Intestinal B cells license metabolic T-cell activation in NASH microbiota/antigen-independently and contribute to fibrosis by IgA-FcR signalling

Elena Kotsiliti; Valentina Leone; Svenja Schuehle; Olivier Govaere; Hai Li; Monika J. Wolf; Helena Horvatic; Sandra Bierwirth; Jana Hundertmark; Donato Inverso; Laimdota Zizmare; Avital Sarusi-Portuguez; Revant Gupta; Tracy O'Connor; Anastasios D. Giannou; Ahmad Mustafa Shiri; Yehuda Schlesinger; Maria Garcia Beccaria; Charlotte Rennert; Dominik Pfister; Rupert Öllinger; Iana Gadjalova; Pierluigi Ramadori; Mohammad Rahbari; Nuh Rahbari; Marc E. Healy; Mirian Fernández-Vaquero; Neda Yahoo; Jakob Janzen; Indrabahadur Singh; Chaofan Fan; Xinyuan Liu; Monika Rau; Martin Feuchtenberger; Eva Schwaneck; Sebastian J. Wallace; Simon Cockell; John Wilson-Kanamori; Prakash Ramachandran; Celia Kho; Timothy J. Kendall; Anne Laure Leblond; Selina J. Keppler; Piotr Bielecki; Katja Steiger; Maike Hofmann; Karsten Rippe; Horst Zitzelsberger; Achim Weber; Nisar Malek; Tom Luedde; Mihael Vucur; Hellmut G. Augustin; Richard Flavell; Oren Parnas; Roland Rad; Olivier Pabst; Neil C. Henderson; Samuel Huber; Andrew Macpherson; Percy Knolle; Manfred Claassen; Andreas Geier; Christoph Trautwein; Kristian Unger; Eran Elinav; Ari Waisman; Zeinab Abdullah; Dirk Haller; Frank Tacke; Quentin M. Anstee; Mathias Heikenwalder

doi:10.1016/j.jhep.2023.04.037

Intestinal B cells license metabolic T-cell activation in NASH microbiota/antigen-independently and contribute to fibrosis by IgA-FcR signalling

Elena Kotsiliti, Valentina Leone, Svenja Schuehle, Olivier Govaere, Hai Li, Monika J. Wolf, Helena Horvatic, Sandra Bierwirth, Jana Hundertmark, Donato Inverso, Laimdota Zizmare, Avital Sarusi-Portuguez, Revant Gupta, Tracy O'Connor, Anastasios D. Giannou, Ahmad Mustafa Shiri, Yehuda Schlesinger, Maria Garcia Beccaria, Charlotte Rennert, Dominik PfisterRupert Öllinger, Iana Gadjalova, Pierluigi Ramadori, Mohammad Rahbari, Nuh Rahbari, Marc E. Healy, Mirian Fernández-Vaquero, Neda Yahoo, Jakob Janzen, Indrabahadur Singh, Chaofan Fan, Xinyuan Liu, Monika Rau, Martin Feuchtenberger, Eva Schwaneck, Sebastian J. Wallace, Simon Cockell, John Wilson-Kanamori, Prakash Ramachandran, Celia Kho, Timothy J. Kendall, Anne Laure Leblond, Selina J. Keppler, Piotr Bielecki, Katja Steiger, Maike Hofmann, Karsten Rippe, Horst Zitzelsberger, Achim Weber, Nisar Malek, Tom Luedde, Mihael Vucur, Hellmut G. Augustin, Richard Flavell, Oren Parnas, Roland Rad, Olivier Pabst, Neil C. Henderson, Samuel Huber, Andrew Macpherson, Percy Knolle, Manfred Claassen, Andreas Geier, Christoph Trautwein, Kristian Unger, Eran Elinav, Ari Waisman, Zeinab Abdullah, Dirk Haller, Frank Tacke, Quentin M. Anstee, Mathias Heikenwalder

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

3 Scopus citations

Abstract

Background & Aims: The progression of non-alcoholic steatohepatitis (NASH) to fibrosis and hepatocellular carcinoma (HCC) is aggravated by auto-aggressive T cells. The gut-liver axis contributes to NASH, but the mechanisms involved and the consequences for NASH-induced fibrosis and liver cancer remain unknown. We investigated the role of gastrointestinal B cells in the development of NASH, fibrosis and NASH-induced HCC. Methods: C57BL/6J wild-type (WT), B cell-deficient and different immunoglobulin-deficient or transgenic mice were fed distinct NASH-inducing diets or standard chow for 6 or 12 months, whereafter NASH, fibrosis, and NASH-induced HCC were assessed and analysed. Specific pathogen-free/germ-free WT and μMT mice (containing B cells only in the gastrointestinal tract) were fed a choline-deficient high-fat diet, and treated with an anti-CD20 antibody, whereafter NASH and fibrosis were assessed. Tissue biopsy samples from patients with simple steatosis, NASH and cirrhosis were analysed to correlate the secretion of immunoglobulins to clinicopathological features. Flow cytometry, immunohistochemistry and single-cell RNA-sequencing analysis were performed in liver and gastrointestinal tissue to characterise immune cells in mice and humans. Results: Activated intestinal B cells were increased in mouse and human NASH samples and licensed metabolic T-cell activation to induce NASH independently of antigen specificity and gut microbiota. Genetic or therapeutic depletion of systemic or gastrointestinal B cells prevented or reverted NASH and liver fibrosis. IgA secretion was necessary for fibrosis induction by activating CD11b+CCR2+F4/80+CD11c-FCGR1+ hepatic myeloid cells through an IgA-FcR signalling axis. Similarly, patients with NASH had increased numbers of activated intestinal B cells; additionally, we observed a positive correlation between IgA levels and activated FcRg+ hepatic myeloid cells, as well the extent of liver fibrosis. Conclusions: Intestinal B cells and the IgA-FcR signalling axis represent potential therapeutic targets for the treatment of NASH. Impact and Implications: There is currently no effective treatment for non-alcoholic steatohepatitis (NASH), which is associated with a substantial healthcare burden and is a growing risk factor for hepatocellular carcinoma (HCC). We have previously shown that NASH is an auto-aggressive condition aggravated, amongst others, by T cells. Therefore, we hypothesized that B cells might have a role in disease induction and progression. Our present work highlights that B cells have a dual role in NASH pathogenesis, being implicated in the activation of auto-aggressive T cells and the development of fibrosis via activation of monocyte-derived macrophages by secreted immunoglobulins (e.g., IgA). Furthermore, we show that the absence of B cells prevented HCC development. B cell-intrinsic signalling pathways, secreted immunoglobulins, and interactions of B cells with other immune cells are potential targets for combinatorial NASH therapies against inflammation and fibrosis.

Original language	English
Pages (from-to)	296-313
Number of pages	18
Journal	Journal of Hepatology
Volume	79
Issue number	2
DOIs	https://doi.org/10.1016/j.jhep.2023.04.037
State	Published - Aug 2023
Externally published	Yes

Bibliographical note

Funding Information:
We thank Danijela Heide, Florian Müller, Enrico Focaccia, Mohammad Ahmed, Sabrina Schumacher, Jenny Hetzer, Corinna Leuchtenberger, Tim Machauer for excellent technical help. Moreover, we are very thankful for the support executed by the Comparative Experimental Pathology laboratory of the Technical University of Munich (TUM). A.W. was funded by the Deutsche Forschungsgemeinschaft DFG via CRC 1292. Z.A. was funded by the DFG under Germany´s Excellence Strategy (EXC 2151) 390873048, SFB1454, SFBTR237 and the GRK 2168.

Funding Information:
M.H. was supported by an European Research Council (ERC) Consolidator grant (HepatoMetaboPath), SFBTR179 project ID 272983813, SFB/TR 209 project ID 314905040, SFBTR1335 project ID 360372040, SFB 1479 (Project ID: 441891347), the Wilhelm Sander-Stiftung, the Rainer Hoenig Stiftung, a Horizon 2020 grant (Hep-Car), Research Foundation Flanders (FWO) under grant 30826052 (EOS Convention MODEL-IDI), Deutsche Krebshilfe projects 70113166 and 70113167, German-Israeli Cooperation in Cancer Research (DKFZ-MOST) and the Helmholtz-Gemeinschaft, Zukunftsthema ‘Immunology and Inflammation’ (ZT-0027). M.H. was also supported together with A.W. by seed funding from HI-TRON. E.K. was supported by the GRK 1482. V.L. was financed by Horizon 2020 grant (Hep-Car), and ERC-CoG (HepatoMetaboPath). D.P. & E.K. were supported by the Helmholtz Future topic Inflammation and Immunology. S.S. was supported by the German-Israeli Helmholtz International Research School: Cancer-TRAX (HIRS-0003), a grant from the Helmholtz Association's Initiative and Networking Fund. Q.M.A. and OG are supported by the LITMUS (Liver Investigation: Testing Marker Utility in Steatohepatitis) project which has received funding from the Innovative Medicines Initiative (IMI2) Program of the European Union under Grant Agreement 777377; this Joint Undertaking receives support from the European Union's Horizon 2020 research and innovation programme and EFPIA. QMA is also supported by the Newcastle NIHR Biomedical Research Centre. N.C.H. is supported by a Wellcome Trust Senior Research Fellowship in Clinical Science (ref. 219542/Z/19/Z). A.W. was funded by the DFG via CRC 1292. Z.A. was funded by the DFG under Germany´s Excellence Strategy (EXC 2151) 390873048, SFB1454, SFBTR237 and the GRK 2168. A.D.G was supported by European Respiratory Society/short term fellowship (to A.D.G), Else Kröner Memorial Stipendium (to A.D.G), Werner Otto Stiftung (to A.D.G), Erich und Gertrud Roggenbuck Stiftung (to A.D.G), Hamburger Krebsgesellschaft Stiftung (to A.D.G). E.E. is a scientific cofounder of DayTwo and BiomX, and an advisor to Hello Inside, Igen, and Aposense in topics unrelated to this work.We thank Danijela Heide, Florian Müller, Enrico Focaccia, Mohammad Ahmed, Sabrina Schumacher, Jenny Hetzer, Corinna Leuchtenberger, Tim Machauer for excellent technical help. Moreover, we are very thankful for the support executed by the Comparative Experimental Pathology laboratory of the Technical University of Munich (TUM). A.W. was funded by the Deutsche Forschungsgemeinschaft DFG via CRC 1292. Z.A. was funded by the DFG under Germany´s Excellence Strategy (EXC 2151) 390873048, SFB1454, SFBTR237 and the GRK 2168.

Funding Information:
M.H. was supported by an European Research Council (ERC) Consolidator grant (HepatoMetaboPath), SFBTR179 project ID 272983813, SFB/TR 209 project ID 314905040, SFBTR1335 project ID 360372040, SFB 1479 (Project ID: 441891347), the Wilhelm Sander-Stiftung, the Rainer Hoenig Stiftung, a Horizon 2020 grant (Hep-Car), Research Foundation Flanders (FWO) under grant 30826052 (EOS Convention MODEL-IDI), Deutsche Krebshilfe projects 70113166 and 70113167, German-Israeli Cooperation in Cancer Research (DKFZ-MOST) and the Helmholtz-Gemeinschaft, Zukunftsthema ‘Immunology and Inflammation’ (ZT-0027). M.H. was also supported together with A.W. by seed funding from HI-TRON. E.K. was supported by the GRK 1482. V.L. was financed by Horizon 2020 grant (Hep-Car), and ERC-CoG (HepatoMetaboPath). D.P. & E.K. were supported by the Helmholtz Future topic Inflammation and Immunology. S.S. was supported by the German-Israeli Helmholtz International Research School: Cancer-TRAX (HIRS-0003), a grant from the Helmholtz Association's Initiative and Networking Fund. Q.M.A. and OG are supported by the LITMUS (Liver Investigation: Testing Marker Utility in Steatohepatitis) project which has received funding from the Innovative Medicines Initiative (IMI2) Program of the European Union under Grant Agreement 777377; this Joint Undertaking receives support from the European Union’s Horizon 2020 research and innovation programme and EFPIA. QMA is also supported by the Newcastle NIHR Biomedical Research Centre . N.C.H. is supported by a Wellcome Trust Senior Research Fellowship in Clinical Science (ref. 219542/Z/19/Z). A.W. was funded by the DFG via CRC 1292. Z.A. was funded by the DFG under Germany´s Excellence Strategy (EXC 2151) 390873048, SFB1454, SFBTR237 and the GRK 2168. A.D.G was supported by European Respiratory Society /short term fellowship (to A.D.G), Else Kröner Memorial Stipendium (to A.D.G), Werner Otto Stiftung (to A.D.G), Erich und Gertrud Roggenbuck Stiftung (to A.D.G), Hamburger Krebsgesellschaft Stiftung (to A.D.G). E.E. is a scientific cofounder of DayTwo and BiomX, and an advisor to Hello Inside, Igen, and Aposense in topics unrelated to this work.

Publisher Copyright:
© 2023 The Author(s)

Keywords

B cells
HCC
NAFL
NAFLD
NASH
fibrosis
gut-liver axis

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.jhep.2023.04.037

Cite this

Kotsiliti, E., Leone, V., Schuehle, S., Govaere, O., Li, H., Wolf, M. J., Horvatic, H., Bierwirth, S., Hundertmark, J., Inverso, D., Zizmare, L., Sarusi-Portuguez, A., Gupta, R., O'Connor, T., Giannou, A. D., Shiri, A. M., Schlesinger, Y., Beccaria, M. G., Rennert, C., ... Heikenwalder, M. (2023). Intestinal B cells license metabolic T-cell activation in NASH microbiota/antigen-independently and contribute to fibrosis by IgA-FcR signalling. Journal of Hepatology, 79(2), 296-313. https://doi.org/10.1016/j.jhep.2023.04.037

@article{47137a3b992b406497e5d93bfb256d18,

title = "Intestinal B cells license metabolic T-cell activation in NASH microbiota/antigen-independently and contribute to fibrosis by IgA-FcR signalling",

abstract = "Background & Aims: The progression of non-alcoholic steatohepatitis (NASH) to fibrosis and hepatocellular carcinoma (HCC) is aggravated by auto-aggressive T cells. The gut-liver axis contributes to NASH, but the mechanisms involved and the consequences for NASH-induced fibrosis and liver cancer remain unknown. We investigated the role of gastrointestinal B cells in the development of NASH, fibrosis and NASH-induced HCC. Methods: C57BL/6J wild-type (WT), B cell-deficient and different immunoglobulin-deficient or transgenic mice were fed distinct NASH-inducing diets or standard chow for 6 or 12 months, whereafter NASH, fibrosis, and NASH-induced HCC were assessed and analysed. Specific pathogen-free/germ-free WT and μMT mice (containing B cells only in the gastrointestinal tract) were fed a choline-deficient high-fat diet, and treated with an anti-CD20 antibody, whereafter NASH and fibrosis were assessed. Tissue biopsy samples from patients with simple steatosis, NASH and cirrhosis were analysed to correlate the secretion of immunoglobulins to clinicopathological features. Flow cytometry, immunohistochemistry and single-cell RNA-sequencing analysis were performed in liver and gastrointestinal tissue to characterise immune cells in mice and humans. Results: Activated intestinal B cells were increased in mouse and human NASH samples and licensed metabolic T-cell activation to induce NASH independently of antigen specificity and gut microbiota. Genetic or therapeutic depletion of systemic or gastrointestinal B cells prevented or reverted NASH and liver fibrosis. IgA secretion was necessary for fibrosis induction by activating CD11b+CCR2+F4/80+CD11c-FCGR1+ hepatic myeloid cells through an IgA-FcR signalling axis. Similarly, patients with NASH had increased numbers of activated intestinal B cells; additionally, we observed a positive correlation between IgA levels and activated FcRg+ hepatic myeloid cells, as well the extent of liver fibrosis. Conclusions: Intestinal B cells and the IgA-FcR signalling axis represent potential therapeutic targets for the treatment of NASH. Impact and Implications: There is currently no effective treatment for non-alcoholic steatohepatitis (NASH), which is associated with a substantial healthcare burden and is a growing risk factor for hepatocellular carcinoma (HCC). We have previously shown that NASH is an auto-aggressive condition aggravated, amongst others, by T cells. Therefore, we hypothesized that B cells might have a role in disease induction and progression. Our present work highlights that B cells have a dual role in NASH pathogenesis, being implicated in the activation of auto-aggressive T cells and the development of fibrosis via activation of monocyte-derived macrophages by secreted immunoglobulins (e.g., IgA). Furthermore, we show that the absence of B cells prevented HCC development. B cell-intrinsic signalling pathways, secreted immunoglobulins, and interactions of B cells with other immune cells are potential targets for combinatorial NASH therapies against inflammation and fibrosis.",

keywords = "B cells, HCC, NAFL, NAFLD, NASH, fibrosis, gut-liver axis",

author = "Elena Kotsiliti and Valentina Leone and Svenja Schuehle and Olivier Govaere and Hai Li and Wolf, {Monika J.} and Helena Horvatic and Sandra Bierwirth and Jana Hundertmark and Donato Inverso and Laimdota Zizmare and Avital Sarusi-Portuguez and Revant Gupta and Tracy O'Connor and Giannou, {Anastasios D.} and Shiri, {Ahmad Mustafa} and Yehuda Schlesinger and Beccaria, {Maria Garcia} and Charlotte Rennert and Dominik Pfister and Rupert {\"O}llinger and Iana Gadjalova and Pierluigi Ramadori and Mohammad Rahbari and Nuh Rahbari and Healy, {Marc E.} and Mirian Fern{\'a}ndez-Vaquero and Neda Yahoo and Jakob Janzen and Indrabahadur Singh and Chaofan Fan and Xinyuan Liu and Monika Rau and Martin Feuchtenberger and Eva Schwaneck and Wallace, {Sebastian J.} and Simon Cockell and John Wilson-Kanamori and Prakash Ramachandran and Celia Kho and Kendall, {Timothy J.} and Leblond, {Anne Laure} and Keppler, {Selina J.} and Piotr Bielecki and Katja Steiger and Maike Hofmann and Karsten Rippe and Horst Zitzelsberger and Achim Weber and Nisar Malek and Tom Luedde and Mihael Vucur and Augustin, {Hellmut G.} and Richard Flavell and Oren Parnas and Roland Rad and Olivier Pabst and Henderson, {Neil C.} and Samuel Huber and Andrew Macpherson and Percy Knolle and Manfred Claassen and Andreas Geier and Christoph Trautwein and Kristian Unger and Eran Elinav and Ari Waisman and Zeinab Abdullah and Dirk Haller and Frank Tacke and Anstee, {Quentin M.} and Mathias Heikenwalder",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s)",

year = "2023",

month = aug,

doi = "10.1016/j.jhep.2023.04.037",

language = "אנגלית",

volume = "79",

pages = "296--313",

journal = "Journal of Hepatology",

issn = "0168-8278",

publisher = "Elsevier",

number = "2",

}

Kotsiliti, E, Leone, V, Schuehle, S, Govaere, O, Li, H, Wolf, MJ, Horvatic, H, Bierwirth, S, Hundertmark, J, Inverso, D, Zizmare, L, Sarusi-Portuguez, A, Gupta, R, O'Connor, T, Giannou, AD, Shiri, AM, Schlesinger, Y, Beccaria, MG, Rennert, C, Pfister, D, Öllinger, R, Gadjalova, I, Ramadori, P, Rahbari, M, Rahbari, N, Healy, ME, Fernández-Vaquero, M, Yahoo, N, Janzen, J, Singh, I, Fan, C, Liu, X, Rau, M, Feuchtenberger, M, Schwaneck, E, Wallace, SJ, Cockell, S, Wilson-Kanamori, J, Ramachandran, P, Kho, C, Kendall, TJ, Leblond, AL, Keppler, SJ, Bielecki, P, Steiger, K, Hofmann, M, Rippe, K, Zitzelsberger, H, Weber, A, Malek, N, Luedde, T, Vucur, M, Augustin, HG, Flavell, R, Parnas, O, Rad, R, Pabst, O, Henderson, NC, Huber, S, Macpherson, A, Knolle, P, Claassen, M, Geier, A, Trautwein, C, Unger, K, Elinav, E, Waisman, A, Abdullah, Z, Haller, D, Tacke, F, Anstee, QM & Heikenwalder, M 2023, 'Intestinal B cells license metabolic T-cell activation in NASH microbiota/antigen-independently and contribute to fibrosis by IgA-FcR signalling', Journal of Hepatology, vol. 79, no. 2, pp. 296-313. https://doi.org/10.1016/j.jhep.2023.04.037

TY - JOUR

T1 - Intestinal B cells license metabolic T-cell activation in NASH microbiota/antigen-independently and contribute to fibrosis by IgA-FcR signalling

AU - Kotsiliti, Elena

AU - Leone, Valentina

AU - Schuehle, Svenja

AU - Govaere, Olivier

AU - Li, Hai

AU - Wolf, Monika J.

AU - Horvatic, Helena

AU - Bierwirth, Sandra

AU - Hundertmark, Jana

AU - Inverso, Donato

AU - Zizmare, Laimdota

AU - Sarusi-Portuguez, Avital

AU - Gupta, Revant

AU - O'Connor, Tracy

AU - Giannou, Anastasios D.

AU - Shiri, Ahmad Mustafa

AU - Schlesinger, Yehuda

AU - Beccaria, Maria Garcia

AU - Rennert, Charlotte

AU - Pfister, Dominik

AU - Öllinger, Rupert

AU - Gadjalova, Iana

AU - Ramadori, Pierluigi

AU - Rahbari, Mohammad

AU - Rahbari, Nuh

AU - Healy, Marc E.

AU - Fernández-Vaquero, Mirian

AU - Yahoo, Neda

AU - Janzen, Jakob

AU - Singh, Indrabahadur

AU - Fan, Chaofan

AU - Liu, Xinyuan

AU - Rau, Monika

AU - Feuchtenberger, Martin

AU - Schwaneck, Eva

AU - Wallace, Sebastian J.

AU - Cockell, Simon

AU - Wilson-Kanamori, John

AU - Ramachandran, Prakash

AU - Kho, Celia

AU - Kendall, Timothy J.

AU - Leblond, Anne Laure

AU - Keppler, Selina J.

AU - Bielecki, Piotr

AU - Steiger, Katja

AU - Hofmann, Maike

AU - Rippe, Karsten

AU - Zitzelsberger, Horst

AU - Weber, Achim

AU - Malek, Nisar

AU - Luedde, Tom

AU - Vucur, Mihael

AU - Augustin, Hellmut G.

AU - Flavell, Richard

AU - Parnas, Oren

AU - Rad, Roland

AU - Pabst, Olivier

AU - Henderson, Neil C.

AU - Huber, Samuel

AU - Macpherson, Andrew

AU - Knolle, Percy

AU - Claassen, Manfred

AU - Geier, Andreas

AU - Trautwein, Christoph

AU - Unger, Kristian

AU - Elinav, Eran

AU - Waisman, Ari

AU - Abdullah, Zeinab

AU - Haller, Dirk

AU - Tacke, Frank

AU - Anstee, Quentin M.

AU - Heikenwalder, Mathias

PY - 2023/8

Y1 - 2023/8

N2 - Background & Aims: The progression of non-alcoholic steatohepatitis (NASH) to fibrosis and hepatocellular carcinoma (HCC) is aggravated by auto-aggressive T cells. The gut-liver axis contributes to NASH, but the mechanisms involved and the consequences for NASH-induced fibrosis and liver cancer remain unknown. We investigated the role of gastrointestinal B cells in the development of NASH, fibrosis and NASH-induced HCC. Methods: C57BL/6J wild-type (WT), B cell-deficient and different immunoglobulin-deficient or transgenic mice were fed distinct NASH-inducing diets or standard chow for 6 or 12 months, whereafter NASH, fibrosis, and NASH-induced HCC were assessed and analysed. Specific pathogen-free/germ-free WT and μMT mice (containing B cells only in the gastrointestinal tract) were fed a choline-deficient high-fat diet, and treated with an anti-CD20 antibody, whereafter NASH and fibrosis were assessed. Tissue biopsy samples from patients with simple steatosis, NASH and cirrhosis were analysed to correlate the secretion of immunoglobulins to clinicopathological features. Flow cytometry, immunohistochemistry and single-cell RNA-sequencing analysis were performed in liver and gastrointestinal tissue to characterise immune cells in mice and humans. Results: Activated intestinal B cells were increased in mouse and human NASH samples and licensed metabolic T-cell activation to induce NASH independently of antigen specificity and gut microbiota. Genetic or therapeutic depletion of systemic or gastrointestinal B cells prevented or reverted NASH and liver fibrosis. IgA secretion was necessary for fibrosis induction by activating CD11b+CCR2+F4/80+CD11c-FCGR1+ hepatic myeloid cells through an IgA-FcR signalling axis. Similarly, patients with NASH had increased numbers of activated intestinal B cells; additionally, we observed a positive correlation between IgA levels and activated FcRg+ hepatic myeloid cells, as well the extent of liver fibrosis. Conclusions: Intestinal B cells and the IgA-FcR signalling axis represent potential therapeutic targets for the treatment of NASH. Impact and Implications: There is currently no effective treatment for non-alcoholic steatohepatitis (NASH), which is associated with a substantial healthcare burden and is a growing risk factor for hepatocellular carcinoma (HCC). We have previously shown that NASH is an auto-aggressive condition aggravated, amongst others, by T cells. Therefore, we hypothesized that B cells might have a role in disease induction and progression. Our present work highlights that B cells have a dual role in NASH pathogenesis, being implicated in the activation of auto-aggressive T cells and the development of fibrosis via activation of monocyte-derived macrophages by secreted immunoglobulins (e.g., IgA). Furthermore, we show that the absence of B cells prevented HCC development. B cell-intrinsic signalling pathways, secreted immunoglobulins, and interactions of B cells with other immune cells are potential targets for combinatorial NASH therapies against inflammation and fibrosis.

AB - Background & Aims: The progression of non-alcoholic steatohepatitis (NASH) to fibrosis and hepatocellular carcinoma (HCC) is aggravated by auto-aggressive T cells. The gut-liver axis contributes to NASH, but the mechanisms involved and the consequences for NASH-induced fibrosis and liver cancer remain unknown. We investigated the role of gastrointestinal B cells in the development of NASH, fibrosis and NASH-induced HCC. Methods: C57BL/6J wild-type (WT), B cell-deficient and different immunoglobulin-deficient or transgenic mice were fed distinct NASH-inducing diets or standard chow for 6 or 12 months, whereafter NASH, fibrosis, and NASH-induced HCC were assessed and analysed. Specific pathogen-free/germ-free WT and μMT mice (containing B cells only in the gastrointestinal tract) were fed a choline-deficient high-fat diet, and treated with an anti-CD20 antibody, whereafter NASH and fibrosis were assessed. Tissue biopsy samples from patients with simple steatosis, NASH and cirrhosis were analysed to correlate the secretion of immunoglobulins to clinicopathological features. Flow cytometry, immunohistochemistry and single-cell RNA-sequencing analysis were performed in liver and gastrointestinal tissue to characterise immune cells in mice and humans. Results: Activated intestinal B cells were increased in mouse and human NASH samples and licensed metabolic T-cell activation to induce NASH independently of antigen specificity and gut microbiota. Genetic or therapeutic depletion of systemic or gastrointestinal B cells prevented or reverted NASH and liver fibrosis. IgA secretion was necessary for fibrosis induction by activating CD11b+CCR2+F4/80+CD11c-FCGR1+ hepatic myeloid cells through an IgA-FcR signalling axis. Similarly, patients with NASH had increased numbers of activated intestinal B cells; additionally, we observed a positive correlation between IgA levels and activated FcRg+ hepatic myeloid cells, as well the extent of liver fibrosis. Conclusions: Intestinal B cells and the IgA-FcR signalling axis represent potential therapeutic targets for the treatment of NASH. Impact and Implications: There is currently no effective treatment for non-alcoholic steatohepatitis (NASH), which is associated with a substantial healthcare burden and is a growing risk factor for hepatocellular carcinoma (HCC). We have previously shown that NASH is an auto-aggressive condition aggravated, amongst others, by T cells. Therefore, we hypothesized that B cells might have a role in disease induction and progression. Our present work highlights that B cells have a dual role in NASH pathogenesis, being implicated in the activation of auto-aggressive T cells and the development of fibrosis via activation of monocyte-derived macrophages by secreted immunoglobulins (e.g., IgA). Furthermore, we show that the absence of B cells prevented HCC development. B cell-intrinsic signalling pathways, secreted immunoglobulins, and interactions of B cells with other immune cells are potential targets for combinatorial NASH therapies against inflammation and fibrosis.

KW - B cells

KW - HCC

KW - NAFL

KW - NAFLD

KW - NASH

KW - fibrosis

KW - gut-liver axis

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AN - SCOPUS:85163564325

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EP - 313

JO - Journal of Hepatology

JF - Journal of Hepatology

IS - 2

ER -

Intestinal B cells license metabolic T-cell activation in NASH microbiota/antigen-independently and contribute to fibrosis by IgA-FcR signalling

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Keywords

UN SDGs

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