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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Gut microbial molecules in behavioural and neurodegenerative conditions.
TL;DR: Bacterial metabolites with known or suspected neuromodulatory activity are described, mechanisms of signalling pathways from the gut microbiota to the brain are defined and direct effects that gut bacterial molecules are likely exerting on specific brain cells are discussed.
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The microbiome regulates amygdala-dependent fear recall.
Alan E. Hoban,Roman M. Stilling,Gerard M. Moloney,Fergus Shanahan,Timothy G. Dinan,Gerard Clarke,John F. Cryan +6 more
TL;DR: It is demonstrated for what is to the authors' knowledge the first time that the presence of the host microbiome is crucial for the appropriate behavioural response during amygdala-dependent memory retention.
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Programming bugs: microbiota and the developmental origins of brain health and disease
Martín Gabriel Codagnone,Simon Spichak,Siobhain M. O'Mahony,Olivia F. O’Leary,Gerard Clarke,Catherine Stanton,Timothy G. Dinan,John F. Cryan +7 more
TL;DR: Increasing evidence points to critical interactions among the microbiota, host genetics, and both the prenatal and postnatal environments to temporally program susceptibility to psychiatric disorders later in life.
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Gut microbiota from NLRP3-deficient mice ameliorates depressive-like behaviors by regulating astrocyte dysfunction via circHIPK2
Yuan Zhang,Rongrong Huang,Mengjing Cheng,Lirui Wang,Jie Chao,Jun-Xu Li,Peng Zheng,Peng Xie,Zhijun Zhang,Honghong Yao,Honghong Yao +10 more
TL;DR: This study illustrates the involvement of the Gut microbiota-circHIPK2-astrocyte axis in depression, providing translational evidence that transplantation of the gut microbiota from NLRP3 KO mice may serve as a novel therapeutic strategy for depression.
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Function and Dysfunction of Microglia during Brain Development: Consequences for Synapses and Neural Circuits.
TL;DR: This review critically appraise the recent literature on the alterations of microglia activity induced by environmental and genetic factors occurring at pre- and early post-natal stages and discusses the long-lasting consequences of early-life microglial perturbation on synaptic function and on vulnerability to neurodevelopmental and psychiatric disorders.
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