Frontiers in Immunology (Oct 2018)

The Gut-Microglia Connection: Implications for Central Nervous System Diseases

  • Yiliang Wang,
  • Yiliang Wang,
  • Yiliang Wang,
  • Zhaoyang Wang,
  • Zhaoyang Wang,
  • Zhaoyang Wang,
  • Yun Wang,
  • Feng Li,
  • Feng Li,
  • Feng Li,
  • Jiaoyan Jia,
  • Jiaoyan Jia,
  • Jiaoyan Jia,
  • Xiaowei Song,
  • Xiaowei Song,
  • Xiaowei Song,
  • Xiaowei Song,
  • Shurong Qin,
  • Shurong Qin,
  • Shurong Qin,
  • Shurong Qin,
  • Rongze Wang,
  • Rongze Wang,
  • Rongze Wang,
  • Rongze Wang,
  • Fujun Jin,
  • Fujun Jin,
  • Kaio Kitazato,
  • Yifei Wang,
  • Yifei Wang,
  • Yifei Wang

DOI
https://doi.org/10.3389/fimmu.2018.02325
Journal volume & issue
Vol. 9

Abstract

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The importance of the gut microbiome in central nervous system (CNS) diseases has long been recognized; however, research into this connection is limited, in part, owing to a lack of convincing mechanisms because the brain is a distant target of the gut. Previous studies on the brain revealed that most of the CNS diseases affected by the gut microbiome are closely associated with microglial dysfunction. Microglia, the major CNS-resident macrophages, are crucial for the immune response of the CNS against infection and injury, as well as for brain development and function. However, the current understanding of the mechanisms controlling the maturation and function of microglia is obscure, especially regarding the extrinsic factors affecting microglial function during the developmental process. The gut microflora has been shown to significantly influence microglia from before birth until adulthood, and the metabolites generated by the microbiota regulate the inflammation response mediated by microglia in the CNS; this inspired our hypothesis that microglia act as a critical mediator between the gut microbiome and CNS diseases. Herein, we highlight and discuss current findings that show the influence of host microbiome, as a crucial extrinsic factor, on microglia within the CNS. In addition, we summarize the CNS diseases associated with both the host microbiome and microglia and explore the potential pathways by which the gut bacteria influence the pathogenesis of CNS diseases. Our work is thus a comprehensive theoretical foundation for studies on the gut-microglia connection in the development of CNS diseases; and provides great potential for researchers to target pathways associated with the gut-microglia connection and overcome CNS diseases.

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