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Macrophages expressing macrophage receptor with collagen structure attenuate liver fibrosis through a tissue restoration phenotype
Sofia Jerez, Shawna A. Cooper, Usman Yaqoob, Maleeha F. Kalaiger, Abid A. Anwar, Mandy Wong, Bushra Arif, Luke C. Doskey, Maria Hernandez-Tejero, William A. Sherman, Ruben De Boeck, Ying Li, Moira B. Hilscher, Enis Kostallari, Nidhi Jalan-Sakrikar, Sheng Cao, Vijay H. Shah
Sofia Jerez, Shawna A. Cooper, Usman Yaqoob, Maleeha F. Kalaiger, Abid A. Anwar, Mandy Wong, Bushra Arif, Luke C. Doskey, Maria Hernandez-Tejero, William A. Sherman, Ruben De Boeck, Ying Li, Moira B. Hilscher, Enis Kostallari, Nidhi Jalan-Sakrikar, Sheng Cao, Vijay H. Shah
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Research Article Cell biology Hepatology

Macrophages expressing macrophage receptor with collagen structure attenuate liver fibrosis through a tissue restoration phenotype

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Abstract

Liver macrophages are central in maintaining hepatic homeostasis and mediating immune responses during liver injury, including fibrosis. Macrophages may have proinflammatory or antiinflammatory properties, but which properties influence fibrosis remains unclear. To explore the role of macrophages in liver fibrosis, we performed single-cell RNA-seq in a mouse model of liver injury and found that macrophage diversity was increased. Marco was among the most significantly upregulated genes, and a population of Marcohi macrophages increased with injury and spatially segregated to nonfibrotic areas. The macrophage receptor with collagenous structure (MARCO) protein is a scavenger receptor expressed by specific subsets of macrophages, and its role in liver fibrosis is unclear. In vitro induction of Marco in bone marrow–derived macrophages decreased proinflammatory gene expression, increased antiinflammatory and antifibrotic gene expression, and enhanced phagocytosis, indicating a restorative phenotype. Adoptive transfer of MARCO+ macrophages in a mouse model of liver fibrosis reduced the expression of extracellular matrix–associated (ECM-associated) genes in hepatic stellate cells (HSCs) and reduced collagen deposition, which did not occur with the transfer of MARCO– macrophages. Therefore, MARCO+ macrophages have a tissue restorative role in the liver and attenuate fibrogenesis through interaction with HSCs, thereby providing a potential therapeutic pathway for liver fibrosis.

Authors

Sofia Jerez, Shawna A. Cooper, Usman Yaqoob, Maleeha F. Kalaiger, Abid A. Anwar, Mandy Wong, Bushra Arif, Luke C. Doskey, Maria Hernandez-Tejero, William A. Sherman, Ruben De Boeck, Ying Li, Moira B. Hilscher, Enis Kostallari, Nidhi Jalan-Sakrikar, Sheng Cao, Vijay H. Shah

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Figure 7

Adoptive transfer of Marco+ macrophages in vivo induces phenotypic changes in HSCs.

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Adoptive transfer of Marco+ macrophages in vivo induces phenotypic chang...
(A) Regions of interest (ROI) for GeoMx DSP were selected based on IBA1+ and MARCO+ immunofluorescence staining. MARCOHi ROIs are MARCO+IBA1+ (yellow), and MARCOLo ROIs are MARCO–IBA1+ (red). Scale bar: 125 μm. (B) Marco transcript levels across all of the segments and ROIs for quality control. (C) Heatmap shows Extracellular gene expression fold change for HSC in Marcohi versus Marcolo ROIs. The first column shows CCl4-treated mice that did not receive cell transfer, and the second column shows CCl4-treated mice that received cell transfer. Rows were not clustered for this 2 column comparison, and the color gradient indicates the magnitude of fold change for MarcoHi versus Marcolo across all analyzed genes. Extracellular genes highlighted in the saline group are reduced in Marcohi ROI with cell transfer. Extracellular gene list obtained from Gene Ontology consortium (www.geneontology.org). (D) Volcano plot of differentially expressed genes for DESMIN+ segments from MARCOHi compared with MARCOLo ROI after treatment with MARCO+ BMDMs. (E) IPA showing reductions in ECM-related pathways in DESMIN+ segments after MARCO+ BMDM cell transfer treatment. Scale bar: 125 μm. P values were calculated by IPA using a right-tailed Fisher’s exact test.

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