN-γ单克隆抗体进行治疗,延长了其死亡时间,并预防了这些小鼠回肠中的坏死。这些结果表明,IFN-γ介导了感染后B6小鼠回肠中的坏死。这种由CD4+ T细胞依赖性、IFN-γ介导的小肠坏死似乎是B6小鼠对经口感染刚地弓形虫遗传易感性的潜在机制,而相同的细胞因子在遗传抗性的BALB/c小鼠的抗性中起关键作用。
