Impact of microbiota on central nervous system and neurological diseases: The gut-brain axis

Qianquan Ma; Changsheng Xing; Wenyong Long; Helen Y. Wang; Qing Liu; Rong Fu Wang

doi:10.1186/s12974-019-1434-3

Impact of microbiota on central nervous system and neurological diseases: The gut-brain axis

Qianquan Ma, Changsheng Xing, Wenyong Long, Helen Y. Wang, Qing Liu, Rong Fu Wang

Research output: Contribution to journal › Review article › peer-review

409 Scopus citations

Abstract

Development of central nervous system (CNS) is regulated by both intrinsic and peripheral signals. Previous studies have suggested that environmental factors affect neurological activities under both physiological and pathological conditions. Although there is anatomical separation, emerging evidence has indicated the existence of bidirectional interaction between gut microbiota, i.e., (diverse microorganisms colonizing human intestine), and brain. The cross-talk between gut microbiota and brain may have crucial impact during basic neurogenerative processes, in neurodegenerative disorders and tumors of CNS. In this review, we discuss the biological interplay between gut-brain axis, and further explore how this communication may be dysregulated in neurological diseases. Further, we highlight new insights in modification of gut microbiota composition, which may emerge as a promising therapeutic approach to treat CNS disorders.

Original language	English (US)
Article number	53
Journal	Journal of Neuroinflammation
Volume	16
Issue number	1
DOIs	https://doi.org/10.1186/s12974-019-1434-3
State	Published - 2019

Keywords

Central nervous system
Glioma
Gut microbiota
Gut-brain axis
Immune signaling
Neurological disorder

ASJC Scopus subject areas

Neuroscience(all)
Immunology
Neurology
Cellular and Molecular Neuroscience

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10.1186/s12974-019-1434-3

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title = "Impact of microbiota on central nervous system and neurological diseases: The gut-brain axis",

abstract = "Development of central nervous system (CNS) is regulated by both intrinsic and peripheral signals. Previous studies have suggested that environmental factors affect neurological activities under both physiological and pathological conditions. Although there is anatomical separation, emerging evidence has indicated the existence of bidirectional interaction between gut microbiota, i.e., (diverse microorganisms colonizing human intestine), and brain. The cross-talk between gut microbiota and brain may have crucial impact during basic neurogenerative processes, in neurodegenerative disorders and tumors of CNS. In this review, we discuss the biological interplay between gut-brain axis, and further explore how this communication may be dysregulated in neurological diseases. Further, we highlight new insights in modification of gut microbiota composition, which may emerge as a promising therapeutic approach to treat CNS disorders.",

keywords = "Central nervous system, Glioma, Gut microbiota, Gut-brain axis, Immune signaling, Neurological disorder",

author = "Qianquan Ma and Changsheng Xing and Wenyong Long and Wang, {Helen Y.} and Qing Liu and Wang, {Rong Fu}",

note = "Funding Information: This work was supported in part by grants from the NCI, NIH (R01CA101795 and U54CA210181), Cancer Prevention and Research Institute of Texas (CPRIT; DP150099, RP150611 and RP170537), Department of Defense (DoD) CDMRP BCRP (BC151081), as well as grants from the National Key Technology Research and Development Program of the Ministry of Science and Technology of China (grant number 2014BAI04B01). Publisher Copyright: {\textcopyright} 2019 The Author(s).",

year = "2019",

doi = "10.1186/s12974-019-1434-3",

language = "English (US)",

volume = "16",

journal = "Journal of Neuroinflammation",

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TY - JOUR

T1 - Impact of microbiota on central nervous system and neurological diseases

T2 - The gut-brain axis

AU - Ma, Qianquan

AU - Xing, Changsheng

AU - Long, Wenyong

AU - Wang, Helen Y.

AU - Liu, Qing

AU - Wang, Rong Fu

N1 - Funding Information: This work was supported in part by grants from the NCI, NIH (R01CA101795 and U54CA210181), Cancer Prevention and Research Institute of Texas (CPRIT; DP150099, RP150611 and RP170537), Department of Defense (DoD) CDMRP BCRP (BC151081), as well as grants from the National Key Technology Research and Development Program of the Ministry of Science and Technology of China (grant number 2014BAI04B01). Publisher Copyright: © 2019 The Author(s).

PY - 2019

Y1 - 2019

N2 - Development of central nervous system (CNS) is regulated by both intrinsic and peripheral signals. Previous studies have suggested that environmental factors affect neurological activities under both physiological and pathological conditions. Although there is anatomical separation, emerging evidence has indicated the existence of bidirectional interaction between gut microbiota, i.e., (diverse microorganisms colonizing human intestine), and brain. The cross-talk between gut microbiota and brain may have crucial impact during basic neurogenerative processes, in neurodegenerative disorders and tumors of CNS. In this review, we discuss the biological interplay between gut-brain axis, and further explore how this communication may be dysregulated in neurological diseases. Further, we highlight new insights in modification of gut microbiota composition, which may emerge as a promising therapeutic approach to treat CNS disorders.

AB - Development of central nervous system (CNS) is regulated by both intrinsic and peripheral signals. Previous studies have suggested that environmental factors affect neurological activities under both physiological and pathological conditions. Although there is anatomical separation, emerging evidence has indicated the existence of bidirectional interaction between gut microbiota, i.e., (diverse microorganisms colonizing human intestine), and brain. The cross-talk between gut microbiota and brain may have crucial impact during basic neurogenerative processes, in neurodegenerative disorders and tumors of CNS. In this review, we discuss the biological interplay between gut-brain axis, and further explore how this communication may be dysregulated in neurological diseases. Further, we highlight new insights in modification of gut microbiota composition, which may emerge as a promising therapeutic approach to treat CNS disorders.

KW - Central nervous system

KW - Glioma

KW - Gut microbiota

KW - Gut-brain axis

KW - Immune signaling

KW - Neurological disorder

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Impact of microbiota on central nervous system and neurological diseases: The gut-brain axis

Abstract

Keywords

ASJC Scopus subject areas

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