Graft-versus-host disease reduces lymph node display of tissue-restricted self-antigens and promotes autoimmunity
Simone Dertschnig, … , Clare L. Bennett, Ronjon Chakraverty
Simone Dertschnig, … , Clare L. Bennett, Ronjon Chakraverty
Published January 9, 2020
Citation Information: J Clin Invest. 2020;130(4):1896-1911. https://doi.org/10.1172/JCI133102.
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Graft-versus-host disease reduces lymph node display of tissue-restricted self-antigens and promotes autoimmunity

Abstract

Acute graft-versus-host disease (GVHD) is initially triggered by alloreactive T cells, which damage peripheral tissues and lymphoid organs. Subsequent transition to chronic GVHD involves the emergence of autoimmunity, although the underlying mechanisms driving this process are unclear. Here, we tested the hypothesis that acute GVHD blocks peripheral tolerance of autoreactive T cells by impairing lymph node (LN) display of peripheral tissue–restricted antigens (PTAs). At the initiation of GVHD, LN fibroblastic reticular cells (FRCs) rapidly reduced expression of genes regulated by DEAF1, an autoimmune regulator-like transcription factor required for intranodal expression of PTAs. Subsequently, GVHD led to the selective elimination of the FRC population, and blocked the repair pathways required for its regeneration. We used a transgenic mouse model to show that the loss of presentation of an intestinal PTA by FRCs during GVHD resulted in the activation of autoaggressive T cells and gut injury. Finally, we show that FRCs normally expressed a unique PTA gene signature that was highly enriched for genes expressed in the target organs affected by chronic GVHD. In conclusion, acute GVHD damages and prevents repair of the FRC network, thus disabling an essential platform for purging autoreactive T cells from the repertoire.

Authors

Simone Dertschnig, Pamela Evans, Pedro Santos e Sousa, Teresa Manzo, Ivana R. Ferrer, Hans J. Stauss, Clare L. Bennett, Ronjon Chakraverty

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Figure 6

Specific depletion of FRCs is sufficient to break peripheral tolerance of autoreactive T cells in steady state.

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Specific depletion of FRCs is sufficient to break peripheral tolerance o...
(A) OVA.Ccl19.DTRcre+ and cre mice received 500 ng DT i.p. on days –8, –6, and –4. OT-I T cells (1 × 106) were transferred on day 0 and mice were analyzed on day 16. (B) FRC depletion in OVA.Ccl19.DTRcre+ versus cre mice upon DT treatment. Flow cytometry plots depict surface expression of gp38 and CD31 among CD45 LN stromal cells. (C) Weight change in OVA.Ccl19.DTRcre+ and cre mice is shown as percentage of initial body weight (defined as time point of OT-I transfer; data derived from 4 independent experiments). (D) OT-I T cells were identified as CD8+CD45.1+. Percentages of OT-I T cells are shown for MLNs and the IEL and summarized in dot plots (right). (E) Absolute numbers of OT-I T cells in MLNs and the IEL (data derived from 4 independent experiments). (F) IFN-γ secretion measured by intracellular flow cytometry. IFN-γ expression is shown among CD8+CD45.1+ OT-I T cells. Percentage of IFN-γ+ OT-I T cells in MLNs and the IEL is summarized in dot plots (right). (G) Absolute numbers of IFN-γ+ OT-I T cells in MLNs and the IEL (data derived from 3 independent experiments). Data represent mean ± SEM. *P < 0.05; **P < 0.01; ***P < 0.001 by Mann-Whitney U test.