实验性自身免疫性脑脊髓炎
免疫系统
生物
免疫学
表型
细菌
抗原
抗原呈递
中枢神经系统
炎症
电池类型
自身免疫
抗原提呈细胞
脑脊髓炎
微生物学
细胞
自身免疫性疾病
细胞生物学
微熔池
神经系统
共生
T细胞
趋化因子
分段丝状菌
抗体
运动性
细胞内寄生虫
免疫
作者
Seiga Komiyama,Y Kodaira,Rae Maeda,Yuki Sugiura,K. Suzuki,Aiko Saeki,Yusuke Kinashi,Hiroyuki Oguchi,Kokona Takano,Satoshi Onawa,Ako Matsui,Eita Sasaki,Kisara Hattori-Muroi,Shunsuke Kimura,Yumiko Fujimura,Yuyo Ka,Tomoyuki Ogura,Kenjiro Hanaoka,Minako Ito,Hiroshi Watarai
标识
DOI:10.1073/pnas.2506550123
摘要
Interleukin-17-producing γδT cells (γδT17 cells) play a dual role in immune regulation, serving as both protectors in various tissues and orchestrators of inflammatory responses in autoimmune diseases, including experimental autoimmune encephalomyelitis (EAE), a rodent model of multiple sclerosis. However, the ontology and repertoires of encephalitogenic γδT17 cells remain unclear. In this study, we demonstrate that the encephalitogenicity of γδT17 cells is conferred through microfold cell (M cell)-dependent uptake of commensal bacteria in Peyer’s patches. Specifically, CXCR6 hi Vγ6 + Vδ1 + invariant γδT17 cells are activated by specific commensal bacteria such as Lactobacillus spp., which stimulate TCR of CXCR6 hi Vγ6 + Vδ1 + invariant γδT17 cells. During the early stages of EAE, γδT17 cells infiltrate the central nervous system (CNS), initiating a type 17 inflammatory response. Our findings illustrate that Peyer’s patch M cells serve as a critical bridge, linking the pathological association between commensal bacteria and the onset of CNS inflammation.
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