The Gut Microbiota-induced Kynurenic Acid Recruits GPR35-positive Macrophages to Promote Experimental Encephalitis

Overview

Journal Cell Rep

Publisher Cell Press

Specialties Biology
Cell Biology
Molecular Biology

Date 2023 Aug 17

PMID 37590143

Authors

Kentaro Miyamoto

Tomohisa Sujino

Yosuke Harada

Hiroshi Ashida

Yusuke Yoshimatsu

Yuki Yonemoto

Yasuhiro Nemoto

Michio Tomura

Hassan Melhem

Jan Hendrik Niess

Toshihiko Suzuki

Toru Suzuki

Shohei Suzuki

Yuzo Koda

Ryuichi Okamoto

Yohei Mikami

Toshiaki Teratani

Kenji F Tanaka

Akihiko Yoshimura

Toshiro Sato

Takanori Kanai

Affiliations

Soon will be listed here.

Abstract

The intricate interplay between gut microbes and the onset of experimental autoimmune encephalomyelitis (EAE) remains poorly understood. Here, we uncover remarkable similarities between CD4 T cells in the spinal cord and their counterparts in the small intestine. Furthermore, we unveil a synergistic relationship between the microbiota, particularly enriched with the tryptophan metabolism gene EC:1.13.11.11, and intestinal cells. This symbiotic collaboration results in the biosynthesis of kynurenic acid (KYNA), which modulates the recruitment and aggregation of GPR35-positive macrophages. Subsequently, a robust T helper 17 (Th17) immune response is activated, ultimately triggering the onset of EAE. Conversely, modulating the KYNA-mediated GPR35 signaling in Cx3cr1 macrophages leads to a remarkable amelioration of EAE. These findings shed light on the crucial role of microbial-derived tryptophan metabolites in regulating immune responses within extraintestinal tissues.

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