Development, Diversity, and Neurogenic Capacity of Enteric Glia

W. Boesmans; A. Nash; K.R. Tasnady; W.Y. Yang; L.A. Stamp; M.R.E.M. Hao

doi:10.3389/fcell.2021.775102

Development, Diversity, and Neurogenic Capacity of Enteric Glia

W. Boesmans^*, A. Nash, K.R. Tasnady, W.Y. Yang, L.A. Stamp, M.R.E.M. Hao^*

^*Corresponding author for this work

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

Abstract

Enteric glia are a fascinating population of cells. Initially identified in the gut wall as the "support" cells of the enteric nervous system, studies over the past 20 years have unveiled a vast array of functions carried out by enteric glia. They mediate enteric nervous system signalling and play a vital role in the local regulation of gut functions. Enteric glial cells interact with other gastrointestinal cell types such as those of the epithelium and immune system to preserve homeostasis, and are perceptive to luminal content. Their functional versatility and phenotypic heterogeneity are mirrored by an extensive level of plasticity, illustrated by their reactivity in conditions associated with enteric nervous system dysfunction and disease. As one of the hallmarks of their plasticity and extending their operative relationship with enteric neurons, enteric glia also display neurogenic potential. In this review, we focus on the development of enteric glial cells, and the mechanisms behind their heterogeneity in the adult gut. In addition, we discuss what is currently known about the role of enteric glia as neural precursors in the enteric nervous system.

Original language	English
Article number	775102
Number of pages	20
Journal	Frontiers in Cell and Developmental Biology
Volume	9
DOIs	https://doi.org/10.3389/fcell.2021.775102
Publication status	Published - 17 Jan 2022

Keywords

enteric nervous system
glial cells
neurogenesis
gliogenesis
neural crest
NEURAL CREST CELLS
NERVOUS-SYSTEM DEVELOPMENT
TRANSCRIPTION FACTOR SOX10
ENDOTHELIN-B RECEPTOR
HIRSCHSPRUNG DISEASE
SONIC HEDGEHOG
MICE LACKING
STEM-CELL
NEURONAL DIFFERENTIATION
PHENOTYPIC PLASTICITY

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title = "Development, Diversity, and Neurogenic Capacity of Enteric Glia",

abstract = "Enteric glia are a fascinating population of cells. Initially identified in the gut wall as the {"}support{"} cells of the enteric nervous system, studies over the past 20 years have unveiled a vast array of functions carried out by enteric glia. They mediate enteric nervous system signalling and play a vital role in the local regulation of gut functions. Enteric glial cells interact with other gastrointestinal cell types such as those of the epithelium and immune system to preserve homeostasis, and are perceptive to luminal content. Their functional versatility and phenotypic heterogeneity are mirrored by an extensive level of plasticity, illustrated by their reactivity in conditions associated with enteric nervous system dysfunction and disease. As one of the hallmarks of their plasticity and extending their operative relationship with enteric neurons, enteric glia also display neurogenic potential. In this review, we focus on the development of enteric glial cells, and the mechanisms behind their heterogeneity in the adult gut. In addition, we discuss what is currently known about the role of enteric glia as neural precursors in the enteric nervous system.",

keywords = "enteric nervous system, glial cells, neurogenesis, gliogenesis, neural crest, NEURAL CREST CELLS, NERVOUS-SYSTEM DEVELOPMENT, TRANSCRIPTION FACTOR SOX10, ENDOTHELIN-B RECEPTOR, HIRSCHSPRUNG DISEASE, SONIC HEDGEHOG, MICE LACKING, STEM-CELL, NEURONAL DIFFERENTIATION, PHENOTYPIC PLASTICITY",

author = "W. Boesmans and A. Nash and K.R. Tasnady and W.Y. Yang and L.A. Stamp and M.R.E.M. Hao",

note = "Funding Information: WB is supported by the Francqui Foundation and grants from the Research Foundation Flanders (FWO: G036320N) and the Dutch Research Council (NWO VIDI: 016.196.367). AN and MMH are funded by Cancer Australia (APP1181621), Cure Cancer, the CanToo Foundation, and the Jennifer Eggins Cancer Support Trust Fund. MMH is an ARC DECRA fellow (DE190101209). Funding Information: WB is supported by the Francqui Foundation and grants from the Research Foundation Flanders (FWO: G036320N) and the Dutch Publisher Copyright: Copyright {\textcopyright} 2022 Boesmans, Nash, Tasn{\'a}dy, Yang, Stamp and Hao.",

year = "2022",

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doi = "10.3389/fcell.2021.775102",

language = "English",

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TY - JOUR

T1 - Development, Diversity, and Neurogenic Capacity of Enteric Glia

AU - Boesmans, W.

AU - Nash, A.

AU - Tasnady, K.R.

AU - Yang, W.Y.

AU - Stamp, L.A.

AU - Hao, M.R.E.M.

N1 - Funding Information: WB is supported by the Francqui Foundation and grants from the Research Foundation Flanders (FWO: G036320N) and the Dutch Research Council (NWO VIDI: 016.196.367). AN and MMH are funded by Cancer Australia (APP1181621), Cure Cancer, the CanToo Foundation, and the Jennifer Eggins Cancer Support Trust Fund. MMH is an ARC DECRA fellow (DE190101209). Funding Information: WB is supported by the Francqui Foundation and grants from the Research Foundation Flanders (FWO: G036320N) and the Dutch Publisher Copyright: Copyright © 2022 Boesmans, Nash, Tasnády, Yang, Stamp and Hao.

PY - 2022/1/17

Y1 - 2022/1/17

N2 - Enteric glia are a fascinating population of cells. Initially identified in the gut wall as the "support" cells of the enteric nervous system, studies over the past 20 years have unveiled a vast array of functions carried out by enteric glia. They mediate enteric nervous system signalling and play a vital role in the local regulation of gut functions. Enteric glial cells interact with other gastrointestinal cell types such as those of the epithelium and immune system to preserve homeostasis, and are perceptive to luminal content. Their functional versatility and phenotypic heterogeneity are mirrored by an extensive level of plasticity, illustrated by their reactivity in conditions associated with enteric nervous system dysfunction and disease. As one of the hallmarks of their plasticity and extending their operative relationship with enteric neurons, enteric glia also display neurogenic potential. In this review, we focus on the development of enteric glial cells, and the mechanisms behind their heterogeneity in the adult gut. In addition, we discuss what is currently known about the role of enteric glia as neural precursors in the enteric nervous system.

AB - Enteric glia are a fascinating population of cells. Initially identified in the gut wall as the "support" cells of the enteric nervous system, studies over the past 20 years have unveiled a vast array of functions carried out by enteric glia. They mediate enteric nervous system signalling and play a vital role in the local regulation of gut functions. Enteric glial cells interact with other gastrointestinal cell types such as those of the epithelium and immune system to preserve homeostasis, and are perceptive to luminal content. Their functional versatility and phenotypic heterogeneity are mirrored by an extensive level of plasticity, illustrated by their reactivity in conditions associated with enteric nervous system dysfunction and disease. As one of the hallmarks of their plasticity and extending their operative relationship with enteric neurons, enteric glia also display neurogenic potential. In this review, we focus on the development of enteric glial cells, and the mechanisms behind their heterogeneity in the adult gut. In addition, we discuss what is currently known about the role of enteric glia as neural precursors in the enteric nervous system.

KW - enteric nervous system

KW - glial cells

KW - neurogenesis

KW - gliogenesis

KW - neural crest

KW - NEURAL CREST CELLS

KW - NERVOUS-SYSTEM DEVELOPMENT

KW - TRANSCRIPTION FACTOR SOX10

KW - ENDOTHELIN-B RECEPTOR

KW - HIRSCHSPRUNG DISEASE

KW - SONIC HEDGEHOG

KW - MICE LACKING

KW - STEM-CELL

KW - NEURONAL DIFFERENTIATION

KW - PHENOTYPIC PLASTICITY

U2 - 10.3389/fcell.2021.775102

DO - 10.3389/fcell.2021.775102

M3 - (Systematic) Review article

C2 - 35111752

SN - 2296-634X

VL - 9

JO - Frontiers in Cell and Developmental Biology

JF - Frontiers in Cell and Developmental Biology

M1 - 775102

ER -

Development, Diversity, and Neurogenic Capacity of Enteric Glia

Abstract

Keywords

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