Neurodevelopment: Lineage-dependent spatial and functional organization of the mammalian enteric nervous system

Reena Lasrado; Werend Boesmans; Jens Kleinjung; Carmen Pin; Donald Bell; Leena Bhaw; Sarah McCallum; Hui Zong; Liqun Luo; Hans Clevers; Pieter Vanden Berghe; Vassilis Pachnis

doi:10.1126/science.aam7511

Neurodevelopment: Lineage-dependent spatial and functional organization of the mammalian enteric nervous system

Reena Lasrado, Werend Boesmans, Jens Kleinjung, Carmen Pin, Donald Bell, Leena Bhaw, Sarah McCallum, Hui Zong, Liqun Luo, Hans Clevers, Pieter Vanden Berghe, Vassilis Pachnis

Onderzoeksoutput: Bijdrage aan tijdschrift › Artikel › peer review

121 Citaten (Scopus)

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The enteric nervous system(ENS) is essential for digestive function and gut homeostasis. Here we show that the amorphous neuroglia networks of the mouse ENS are composed of overlapping clonal units founded by postmigratory neural crest-derived progenitors.The spatial configuration of ENS clones depends on proliferation-driven local interactions of ENS progenitors with lineally unrelated neuroectodermal cells, the ordered colonization of the serosa-mucosa axis by clonal descendants, and gut expansion. Single-cell transcriptomics and mutagenesis analysis delineated dynamic molecular states of ENS progenitors and identified RETas a regulator of neurogenic commitment. Clonally related enteric neurons exhibit synchronous activity in response to network stimulation. Thus, lineage relationships underpin the organization of the peripheral nervous system.

Originele taal-2	Engels
Pagina's (van-tot)	722-726
Aantal pagina's	5
Tijdschrift	Science
Volume	356
Nummer van het tijdschrift	6339
DOI's	https://doi.org/10.1126/science.aam7511
Status	Gepubliceerd - 19 mei 2017
Extern gepubliceerd	Ja

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title = "Neurodevelopment: Lineage-dependent spatial and functional organization of the mammalian enteric nervous system",

abstract = "The enteric nervous system(ENS) is essential for digestive function and gut homeostasis. Here we show that the amorphous neuroglia networks of the mouse ENS are composed of overlapping clonal units founded by postmigratory neural crest-derived progenitors.The spatial configuration of ENS clones depends on proliferation-driven local interactions of ENS progenitors with lineally unrelated neuroectodermal cells, the ordered colonization of the serosa-mucosa axis by clonal descendants, and gut expansion. Single-cell transcriptomics and mutagenesis analysis delineated dynamic molecular states of ENS progenitors and identified RETas a regulator of neurogenic commitment. Clonally related enteric neurons exhibit synchronous activity in response to network stimulation. Thus, lineage relationships underpin the organization of the peripheral nervous system.",

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AU - Lasrado, Reena

AU - Boesmans, Werend

AU - Kleinjung, Jens

AU - Pin, Carmen

AU - Bell, Donald

AU - Bhaw, Leena

AU - McCallum, Sarah

AU - Zong, Hui

AU - Luo, Liqun

AU - Clevers, Hans

AU - Vanden Berghe, Pieter

AU - Pachnis, Vassilis

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N2 - The enteric nervous system(ENS) is essential for digestive function and gut homeostasis. Here we show that the amorphous neuroglia networks of the mouse ENS are composed of overlapping clonal units founded by postmigratory neural crest-derived progenitors.The spatial configuration of ENS clones depends on proliferation-driven local interactions of ENS progenitors with lineally unrelated neuroectodermal cells, the ordered colonization of the serosa-mucosa axis by clonal descendants, and gut expansion. Single-cell transcriptomics and mutagenesis analysis delineated dynamic molecular states of ENS progenitors and identified RETas a regulator of neurogenic commitment. Clonally related enteric neurons exhibit synchronous activity in response to network stimulation. Thus, lineage relationships underpin the organization of the peripheral nervous system.

AB - The enteric nervous system(ENS) is essential for digestive function and gut homeostasis. Here we show that the amorphous neuroglia networks of the mouse ENS are composed of overlapping clonal units founded by postmigratory neural crest-derived progenitors.The spatial configuration of ENS clones depends on proliferation-driven local interactions of ENS progenitors with lineally unrelated neuroectodermal cells, the ordered colonization of the serosa-mucosa axis by clonal descendants, and gut expansion. Single-cell transcriptomics and mutagenesis analysis delineated dynamic molecular states of ENS progenitors and identified RETas a regulator of neurogenic commitment. Clonally related enteric neurons exhibit synchronous activity in response to network stimulation. Thus, lineage relationships underpin the organization of the peripheral nervous system.

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Neurodevelopment: Lineage-dependent spatial and functional organization of the mammalian enteric nervous system

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