Adipocyte autophagy limits gut inflammation by controlling oxylipin and IL-10

Felix Clemens Richter; Matthias Friedrich; Nadja Kampschulte; Klara Piletic; Ghada Alsaleh; Ramona Zummach; Julia Hecker; Mathilde Pohin; Nicholas Ilott; Irina Guschina; Sarah Karin Wideman; Errin Johnson; Mariana Borsa; Paula Hahn; Christophe Morriseau; Bruce D Hammock; Henk Simon Schipper; Claire M Edwards; Rudolf Zechner; Britta Siegmund; Carl Weidinger; Nils Helge Schebb; Fiona Powrie; Anna Katharina Simon

doi:10.15252/embj.2022112202

Adipocyte autophagy limits gut inflammation by controlling oxylipin and IL-10

Felix Clemens Richter, Matthias Friedrich, Nadja Kampschulte, Klara Piletic, Ghada Alsaleh, Ramona Zummach, Julia Hecker, Mathilde Pohin, Nicholas Ilott, Irina Guschina, Sarah Karin Wideman, Errin Johnson, Mariana Borsa, Paula Hahn, Christophe Morriseau, Bruce D Hammock, Henk Simon Schipper, Claire M Edwards, Rudolf Zechner, Britta SiegmundCarl Weidinger, Nils Helge Schebb, Fiona Powrie, Anna Katharina Simon

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Abstract

Lipids play a major role in inflammatory diseases by altering inflammatory cell functions, either through their function as energy substrates or as lipid mediators such as oxylipins. Autophagy, a lysosomal degradation pathway that limits inflammation, is known to impact on lipid availability, however, whether this controls inflammation remains unexplored. We found that upon intestinal inflammation visceral adipocytes upregulate autophagy and that adipocyte-specific loss of the autophagy gene Atg7 exacerbates inflammation. While autophagy decreased lipolytic release of free fatty acids, loss of the major lipolytic enzyme Pnpla2/Atgl in adipocytes did not alter intestinal inflammation, ruling out free fatty acids as anti-inflammatory energy substrates. Instead, Atg7-deficient adipose tissues exhibited an oxylipin imbalance, driven through an NRF2-mediated upregulation of Ephx1. This shift reduced secretion of IL-10 from adipose tissues, which was dependent on the cytochrome P450-EPHX pathway, and lowered circulating levels of IL-10 to exacerbate intestinal inflammation. These results suggest an underappreciated fat-gut crosstalk through an autophagy-dependent regulation of anti-inflammatory oxylipins via the cytochrome P450-EPHX pathway, indicating a protective effect of adipose tissues for distant inflammation.

Original language	English
Article number	e112202
Pages (from-to)	1-20
Journal	EMBO Journal
Volume	42
Issue number	6
Early online date	16 Feb 2023
DOIs	https://doi.org/10.15252/embj.2022112202
Publication status	Published - 15 Mar 2023

Keywords

adipocyte
autophagy
IL-10
inflammation
oxylipin

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The EMBO Journal - 2023 - RichterFinal published version, 5.24 MBLicence: CC BY

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Richter, F. C., Friedrich, M., Kampschulte, N., Piletic, K., Alsaleh, G., Zummach, R., Hecker, J., Pohin, M., Ilott, N., Guschina, I., Wideman, S. K., Johnson, E., Borsa, M., Hahn, P., Morriseau, C., Hammock, B. D., Schipper, H. S., Edwards, C. M., Zechner, R., ... Simon, A. K. (2023). Adipocyte autophagy limits gut inflammation by controlling oxylipin and IL-10. EMBO Journal, 42(6), 1-20. Article e112202. https://doi.org/10.15252/embj.2022112202

@article{69a850b6128040d0804f5c1648b54589,

title = "Adipocyte autophagy limits gut inflammation by controlling oxylipin and IL-10",

abstract = "Lipids play a major role in inflammatory diseases by altering inflammatory cell functions, either through their function as energy substrates or as lipid mediators such as oxylipins. Autophagy, a lysosomal degradation pathway that limits inflammation, is known to impact on lipid availability, however, whether this controls inflammation remains unexplored. We found that upon intestinal inflammation visceral adipocytes upregulate autophagy and that adipocyte-specific loss of the autophagy gene Atg7 exacerbates inflammation. While autophagy decreased lipolytic release of free fatty acids, loss of the major lipolytic enzyme Pnpla2/Atgl in adipocytes did not alter intestinal inflammation, ruling out free fatty acids as anti-inflammatory energy substrates. Instead, Atg7-deficient adipose tissues exhibited an oxylipin imbalance, driven through an NRF2-mediated upregulation of Ephx1. This shift reduced secretion of IL-10 from adipose tissues, which was dependent on the cytochrome P450-EPHX pathway, and lowered circulating levels of IL-10 to exacerbate intestinal inflammation. These results suggest an underappreciated fat-gut crosstalk through an autophagy-dependent regulation of anti-inflammatory oxylipins via the cytochrome P450-EPHX pathway, indicating a protective effect of adipose tissues for distant inflammation.",

keywords = "adipocyte, autophagy, IL-10, inflammation, oxylipin",

author = "Richter, {Felix Clemens} and Matthias Friedrich and Nadja Kampschulte and Klara Piletic and Ghada Alsaleh and Ramona Zummach and Julia Hecker and Mathilde Pohin and Nicholas Ilott and Irina Guschina and Wideman, {Sarah Karin} and Errin Johnson and Mariana Borsa and Paula Hahn and Christophe Morriseau and Hammock, {Bruce D} and Schipper, {Henk Simon} and Edwards, {Claire M} and Rudolf Zechner and Britta Siegmund and Carl Weidinger and Schebb, {Nils Helge} and Fiona Powrie and Simon, {Anna Katharina}",

note = "Funding Information: We thank Patricia Cotta Moreira, Daniel Andrew, and Mino Medghalchi from the Kennedy Institute animal facility for their excellent care and assistance of animal well-being. Dr. Alina Janney and Dr. Luca Ba{\`u} for their help with R coding. Discussions about experimental design for the transcriptomic experiments and sequencing were performed with help of Prof. Stephen Samson, Dr. Lada Koneva, Dr. Moustafa Attar, and the Oxford Genomics Centre. Histology was performed with the help from the Kennedy Institute Histology Facility, especially Dr. Ida Parisi. We thank the IBDome (SFB-TRR 241) for the IBD patient recruitment and the organization of resections. This work was supported by grants from the Wellcome Trust (Investigator award 103830/Z/14/Z and 220784/Z/20/Z to AKS, Investigator award 212240/Z/18/Z to FP, PhD studentship award 203803/Z16/Z to FCR, PhD studentship award 108869/Z/15/Z to SKW), the Kenneth Rainin Foundation (Innovator award 20210017 to AKS and FP, jointly), the Kennedy Trust Studentship (KEN192001 to KP), the Marie Sklodowska-Curie - European Fellowship (893676 to MB), Blood Cancer UK (15026 and 17012 to CME), the NIH – NIEHS (RIVER Award R35 ES030443-01 and Superfund Award – P42 ES004699) and the IBDome (Project-ID 375876048 – SFB TRR 241 B01 to BS, CW and JH). Li-cor Odyssey imager was funded by ERC AdG 670930. Funding Information: We thank Patricia Cotta Moreira, Daniel Andrew, and Mino Medghalchi from the Kennedy Institute animal facility for their excellent care and assistance of animal well‐being. Dr. Alina Janney and Dr. Luca Ba{\`u} for their help with R coding. Discussions about experimental design for the transcriptomic experiments and sequencing were performed with help of Prof. Stephen Samson, Dr. Lada Koneva, Dr. Moustafa Attar, and the Oxford Genomics Centre. Histology was performed with the help from the Kennedy Institute Histology Facility, especially Dr. Ida Parisi. We thank the IBDome (SFB‐TRR 241) for the IBD patient recruitment and the organization of resections. This work was supported by grants from the Wellcome Trust (Investigator award 103830/Z/14/Z and 220784/Z/20/Z to AKS, Investigator award 212240/Z/18/Z to FP, PhD studentship award 203803/Z16/Z to FCR, PhD studentship award 108869/Z/15/Z to SKW), the Kenneth Rainin Foundation (Innovator award 20210017 to AKS and FP, jointly), the Kennedy Trust Studentship (KEN192001 to KP), the Marie Sklodowska‐Curie ‐ European Fellowship (893676 to MB), Blood Cancer UK (15026 and 17012 to CME), the NIH – NIEHS (RIVER Award R35 ES030443‐01 and Superfund Award – P42 ES004699) and the IBDome (Project‐ID 375876048 – SFB TRR 241 B01 to BS, CW and JH). Li‐cor Odyssey imager was funded by ERC AdG 670930. Publisher Copyright: {\textcopyright} 2023 The Authors. Published under the terms of the CC BY 4.0 license.",

year = "2023",

month = mar,

day = "15",

doi = "10.15252/embj.2022112202",

language = "English",

volume = "42",

pages = "1--20",

journal = "EMBO Journal",

issn = "0261-4189",

publisher = "Springer Science and Business Media Deutschland GmbH",

number = "6",

}

Richter, FC, Friedrich, M, Kampschulte, N, Piletic, K, Alsaleh, G, Zummach, R, Hecker, J, Pohin, M, Ilott, N, Guschina, I, Wideman, SK, Johnson, E, Borsa, M, Hahn, P, Morriseau, C, Hammock, BD, Schipper, HS, Edwards, CM, Zechner, R, Siegmund, B, Weidinger, C, Schebb, NH, Powrie, F & Simon, AK 2023, 'Adipocyte autophagy limits gut inflammation by controlling oxylipin and IL-10', EMBO Journal, vol. 42, no. 6, e112202, pp. 1-20. https://doi.org/10.15252/embj.2022112202

TY - JOUR

T1 - Adipocyte autophagy limits gut inflammation by controlling oxylipin and IL-10

AU - Richter, Felix Clemens

AU - Friedrich, Matthias

AU - Kampschulte, Nadja

AU - Piletic, Klara

AU - Alsaleh, Ghada

AU - Zummach, Ramona

AU - Hecker, Julia

AU - Pohin, Mathilde

AU - Ilott, Nicholas

AU - Guschina, Irina

AU - Wideman, Sarah Karin

AU - Johnson, Errin

AU - Borsa, Mariana

AU - Hahn, Paula

AU - Morriseau, Christophe

AU - Hammock, Bruce D

AU - Schipper, Henk Simon

AU - Edwards, Claire M

AU - Zechner, Rudolf

AU - Siegmund, Britta

AU - Weidinger, Carl

AU - Schebb, Nils Helge

AU - Powrie, Fiona

AU - Simon, Anna Katharina

N1 - Funding Information: We thank Patricia Cotta Moreira, Daniel Andrew, and Mino Medghalchi from the Kennedy Institute animal facility for their excellent care and assistance of animal well-being. Dr. Alina Janney and Dr. Luca Baù for their help with R coding. Discussions about experimental design for the transcriptomic experiments and sequencing were performed with help of Prof. Stephen Samson, Dr. Lada Koneva, Dr. Moustafa Attar, and the Oxford Genomics Centre. Histology was performed with the help from the Kennedy Institute Histology Facility, especially Dr. Ida Parisi. We thank the IBDome (SFB-TRR 241) for the IBD patient recruitment and the organization of resections. This work was supported by grants from the Wellcome Trust (Investigator award 103830/Z/14/Z and 220784/Z/20/Z to AKS, Investigator award 212240/Z/18/Z to FP, PhD studentship award 203803/Z16/Z to FCR, PhD studentship award 108869/Z/15/Z to SKW), the Kenneth Rainin Foundation (Innovator award 20210017 to AKS and FP, jointly), the Kennedy Trust Studentship (KEN192001 to KP), the Marie Sklodowska-Curie - European Fellowship (893676 to MB), Blood Cancer UK (15026 and 17012 to CME), the NIH – NIEHS (RIVER Award R35 ES030443-01 and Superfund Award – P42 ES004699) and the IBDome (Project-ID 375876048 – SFB TRR 241 B01 to BS, CW and JH). Li-cor Odyssey imager was funded by ERC AdG 670930. Funding Information: We thank Patricia Cotta Moreira, Daniel Andrew, and Mino Medghalchi from the Kennedy Institute animal facility for their excellent care and assistance of animal well‐being. Dr. Alina Janney and Dr. Luca Baù for their help with R coding. Discussions about experimental design for the transcriptomic experiments and sequencing were performed with help of Prof. Stephen Samson, Dr. Lada Koneva, Dr. Moustafa Attar, and the Oxford Genomics Centre. Histology was performed with the help from the Kennedy Institute Histology Facility, especially Dr. Ida Parisi. We thank the IBDome (SFB‐TRR 241) for the IBD patient recruitment and the organization of resections. This work was supported by grants from the Wellcome Trust (Investigator award 103830/Z/14/Z and 220784/Z/20/Z to AKS, Investigator award 212240/Z/18/Z to FP, PhD studentship award 203803/Z16/Z to FCR, PhD studentship award 108869/Z/15/Z to SKW), the Kenneth Rainin Foundation (Innovator award 20210017 to AKS and FP, jointly), the Kennedy Trust Studentship (KEN192001 to KP), the Marie Sklodowska‐Curie ‐ European Fellowship (893676 to MB), Blood Cancer UK (15026 and 17012 to CME), the NIH – NIEHS (RIVER Award R35 ES030443‐01 and Superfund Award – P42 ES004699) and the IBDome (Project‐ID 375876048 – SFB TRR 241 B01 to BS, CW and JH). Li‐cor Odyssey imager was funded by ERC AdG 670930. Publisher Copyright: © 2023 The Authors. Published under the terms of the CC BY 4.0 license.

PY - 2023/3/15

Y1 - 2023/3/15

N2 - Lipids play a major role in inflammatory diseases by altering inflammatory cell functions, either through their function as energy substrates or as lipid mediators such as oxylipins. Autophagy, a lysosomal degradation pathway that limits inflammation, is known to impact on lipid availability, however, whether this controls inflammation remains unexplored. We found that upon intestinal inflammation visceral adipocytes upregulate autophagy and that adipocyte-specific loss of the autophagy gene Atg7 exacerbates inflammation. While autophagy decreased lipolytic release of free fatty acids, loss of the major lipolytic enzyme Pnpla2/Atgl in adipocytes did not alter intestinal inflammation, ruling out free fatty acids as anti-inflammatory energy substrates. Instead, Atg7-deficient adipose tissues exhibited an oxylipin imbalance, driven through an NRF2-mediated upregulation of Ephx1. This shift reduced secretion of IL-10 from adipose tissues, which was dependent on the cytochrome P450-EPHX pathway, and lowered circulating levels of IL-10 to exacerbate intestinal inflammation. These results suggest an underappreciated fat-gut crosstalk through an autophagy-dependent regulation of anti-inflammatory oxylipins via the cytochrome P450-EPHX pathway, indicating a protective effect of adipose tissues for distant inflammation.

AB - Lipids play a major role in inflammatory diseases by altering inflammatory cell functions, either through their function as energy substrates or as lipid mediators such as oxylipins. Autophagy, a lysosomal degradation pathway that limits inflammation, is known to impact on lipid availability, however, whether this controls inflammation remains unexplored. We found that upon intestinal inflammation visceral adipocytes upregulate autophagy and that adipocyte-specific loss of the autophagy gene Atg7 exacerbates inflammation. While autophagy decreased lipolytic release of free fatty acids, loss of the major lipolytic enzyme Pnpla2/Atgl in adipocytes did not alter intestinal inflammation, ruling out free fatty acids as anti-inflammatory energy substrates. Instead, Atg7-deficient adipose tissues exhibited an oxylipin imbalance, driven through an NRF2-mediated upregulation of Ephx1. This shift reduced secretion of IL-10 from adipose tissues, which was dependent on the cytochrome P450-EPHX pathway, and lowered circulating levels of IL-10 to exacerbate intestinal inflammation. These results suggest an underappreciated fat-gut crosstalk through an autophagy-dependent regulation of anti-inflammatory oxylipins via the cytochrome P450-EPHX pathway, indicating a protective effect of adipose tissues for distant inflammation.

KW - adipocyte

KW - autophagy

KW - IL-10

KW - inflammation

KW - oxylipin

UR - http://www.scopus.com/inward/record.url?scp=85148037179&partnerID=8YFLogxK

U2 - 10.15252/embj.2022112202

DO - 10.15252/embj.2022112202

M3 - Article

C2 - 36795015

SN - 0261-4189

VL - 42

SP - 1

EP - 20

JO - EMBO Journal

JF - EMBO Journal

IS - 6

M1 - e112202

ER -

Adipocyte autophagy limits gut inflammation by controlling oxylipin and IL-10

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