Generalized immune activation as a direct result of activated CD4<sup>+ </sup>T cell killing

Kioussis Dimitris; Pasparakis Manolis; Killeen Nigel; Wullaert Andy; Eksmond Urszula; Williams Adam; Marques Rute; Kassiotis George

doi:10.1186/jbiol194

Journal of Biology (Nov 2009)

Generalized immune activation as a direct result of activated CD4<sup>+ </sup>T cell killing

Kioussis Dimitris,
Pasparakis Manolis,
Killeen Nigel,
Wullaert Andy,
Eksmond Urszula,
Williams Adam,
Marques Rute,
Kassiotis George

Affiliations

Kioussis Dimitris
Pasparakis Manolis
Killeen Nigel
Wullaert Andy
Eksmond Urszula
Williams Adam
Marques Rute
Kassiotis George

DOI: https://doi.org/10.1186/jbiol194
Journal volume & issue: Vol. 8, no. 10
p. 93

Abstract

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Abstract 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. See minireview http://www.jbiol.com/content/8/10/91

Published in Journal of Biology

ISSN: 1478-5854 (Print); 1475-4924 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General)
Website: https://bmcbiol.biomedcentral.com/

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