Selected article for: "model virus and specific model virus"
Author: Recher, Mike; Lang, Karl S; Navarini, Alexander; Hunziker, Lukas; Lang, Philipp A; Fink, Katja; Freigang, Stefan; Georgiev, Panco; Hangartner, Lars; Zellweger, Raphael; Bergthaler, Andreas; Hegazy, Ahmed N; Eschli, Bruno; Theocharides, Alexandre; Jeker, Lukas T; Merkler, Doron; Odermatt, Bernhard; Hersberger, Martin; Hengartner, Hans; Zinkernagel, Rolf M
Title: Extralymphatic virus sanctuaries as a consequence of potent T-cell activation
  • Cord-id: 2kfzor6d
  • Document date: 2007_11_4
    • ID: 2kfzor6d
    Snippet: T helper cells can support the functions of CD8(+) T cells against persistently infecting viruses such as murine lymphocytic choriomeningitis virus (LCMV), cytomegalovirus, hepatitis C virus and HIV. These viruses often resist complete elimination and remain detectable at sanctuary sites, such as the kidneys and other extralymphatic organs. The mechanisms underlying this persistence are not well understood. Here we show that mice with potent virus-specific T-cell responses have reduced levels an
    Document: T helper cells can support the functions of CD8(+) T cells against persistently infecting viruses such as murine lymphocytic choriomeningitis virus (LCMV), cytomegalovirus, hepatitis C virus and HIV. These viruses often resist complete elimination and remain detectable at sanctuary sites, such as the kidneys and other extralymphatic organs. The mechanisms underlying this persistence are not well understood. Here we show that mice with potent virus-specific T-cell responses have reduced levels and delayed formation of neutralizing antibodies, and these mice fail to clear LCMV from extralymphatic epithelia. Transfer of virus-specific B cells but not virus-specific T cells augmented virus clearance from persistent sites. Virus elimination from the kidneys was associated with the formation of IgG deposits in the interstitial space, presumably from kidney-infiltrating B cells. CD8(+) T cells in the kidneys of mice that did not clear virus from this site were activated but showed evidence of exhaustion. Thus, we conclude that in this model of infection, site-specific virus persistence develops as a consequence of potent immune activation coupled with reductions in virus-specific neutralizing antibodies. Our results suggest that sanctuary-site formation depends both on organ anatomy and on the induction of different adaptive immune effector mechanisms. Boosting T-cell responses alone may not reduce virus persistence. SUPPLEMENTARY INFORMATION: The online version of this article (doi:10.1038/nm1670) contains supplementary material, which is available to authorized users.

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