作为CD4+ T细胞杀伤激活的直接结果的全身免疫激活。

Rute Marques, Adam Williams, Urszula Eksmond, Andy Wullaert, Nigel Killeen, Manolis Pasparakis, Dimitris Kioussis, George Kassiotis
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引用次数: 18

摘要

背景:除了进行性CD4(+) T细胞免疫缺陷外,HIV感染的特点是全身性免疫激活,这被认为是由于免疫力下降导致微生物暴露增加引起的。结果:在无病毒小鼠模型中,有条件地消融活化的CD4(+) T细胞(免疫缺陷病毒的靶标),加速其周转并产生CD4(+) T细胞免疫缺陷。更重要的是,活化的CD4(+) T细胞杀伤也会导致全身性免疫激活,这是由于调节性CD4(+) T细胞功能不全,可通过调节性CD4(+) T细胞重构来预防。该模型中的免疫激活与微生物暴露无关。此外,肠道上皮完整性条件性破坏小鼠的微生物易位影响髓细胞而不影响T细胞稳态。结论:虽然小鼠体内激活的CD4(+) T细胞的消融和肠上皮完整性的破坏都不能完全再现人类HIV相关免疫功能障碍的各个方面,但激活的CD4(+) T细胞的消融,而不是肠上皮完整性的破坏,近似于HIV感染中的两个关键免疫改变:CD4(+) T细胞免疫缺陷和全身免疫激活。因此,我们提出活化的CD4(+) T细胞杀伤是HIV感染中免疫缺陷和激活的常见病因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Generalized immune activation as a direct result of activated CD4+ T cell killing.

Background: In addition to progressive CD4(+) T cell immune deficiency, HIV infection is characterized by generalized immune activation, thought to arise from increased microbial exposure resulting from diminishing immunity.

Results: Here we report that, in a virus-free mouse model, conditional ablation of activated CD4(+) T cells, the targets of immunodeficiency viruses, accelerates their turnover and produces CD4(+) T cell immune deficiency. More importantly, activated CD4(+) T cell killing also results in generalized immune activation, which is attributable to regulatory CD4(+) T cell insufficiency and preventable by regulatory CD4(+) T cell reconstitution. Immune activation in this model develops independently of microbial exposure. Furthermore, microbial translocation in mice with conditional disruption of intestinal epithelial integrity affects myeloid but not T cell homeostasis.

Conclusions: Although neither ablation of activated CD4(+) T cells nor disruption of intestinal epithelial integrity in mice fully reproduces every aspect of HIV-associated immune dysfunction in humans, ablation of activated CD4(+) T cells, but not disruption of intestinal epithelial integrity, approximates the two key immune alterations in HIV infection: CD4(+) T cell immune deficiency and generalized immune activation. We therefore propose activated CD4(+) T cell killing as a common etiology for both immune deficiency and activation in HIV infection.

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