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Macrophage RAGE activation is proinflammatory in NASH
Gopanandan Parthasarathy, Amy S. Mauer, Naresh Golla, P. Vineeth Daniel, Lily H. Kim, Guneet S. Sidhu, George W. Marek III, Emilien Loeuillard, Anuradha Krishnan, Hyun Se Kim Lee, Kevin D. Pavelko, Michael Charlton, Petra Hirsova, Sumera I. Ilyas, Harmeet Malhi
Gopanandan Parthasarathy, Amy S. Mauer, Naresh Golla, P. Vineeth Daniel, Lily H. Kim, Guneet S. Sidhu, George W. Marek III, Emilien Loeuillard, Anuradha Krishnan, Hyun Se Kim Lee, Kevin D. Pavelko, Michael Charlton, Petra Hirsova, Sumera I. Ilyas, Harmeet Malhi
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Research Article Hepatology Inflammation

Macrophage RAGE activation is proinflammatory in NASH

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Abstract

Intrahepatic macrophages in nonalcoholic steatohepatitis (NASH) are heterogenous and include proinflammatory recruited monocyte-derived macrophages. The receptor for advanced glycation endproducts (RAGE) is expressed on macrophages and can be activated by damage associated molecular patterns (DAMPs) upregulated in NASH, yet the role of macrophage-specific RAGE signaling in NASH is unclear. Therefore, we hypothesized that RAGE-expressing macrophages are proinflammatory and mediate liver inflammation in NASH. Compared with healthy controls, RAGE expression was increased in liver biopsies from patients with NASH. In a high-fat, -fructose, and -cholesterol–induced (FFC)-induced murine model of NASH, RAGE expression was increased, specifically on recruited macrophages. FFC mice that received a pharmacological inhibitor of RAGE (TTP488), and myeloid-specific RAGE KO mice (RAGE-MKO) had attenuated liver injury associated with a reduced accumulation of RAGE+ recruited macrophages. Transcriptomics analysis suggested that pathways of macrophage and T cell activation were upregulated by FFC diet, inhibited by TTP488 treatment, and reduced in RAGE-MKO mice. Correspondingly, the secretome of ligand-stimulated BM-derived macrophages from RAGE-MKO mice had an attenuated capacity to activate CD8+ T cells. Our data implicate RAGE as what we propose to be a novel and potentially targetable mediator of the proinflammatory signaling of recruited macrophages in NASH.

Authors

Gopanandan Parthasarathy, Amy S. Mauer, Naresh Golla, P. Vineeth Daniel, Lily H. Kim, Guneet S. Sidhu, George W. Marek III, Emilien Loeuillard, Anuradha Krishnan, Hyun Se Kim Lee, Kevin D. Pavelko, Michael Charlton, Petra Hirsova, Sumera I. Ilyas, Harmeet Malhi

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Figure 12

Macrophage RAGE signaling mediates proinflammatory crosstalk with CD8+ T cells.

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Macrophage RAGE signaling mediates proinflammatory crosstalk with CD8+ T...
(A) Schematic depicting experimental design for demonstrating in vitro crosstalk between macrophages and CD8+ T cells. BM-derived macrophages (BMDM) isolated from WT or MKO mice were stimulated ex vivo with recombinant S100A11, a known RAGE agonist and the supernatant used to stimulate CD8+ T cells. Release of IFN-γ was measured by ELISA. (B) Quantification of IFN-γ release from CD8+ T cells measured by ELISA, normalized to untreated CD8+ T cells. The horizontal axis shows source of supernatant from treated BMDMs (n = 3 each; P < 0.05). Mann-Whitney U test was used for statistical analyses. (C) Proposed model depicting the proinflammatory role of RAGE+ macrophage–T cell crosstalk in NASH. Herein, we propose that RAGE upregulation occurs in human and murine NASH, specifically on recruited macrophages. RAGE activation on recruited macrophages, potentially by DAMPs, leads to upregulation of IRFs, which may mediate proinflammatory crosstalk with T cells. Interruption of RAGE with a pharmacological inhibitor or with RAGE MKO is sufficient to ameliorate NASH.

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