Impaired central tolerance induces changes in the gut microbiota that exacerbate autoimmune hepatitis

Monica Centa; Erica G. Weinstein; Jose C. Clemente; Jeremiah J. Faith; M. Isabel Fiel; Robby Lyallpuri; Olivier Herbin; Konstantina Alexandropoulos

doi:10.1016/j.jaut.2022.102808

Impaired central tolerance induces changes in the gut microbiota that exacerbate autoimmune hepatitis

Monica Centa, Erica G. Weinstein, Jose C. Clemente, Jeremiah J. Faith, M. Isabel Fiel, Robby Lyallpuri, Olivier Herbin, Konstantina Alexandropoulos

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Medullary thymic epithelial cells (mTECs) induce T cell tolerance in the thymus through the elimination of self-reactive thymocytes. Commensal bacteria are also critical for shaping T cell responses in the gut and distal organs. We previously showed that mice depleted of mTECs (Traf6ΔTEC) generated autoreactive T cells and developed autoimmune hepatitis (AIH). In this report, we found that Toll-like receptor (TLR)-mediated microbial sensing on liver hematopoietic cells and the gut microbiota contributed to AIH development in Traf6ΔTEC mice. While adoptive transfer of thymic Traf6ΔTEC T cells in immune-deficient mice was sufficient for AIH development, colonization of germ-free mice with Traf6ΔTEC microbiota failed to induce AIH, suggesting that the gut microbiota contributes to but is not sufficient for AIH development. Microbiota-mediated exacerbation of AIH associated with increased numbers of hepatic Foxp3⁺ T cells and their increase was proportional to the degree of inflammation. The contribution of the gut microbiota to AIH development associated with an altered microbial signature whose composition was influenced by the qualitative nature of the thymic T cell compartment. These results suggest that aberrant selection of T cells in the thymus can induce changes in the gut microbiota that lead to exacerbation of organ-specific autoimmunity and AIH. Our results add to our understanding of the mechanisms of AIH development and create a platform towards developing novel therapeutic approaches for treating this disease.

Original language	English
Article number	102808
Journal	Journal of Autoimmunity
Volume	128
DOIs	https://doi.org/10.1016/j.jaut.2022.102808
State	Published - Apr 2022

Keywords

Autoimmune hepatitis
Central tolerance
Foxp3 T regulatory Cells
Gut microbiota
Medullary thymic epithelial cells
Toll-like receptors

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10.1016/j.jaut.2022.102808

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@article{d7fff33566ca4cd6b55bcbc6b41f96a1,

title = "Impaired central tolerance induces changes in the gut microbiota that exacerbate autoimmune hepatitis",

abstract = "Medullary thymic epithelial cells (mTECs) induce T cell tolerance in the thymus through the elimination of self-reactive thymocytes. Commensal bacteria are also critical for shaping T cell responses in the gut and distal organs. We previously showed that mice depleted of mTECs (Traf6ΔTEC) generated autoreactive T cells and developed autoimmune hepatitis (AIH). In this report, we found that Toll-like receptor (TLR)-mediated microbial sensing on liver hematopoietic cells and the gut microbiota contributed to AIH development in Traf6ΔTEC mice. While adoptive transfer of thymic Traf6ΔTEC T cells in immune-deficient mice was sufficient for AIH development, colonization of germ-free mice with Traf6ΔTEC microbiota failed to induce AIH, suggesting that the gut microbiota contributes to but is not sufficient for AIH development. Microbiota-mediated exacerbation of AIH associated with increased numbers of hepatic Foxp3+ T cells and their increase was proportional to the degree of inflammation. The contribution of the gut microbiota to AIH development associated with an altered microbial signature whose composition was influenced by the qualitative nature of the thymic T cell compartment. These results suggest that aberrant selection of T cells in the thymus can induce changes in the gut microbiota that lead to exacerbation of organ-specific autoimmunity and AIH. Our results add to our understanding of the mechanisms of AIH development and create a platform towards developing novel therapeutic approaches for treating this disease.",

keywords = "Autoimmune hepatitis, Central tolerance, Foxp3 T regulatory Cells, Gut microbiota, Medullary thymic epithelial cells, Toll-like receptors",

author = "Monica Centa and Weinstein, {Erica G.} and Clemente, {Jose C.} and Faith, {Jeremiah J.} and Fiel, {M. Isabel} and Robby Lyallpuri and Olivier Herbin and Konstantina Alexandropoulos",

note = "Funding Information: We thank Dr. Costica Aloman and Dr. Anthony Bonito for inspiring discussions, suggestions, and critical comments; Dr. Peter Heeger for Foxp3-GFP mice: Dr. Andrea Cerutti and Emilie Grasset for TCRβ−/− mice, and Drs. Julie Magarian-Blander and Saurabh Mehandru for Trif/MyD88−/− mice with permission from S. Akira. E.G.W was supported by a grant provided by The Levine Family Foundation. J.C.C. was supported by NIH / NIDDK grant 5R01DK114038 . J.J.F. was supported by NIH / NIGMS grant GM108505 . O.H. was recipient of the Icahn School of Medicine at Mount Sinai Helmsley Charitable Trust Award. K.A. M.C and this work were supported by NIH / NIAID grants RO1 AI088106-01 ; RO1 AI068963-01 ; RO1 AI144903 ; NIH / NIDDK grants R56 DK107992-011 ; RO1 DK107992-01 ; and grants by The Levine Family Foundation and Lowenheim Family. This work was supported in part through the computational resources and staff expertise provided by Genomics, Flow Cytometry, Center for Comparative Medicine and Surgery, Microbiota, and the Biorepository and Pathology CoRE facilities at the Icahn School of Medicine at Mount Sinai . Funding Information: We thank Dr. Costica Aloman and Dr. Anthony Bonito for inspiring discussions, suggestions, and critical comments; Dr. Peter Heeger for Foxp3-GFP mice: Dr. Andrea Cerutti and Emilie Grasset for TCR??/? mice, and Drs. Julie Magarian-Blander and Saurabh Mehandru for Trif/MyD88?/? mice with permission from S. Akira. E.G.W was supported by a grant provided by The Levine Family Foundation. J.C.C. was supported by NIH/NIDDK grant 5R01DK114038. J.J.F. was supported by NIH/NIGMS grant GM108505. O.H. was recipient of the Icahn School of Medicine at Mount Sinai Helmsley Charitable Trust Award. K.A. M.C and this work were supported by NIH/NIAID grants RO1 AI088106-01; RO1 AI068963-01; RO1 AI144903; NIH/NIDDK grants R56 DK107992-011; RO1 DK107992-01; and grants by The Levine Family Foundation and Lowenheim Family. This work was supported in part through the computational resources and staff expertise provided by Genomics, Flow Cytometry, Center for Comparative Medicine and Surgery, Microbiota, and the Biorepository and Pathology CoRE facilities at the Icahn School of Medicine at Mount Sinai. Publisher Copyright: {\textcopyright} 2022 Elsevier Ltd",

year = "2022",

month = apr,

doi = "10.1016/j.jaut.2022.102808",

language = "English",

volume = "128",

journal = "Journal of Autoimmunity",

issn = "0896-8411",

publisher = "Academic Press Inc.",

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T1 - Impaired central tolerance induces changes in the gut microbiota that exacerbate autoimmune hepatitis

AU - Centa, Monica

AU - Weinstein, Erica G.

AU - Clemente, Jose C.

AU - Faith, Jeremiah J.

AU - Fiel, M. Isabel

AU - Lyallpuri, Robby

AU - Herbin, Olivier

AU - Alexandropoulos, Konstantina

N1 - Funding Information: We thank Dr. Costica Aloman and Dr. Anthony Bonito for inspiring discussions, suggestions, and critical comments; Dr. Peter Heeger for Foxp3-GFP mice: Dr. Andrea Cerutti and Emilie Grasset for TCRβ−/− mice, and Drs. Julie Magarian-Blander and Saurabh Mehandru for Trif/MyD88−/− mice with permission from S. Akira. E.G.W was supported by a grant provided by The Levine Family Foundation. J.C.C. was supported by NIH / NIDDK grant 5R01DK114038 . J.J.F. was supported by NIH / NIGMS grant GM108505 . O.H. was recipient of the Icahn School of Medicine at Mount Sinai Helmsley Charitable Trust Award. K.A. M.C and this work were supported by NIH / NIAID grants RO1 AI088106-01 ; RO1 AI068963-01 ; RO1 AI144903 ; NIH / NIDDK grants R56 DK107992-011 ; RO1 DK107992-01 ; and grants by The Levine Family Foundation and Lowenheim Family. This work was supported in part through the computational resources and staff expertise provided by Genomics, Flow Cytometry, Center for Comparative Medicine and Surgery, Microbiota, and the Biorepository and Pathology CoRE facilities at the Icahn School of Medicine at Mount Sinai . Funding Information: We thank Dr. Costica Aloman and Dr. Anthony Bonito for inspiring discussions, suggestions, and critical comments; Dr. Peter Heeger for Foxp3-GFP mice: Dr. Andrea Cerutti and Emilie Grasset for TCR??/? mice, and Drs. Julie Magarian-Blander and Saurabh Mehandru for Trif/MyD88?/? mice with permission from S. Akira. E.G.W was supported by a grant provided by The Levine Family Foundation. J.C.C. was supported by NIH/NIDDK grant 5R01DK114038. J.J.F. was supported by NIH/NIGMS grant GM108505. O.H. was recipient of the Icahn School of Medicine at Mount Sinai Helmsley Charitable Trust Award. K.A. M.C and this work were supported by NIH/NIAID grants RO1 AI088106-01; RO1 AI068963-01; RO1 AI144903; NIH/NIDDK grants R56 DK107992-011; RO1 DK107992-01; and grants by The Levine Family Foundation and Lowenheim Family. This work was supported in part through the computational resources and staff expertise provided by Genomics, Flow Cytometry, Center for Comparative Medicine and Surgery, Microbiota, and the Biorepository and Pathology CoRE facilities at the Icahn School of Medicine at Mount Sinai. Publisher Copyright: © 2022 Elsevier Ltd

PY - 2022/4

Y1 - 2022/4

N2 - Medullary thymic epithelial cells (mTECs) induce T cell tolerance in the thymus through the elimination of self-reactive thymocytes. Commensal bacteria are also critical for shaping T cell responses in the gut and distal organs. We previously showed that mice depleted of mTECs (Traf6ΔTEC) generated autoreactive T cells and developed autoimmune hepatitis (AIH). In this report, we found that Toll-like receptor (TLR)-mediated microbial sensing on liver hematopoietic cells and the gut microbiota contributed to AIH development in Traf6ΔTEC mice. While adoptive transfer of thymic Traf6ΔTEC T cells in immune-deficient mice was sufficient for AIH development, colonization of germ-free mice with Traf6ΔTEC microbiota failed to induce AIH, suggesting that the gut microbiota contributes to but is not sufficient for AIH development. Microbiota-mediated exacerbation of AIH associated with increased numbers of hepatic Foxp3+ T cells and their increase was proportional to the degree of inflammation. The contribution of the gut microbiota to AIH development associated with an altered microbial signature whose composition was influenced by the qualitative nature of the thymic T cell compartment. These results suggest that aberrant selection of T cells in the thymus can induce changes in the gut microbiota that lead to exacerbation of organ-specific autoimmunity and AIH. Our results add to our understanding of the mechanisms of AIH development and create a platform towards developing novel therapeutic approaches for treating this disease.

AB - Medullary thymic epithelial cells (mTECs) induce T cell tolerance in the thymus through the elimination of self-reactive thymocytes. Commensal bacteria are also critical for shaping T cell responses in the gut and distal organs. We previously showed that mice depleted of mTECs (Traf6ΔTEC) generated autoreactive T cells and developed autoimmune hepatitis (AIH). In this report, we found that Toll-like receptor (TLR)-mediated microbial sensing on liver hematopoietic cells and the gut microbiota contributed to AIH development in Traf6ΔTEC mice. While adoptive transfer of thymic Traf6ΔTEC T cells in immune-deficient mice was sufficient for AIH development, colonization of germ-free mice with Traf6ΔTEC microbiota failed to induce AIH, suggesting that the gut microbiota contributes to but is not sufficient for AIH development. Microbiota-mediated exacerbation of AIH associated with increased numbers of hepatic Foxp3+ T cells and their increase was proportional to the degree of inflammation. The contribution of the gut microbiota to AIH development associated with an altered microbial signature whose composition was influenced by the qualitative nature of the thymic T cell compartment. These results suggest that aberrant selection of T cells in the thymus can induce changes in the gut microbiota that lead to exacerbation of organ-specific autoimmunity and AIH. Our results add to our understanding of the mechanisms of AIH development and create a platform towards developing novel therapeutic approaches for treating this disease.

KW - Autoimmune hepatitis

KW - Central tolerance

KW - Foxp3 T regulatory Cells

KW - Gut microbiota

KW - Medullary thymic epithelial cells

KW - Toll-like receptors

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DO - 10.1016/j.jaut.2022.102808

M3 - Article

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AN - SCOPUS:85126755115

SN - 0896-8411

VL - 128

JO - Journal of Autoimmunity

JF - Journal of Autoimmunity

M1 - 102808

ER -

Impaired central tolerance induces changes in the gut microbiota that exacerbate autoimmune hepatitis

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Keywords

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