Host microbiota constantly control maturation and function of microglia in the CNS
Daniel Erny,Anna Lena Hrabě de Angelis,Diego Jaitin,Peter Wieghofer,Ori Staszewski,Eyal David,Hadas Keren-Shaul,Tanel Mahlakõiv,Kristin Jakobshagen,Thorsten Buch,Vera Schwierzeck,Olaf Utermöhlen,Eunyoung Chun,Wendy S. Garrett,Kathy D. McCoy,Andreas Diefenbach,Peter Staeheli,Bärbel Stecher,Ido Amit,Marco Prinz +19 more
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TLDR
It is determined that short-chain fatty acids (SCFA), microbiota-derived bacterial fermentation products, regulated microglia homeostasis and mice deficient for the SCFA receptor FFAR2 mirroredmicroglia defects found under GF conditions, suggesting that host bacteria vitally regulate microglian maturation and function.Abstract:
As the tissue macrophages of the CNS, microglia are critically involved in diseases of the CNS. However, it remains unknown what controls their maturation and activation under homeostatic conditions. We observed substantial contributions of the host microbiota to microglia homeostasis, as germ-free (GF) mice displayed global defects in microglia with altered cell proportions and an immature phenotype, leading to impaired innate immune responses. Temporal eradication of host microbiota severely changed microglia properties. Limited microbiota complexity also resulted in defective microglia. In contrast, recolonization with a complex microbiota partially restored microglia features. We determined that short-chain fatty acids (SCFA), microbiota-derived bacterial fermentation products, regulated microglia homeostasis. Accordingly, mice deficient for the SCFA receptor FFAR2 mirrored microglia defects found under GF conditions. These findings suggest that host bacteria vitally regulate microglia maturation and function, whereas microglia impairment can be rectified to some extent by complex microbiota.read more
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Microglia and Neurodevelopmental Disorders.
John N. Lukens,Ukpong B. Eyo +1 more
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Huanglian Jiedu decoction remodels the periphery microenvironment to inhibit Alzheimer's disease progression based on the "brain-gut" axis through multiple integrated omics.
Xinru Gu,Junyi Zhou,Yanyan Zhou,Hongjie Wang,Nan Si,Wei Ren,Wei Zhao,Xiaorui Fan,Gao W,Xiaolu Wei,Jian Yang,Baolin Bian,Hai-Yu Zhao +12 more
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