IFNγ binding to extracellular matrix prevents fatal systemic toxicity-Reference-Cited by-同舟云学术

IFNγ binding to extracellular matrix prevents fatal systemic toxicity

Published:2023-02-02 Issue:3 Volume:24 Page:414-422
ISSN:1529-2908
Container-title:Nature Immunology
language:en
Short-container-title:Nat Immunol

Author:

Kemna Josephine,Gout Evelyne^ORCID,Daniau Leon,Lao Jessica,Weißert Kristoffer^ORCID,Ammann Sandra^ORCID,Kühn Ralf^ORCID,Richter Matthias^ORCID,Molenda Christine^ORCID,Sporbert Anje,Zocholl Dario^ORCID,Klopfleisch Robert,Lortat-Jacob Hugues^ORCID,Aichele Peter^ORCID,Kammertoens Thomas,Blankenstein Thomas^ORCID

Abstract

AbstractInterferon-γ (IFNγ) is an important mediator of cellular immune responses, but high systemic levels of this cytokine are associated with immunopathology. IFNγ binds to its receptor (IFNγR) and to extracellular matrix (ECM) via four positively charged C-terminal amino acids (KRKR), the ECM-binding domain (EBD). Across evolution, IFNγ is not well conserved, but the EBD is highly conserved, suggesting a critical function. Here, we show that IFNγ lacking the EBD (IFNγΔKRKR) does not bind to ECM but still binds to the IFNγR and retains bioactivity. Overexpression of IFNγΔKRKR in tumors reduced local ECM binding, increased systemic levels and induced sickness behavior, weight loss and toxicity. To analyze the function of the EBD during infection, we generated IFNγΔKRKR mice lacking the EBD by using CRISPR–Cas9. Infection with lymphocytic choriomeningitis virus resulted in higher systemic IFNγΔKRKR levels, enhanced sickness behavior, weight loss and fatal toxicity. We conclude that local retention of IFNγ is a pivotal mechanism to protect the organism from systemic toxicity during prolonged immune stimulation.

Publisher

Springer Science and Business Media LLC

Subject

Immunology,Immunology and Allergy

Link

https://www.nature.com/articles/s41590-023-01420-5.pdf

Reference38 articles.

1. Hedrick, S. M. The acquired immune system: a vantage from beneath. Immunity 21, 607–615 (2004).

2. Barber, D. L. et al. Restoring function in exhausted CD8 T cells during chronic viral infection. Nature 439, 682–687 (2006).

3. Sakaguchi, S., Fukuma, K., Kuribayashi, K. & Masuda, T. Organ-specific autoimmune diseases induced in mice by elimination of T cell subset. I. Evidence for the active participation of T cells in natural self-tolerance; deficit of a T cell subset as a possible cause of autoimmune disease. J. Exp. Med. 161, 72–87 (1985).

4. Tivol, E. A. et al. Loss of CTLA-4 leads to massive lymphoproliferation and fatal multiorgan tissue destruction, revealing a critical negative regulatory role of CTLA-4. Immunity 3, 541–547 (1995).

5. Toyonaga, T. et al. Chronic active hepatitis in transgenic mice expressing interferon-γ in the liver. Proc. Natl Acad. Sci. USA 91, 614–618 (1994).

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