Microbiota Modulate Anxiety-Like Behavior and Endocrine Abnormalities in Hypothalamic-Pituitary-Adrenal Axis

Microbiota Modulate Anxiety-Like Behavior and Endocrine Abnormalities in Hypothalamic-Pituitary-Adrenal Axis

Intestinal microbes are an important system in the human body, with significant effects on behavior. An increasing body of research indicates that intestinal microbes affect brain function and neurogenesis, including sensitivity to stress. To investigate the effects of microbial colonization on beha...

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Published in:Frontiers in cellular and infection microbiology Vol. 7; p. 489
Main Authors: Huo, Ran, Zeng, Benhua, Zeng, Li, Cheng, Ke, Li, Bo, Luo, Yuanyuan, Wang, Haiyang, Zhou, Chanjuan, Fang, Liang, Li, Wenxia, Niu, Rong, Wei, Hong, Xie, Peng
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 30-11-2017
Subjects:
CRS model
HPA axis
intestinal microbes
Microbiology
microbiota-gut-brain axis
stress-related diseases
CRS model
microbiota-gut-brain axis
stress-related diseases
HPA axis
intestinal microbes
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Summary:Intestinal microbes are an important system in the human body, with significant effects on behavior. An increasing body of research indicates that intestinal microbes affect brain function and neurogenesis, including sensitivity to stress. To investigate the effects of microbial colonization on behavior, we examined behavioral changes associated with hormones and hormone receptors in the hypothalamic-pituitary-adrenal (HPA) axis under stress. We tested germ-free (GF) mice and specific pathogen-free (SPF) mice, divided into four groups. A chronic restraint stress (CRS) protocol was utilized to induce external pressure in two stress groups by restraining mice in a conical centrifuge tube for 4 h per day for 21 days. After CRS, Initially, GF restraint-stressed mice explored more time than SPF restraint-stressed mice in the center and total distance of the OFT. Moreover, the CRH, ACTH, CORT, and ALD levels in HPA axis of GF restraint-stressed mice exhibited a significantly greater increase than those of SPF restraint-stressed mice. Finally, the Crhr1 mRNA levels of GF CRS mice were increased compared with SPF CRS mice. However, the Nr3c2 mRNA levels of GF CRS mice were decreased compared with SPF CRS mice. All results revealed that SPF mice exhibited more anxiety-like behavior than GF mice under the same external stress. Moreover, we also found that GF mice exhibited significant differences in, hormones, and hormone receptors compared with SPF mice. In conclusion, Imbalances of the HPA axis caused by intestinal microbes could affect the neuroendocrine system in the brain, resulting in an anxiety-like behavioral phenotype. This study suggested that intervention into intestinal microflora may provide a new approach for treating stress-related diseases.
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These authors have contributed equally to this work.
Reviewed by: Valerio Iebba, Sapienza Università di Roma, Italy; Guoqiang Zhu, Yangzhou University, China
Edited by: Michele Marie Kosiewicz, University of Louisville, United States
ISSN:2235-2988
2235-2988
DOI:10.3389/fcimb.2017.00489