Spatially restricted and ontogenically distinct hepatic macrophages are required for tissue repair

Federico F. De Ponti; Anna Bujko; Zhuangzhuang Liu; Paul J. Collins; Sara Schuermans; Christian Maueroder; Seraja Amstelveen; Tinne Thoné; Liesbet Martens; John G. McKendrick; Pieter A. Louwe; Ana Sànchez Cruz; Wouter Saelens; Kylie P. Matchett; Kathryn J. Waller; Christian Zwicker; Aimée Buglar-Lamb; Bavo Vanneste; Fleur Parmentier; Mushida Binte Abdul Latib; Anneleen Remmerie; Lenard Kertesz; Anneke Kremer; Jérémy Verbeke; David Højland Ipsen; Dominik Reinhard Pfister; Zhaoyuan Liu; Martin Guilliams; Neil C. Henderson; Kodi Ravichandran; Pedro E. Marques; Charlotte L. Scott

doi:10.1016/j.immuni.2025.01.002

Spatially restricted and ontogenically distinct hepatic macrophages are required for tissue repair

Federico F. De Ponti
, Anna Bujko
, Zhuangzhuang Liu
, Paul J. Collins
, Sara Schuermans
, Christian Maueroder
, Seraja Amstelveen
, Tinne Thoné
, Liesbet Martens
, John G. McKendrick
, Pieter A. Louwe
, Ana Sànchez Cruz
, Wouter Saelens
, Kylie P. Matchett
, Kathryn J. Waller
, Christian Zwicker
, Aimée Buglar-Lamb
, Bavo Vanneste
, Fleur Parmentier
, Mushida Binte Abdul Latib

Anneleen Remmerie, Lenard Kertesz, Anneke Kremer, Jérémy Verbeke, David Højland Ipsen, Dominik Reinhard Pfister, Zhaoyuan Liu, Martin Guilliams, Neil C. Henderson, Kodi Ravichandran, Pedro E. Marques, Charlotte L. Scott

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

33 Scopus citations

Abstract

Our understanding of the functional heterogeneity of resident versus recruited macrophages in the diseased liver is limited. A population of recruited lipid-associated macrophages (LAMs) has been reported to populate the diseased liver alongside resident Kupffer cells (KCs). However, the precise roles of these distinct macrophage subsets remain elusive. Here, using proteogenomics, we have identified LAMs in multiple models of liver injury. Moreover, we found that this phenotype is not specific to recruited macrophages, as a subset of resident KCs can also adopt a LAM-like phenotype in the mouse and human liver. By combining genetic mouse models targeting the distinct populations, we determined that both recruited LAMs and resident LAM-like KCs play crucial roles in tissue repair. Specifically, triggering receptor expressed on myeloid cells 2 (TREM2) expression on either resident or recruited macrophages is required for the efficient clearance of dying cells, enhancing repair and preventing exacerbated fibrosis.

Original language	English
Pages (from-to)	362-380.e10
Journal	Immunity
Volume	58
Issue number	2
DOIs	https://doi.org/10.1016/j.immuni.2025.01.002
State	Published - Feb 11 2025

Keywords

Kupffer cells
LAM-like KCs
LAMs
MASLD
TREM2
acute liver injury
chronic liver injury
fibrosis
liver macrophages
repair

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10.1016/j.immuni.2025.01.002

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De Ponti, F. F., Bujko, A., Liu, Z., Collins, P. J., Schuermans, S., Maueroder, C., Amstelveen, S., Thoné, T., Martens, L., McKendrick, J. G., Louwe, P. A., Sànchez Cruz, A., Saelens, W., Matchett, K. P., Waller, K. J., Zwicker, C., Buglar-Lamb, A., Vanneste, B., Parmentier, F., ... Scott, C. L. (2025). Spatially restricted and ontogenically distinct hepatic macrophages are required for tissue repair. Immunity, 58(2), 362-380.e10. https://doi.org/10.1016/j.immuni.2025.01.002

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title = "Spatially restricted and ontogenically distinct hepatic macrophages are required for tissue repair",

abstract = "Our understanding of the functional heterogeneity of resident versus recruited macrophages in the diseased liver is limited. A population of recruited lipid-associated macrophages (LAMs) has been reported to populate the diseased liver alongside resident Kupffer cells (KCs). However, the precise roles of these distinct macrophage subsets remain elusive. Here, using proteogenomics, we have identified LAMs in multiple models of liver injury. Moreover, we found that this phenotype is not specific to recruited macrophages, as a subset of resident KCs can also adopt a LAM-like phenotype in the mouse and human liver. By combining genetic mouse models targeting the distinct populations, we determined that both recruited LAMs and resident LAM-like KCs play crucial roles in tissue repair. Specifically, triggering receptor expressed on myeloid cells 2 (TREM2) expression on either resident or recruited macrophages is required for the efficient clearance of dying cells, enhancing repair and preventing exacerbated fibrosis.",

keywords = "Kupffer cells, LAM-like KCs, LAMs, MASLD, TREM2, acute liver injury, chronic liver injury, fibrosis, liver macrophages, repair",

author = "\{De Ponti\}, \{Federico F.\} and Anna Bujko and Zhuangzhuang Liu and Collins, \{Paul J.\} and Sara Schuermans and Christian Maueroder and Seraja Amstelveen and Tinne Thon{\'e} and Liesbet Martens and McKendrick, \{John G.\} and Louwe, \{Pieter A.\} and \{S{\`a}nchez Cruz\}, Ana and Wouter Saelens and Matchett, \{Kylie P.\} and Waller, \{Kathryn J.\} and Christian Zwicker and Aim{\'e}e Buglar-Lamb and Bavo Vanneste and Fleur Parmentier and \{Binte Abdul Latib\}, Mushida and Anneleen Remmerie and Lenard Kertesz and Anneke Kremer and J{\'e}r{\'e}my Verbeke and Ipsen, \{David H{\o}jland\} and Pfister, \{Dominik Reinhard\} and Zhaoyuan Liu and Martin Guilliams and Henderson, \{Neil C.\} and Kodi Ravichandran and Marques, \{Pedro E.\} and Scott, \{Charlotte L.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

month = feb,

day = "11",

doi = "10.1016/j.immuni.2025.01.002",

language = "English",

volume = "58",

pages = "362--380.e10",

journal = "Immunity",

issn = "1074-7613",

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De Ponti, FF, Bujko, A, Liu, Z, Collins, PJ, Schuermans, S, Maueroder, C, Amstelveen, S, Thoné, T, Martens, L, McKendrick, JG, Louwe, PA, Sànchez Cruz, A, Saelens, W, Matchett, KP, Waller, KJ, Zwicker, C, Buglar-Lamb, A, Vanneste, B, Parmentier, F, Binte Abdul Latib, M, Remmerie, A, Kertesz, L, Kremer, A, Verbeke, J, Ipsen, DH, Pfister, DR, Liu, Z, Guilliams, M, Henderson, NC, Ravichandran, K, Marques, PE & Scott, CL 2025, 'Spatially restricted and ontogenically distinct hepatic macrophages are required for tissue repair', Immunity, vol. 58, no. 2, pp. 362-380.e10. https://doi.org/10.1016/j.immuni.2025.01.002

TY - JOUR

T1 - Spatially restricted and ontogenically distinct hepatic macrophages are required for tissue repair

AU - De Ponti, Federico F.

AU - Bujko, Anna

AU - Liu, Zhuangzhuang

AU - Collins, Paul J.

AU - Schuermans, Sara

AU - Maueroder, Christian

AU - Amstelveen, Seraja

AU - Thoné, Tinne

AU - Martens, Liesbet

AU - McKendrick, John G.

AU - Louwe, Pieter A.

AU - Sànchez Cruz, Ana

AU - Saelens, Wouter

AU - Matchett, Kylie P.

AU - Waller, Kathryn J.

AU - Zwicker, Christian

AU - Buglar-Lamb, Aimée

AU - Vanneste, Bavo

AU - Parmentier, Fleur

AU - Binte Abdul Latib, Mushida

AU - Remmerie, Anneleen

AU - Kertesz, Lenard

AU - Kremer, Anneke

AU - Verbeke, Jérémy

AU - Ipsen, David Højland

AU - Pfister, Dominik Reinhard

AU - Liu, Zhaoyuan

AU - Guilliams, Martin

AU - Henderson, Neil C.

AU - Ravichandran, Kodi

AU - Marques, Pedro E.

AU - Scott, Charlotte L.

PY - 2025/2/11

Y1 - 2025/2/11

N2 - Our understanding of the functional heterogeneity of resident versus recruited macrophages in the diseased liver is limited. A population of recruited lipid-associated macrophages (LAMs) has been reported to populate the diseased liver alongside resident Kupffer cells (KCs). However, the precise roles of these distinct macrophage subsets remain elusive. Here, using proteogenomics, we have identified LAMs in multiple models of liver injury. Moreover, we found that this phenotype is not specific to recruited macrophages, as a subset of resident KCs can also adopt a LAM-like phenotype in the mouse and human liver. By combining genetic mouse models targeting the distinct populations, we determined that both recruited LAMs and resident LAM-like KCs play crucial roles in tissue repair. Specifically, triggering receptor expressed on myeloid cells 2 (TREM2) expression on either resident or recruited macrophages is required for the efficient clearance of dying cells, enhancing repair and preventing exacerbated fibrosis.

AB - Our understanding of the functional heterogeneity of resident versus recruited macrophages in the diseased liver is limited. A population of recruited lipid-associated macrophages (LAMs) has been reported to populate the diseased liver alongside resident Kupffer cells (KCs). However, the precise roles of these distinct macrophage subsets remain elusive. Here, using proteogenomics, we have identified LAMs in multiple models of liver injury. Moreover, we found that this phenotype is not specific to recruited macrophages, as a subset of resident KCs can also adopt a LAM-like phenotype in the mouse and human liver. By combining genetic mouse models targeting the distinct populations, we determined that both recruited LAMs and resident LAM-like KCs play crucial roles in tissue repair. Specifically, triggering receptor expressed on myeloid cells 2 (TREM2) expression on either resident or recruited macrophages is required for the efficient clearance of dying cells, enhancing repair and preventing exacerbated fibrosis.

KW - Kupffer cells

KW - LAM-like KCs

KW - LAMs

KW - MASLD

KW - TREM2

KW - acute liver injury

KW - chronic liver injury

KW - fibrosis

KW - liver macrophages

KW - repair

UR - https://www.scopus.com/pages/publications/85216959629

U2 - 10.1016/j.immuni.2025.01.002

DO - 10.1016/j.immuni.2025.01.002

M3 - Article

C2 - 39862865

AN - SCOPUS:85216959629

SN - 1074-7613

VL - 58

SP - 362-380.e10

JO - Immunity

JF - Immunity

IS - 2

ER -

Spatially restricted and ontogenically distinct hepatic macrophages are required for tissue repair

Abstract

Keywords

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