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. 2024 May;629(8013):901-909.
doi: 10.1038/s41586-024-07372-6. Epub 2024 Apr 24.

Periportal macrophages protect against commensal-driven liver inflammation

Yu Miyamoto  1   2   3 Junichi Kikuta  1   2   3   4 Takahiro Matsui  1   5 Tetsuo Hasegawa  1 Kentaro Fujii  1   2   3 Daisuke Okuzaki  2   6 Yu-Chen Liu  2   6 Takuya Yoshioka  7 Shigeto Seno  8 Daisuke Motooka  2   6 Yutaka Uchida  1   2   3   4 Erika Yamashita  1   2   3 Shogo Kobayashi  9 Hidetoshi Eguchi  9 Eiichi Morii  5 Karl Tryggvason  10 Takashi Shichita  11 Hisako Kayama  2   12 Koji Atarashi  13 Jun Kunisawa  7 Kenya Honda  13 Kiyoshi Takeda  2   12 Masaru Ishii  14   15   16   17
Affiliations

Periportal macrophages protect against commensal-driven liver inflammation

Yu Miyamoto et al. Nature. 2024 May.

Abstract

The liver is the main gateway from the gut, and the unidirectional sinusoidal flow from portal to central veins constitutes heterogenous zones, including the periportal vein (PV) and the pericentral vein zones1-5. However, functional differences in the immune system in each zone remain poorly understood. Here intravital imaging revealed that inflammatory responses are suppressed in PV zones. Zone-specific single-cell transcriptomics detected a subset of immunosuppressive macrophages enriched in PV zones that express high levels of interleukin-10 and Marco, a scavenger receptor that sequesters pro-inflammatory pathogen-associated molecular patterns and damage-associated molecular patterns, and consequently suppress immune responses. Induction of Marco+ immunosuppressive macrophages depended on gut microbiota. In particular, a specific bacterial family, Odoribacteraceae, was identified to induce this macrophage subset through its postbiotic isoallolithocholic acid. Intestinal barrier leakage resulted in inflammation in PV zones, which was markedly augmented in Marco-deficient conditions. Chronic liver inflammatory diseases such as primary sclerosing cholangitis (PSC) and non-alcoholic steatohepatitis (NASH) showed decreased numbers of Marco+ macrophages. Functional ablation of Marco+ macrophages led to PSC-like inflammatory phenotypes related to colitis and exacerbated steatosis in NASH in animal experimental models. Collectively, commensal bacteria induce Marco+ immunosuppressive macrophages, which consequently limit excessive inflammation at the gateway of the liver. Failure of this self-limiting system promotes hepatic inflammatory disorders such as PSC and NASH.

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