Prospective identification of functionally distinct stem cells and neurosphere-initiating cells in adult mouse forebrain

Prospective identification of functionally distinct stem cells and neurosphere-initiating cells in adult mouse forebrain

Neurosphere formation is commonly used as a surrogate for neural stem cell (NSC) function but the relationship between neurosphere-initiating cells (NICs) and NSCs remains unclear. We prospectively identified, and isolated by flow cytometry, adult mouse lateral ventricle subventricular zone (SVZ) NI...

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Main Authors: John K Mich, Robert AJ Signer, Daisuke Nakada, André Pineda, Rebecca J Burgess, Tou Yia Vue, Jane E Johnson, Sean J Morrison
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2014-05-01
Series:eLife
Subjects:
stem cell
forebrain
fate-mapping
prospective identification
Bmi-1
Online Access:https://elifesciences.org/articles/02669
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spelling doaj-dc9c7262b93446f1adca677ce5b02c372021-05-04T23:06:54ZengeLife Sciences Publications LtdeLife2050-084X2014-05-01310.7554/eLife.02669Prospective identification of functionally distinct stem cells and neurosphere-initiating cells in adult mouse forebrainJohn K Mich0Robert AJ Signer1Daisuke Nakada2André Pineda3Rebecca J Burgess4Tou Yia Vue5Jane E Johnson6Sean J Morrison7Department of Pediatrics, Children's Research Institute, Howard Hughes Medical Institute, University of Texas Southwestern Medical Center, Dallas, United StatesDepartment of Pediatrics, Children's Research Institute, Howard Hughes Medical Institute, University of Texas Southwestern Medical Center, Dallas, United StatesDepartment of Molecular and Human Genetics, Baylor College of Medicine, Houston, United StatesDepartment of Pediatrics, Children's Research Institute, Howard Hughes Medical Institute, University of Texas Southwestern Medical Center, Dallas, United StatesDepartment of Pediatrics, Children's Research Institute, Howard Hughes Medical Institute, University of Texas Southwestern Medical Center, Dallas, United StatesDepartment of Neuroscience, University of Texas Southwestern Medical Center, Dallas, United StatesDepartment of Neuroscience, University of Texas Southwestern Medical Center, Dallas, United StatesDepartment of Pediatrics, Children's Research Institute, Howard Hughes Medical Institute, University of Texas Southwestern Medical Center, Dallas, United StatesNeurosphere formation is commonly used as a surrogate for neural stem cell (NSC) function but the relationship between neurosphere-initiating cells (NICs) and NSCs remains unclear. We prospectively identified, and isolated by flow cytometry, adult mouse lateral ventricle subventricular zone (SVZ) NICs as GlastmidEGFRhighPlexinB2highCD24−/lowO4/PSA-NCAM−/lowTer119/CD45− (GEPCOT) cells. They were highly mitotic and short-lived in vivo based on fate-mapping with Ascl1CreERT2 and Dlx1CreERT2. In contrast, pre-GEPCOT cells were quiescent, expressed higher Glast, and lower EGFR and PlexinB2. Pre-GEPCOT cells could not form neurospheres but expressed the stem cell markers Slc1a3-CreERT, GFAP-CreERT2, Sox2CreERT2, and Gli1CreERT2 and were long-lived in vivo. While GEPCOT NICs were ablated by temozolomide, pre-GEPCOT cells survived and repopulated the SVZ. Conditional deletion of the Bmi-1 polycomb protein depleted pre-GEPCOT and GEPCOT cells, though pre-GEPCOT cells were more dependent upon Bmi-1 for Cdkn2a (p16Ink4a) repression. Our data distinguish quiescent NSCs from NICs and make it possible to study their properties in vivo.https://elifesciences.org/articles/02669stem cellforebrainfate-mappingprospective identificationBmi-1
collection DOAJ
language English
format Article
sources DOAJ
author John K Mich
Robert AJ Signer
Daisuke Nakada
André Pineda
Rebecca J Burgess
Tou Yia Vue
Jane E Johnson
Sean J Morrison
spellingShingle John K Mich
Robert AJ Signer
Daisuke Nakada
André Pineda
Rebecca J Burgess
Tou Yia Vue
Jane E Johnson
Sean J Morrison
Prospective identification of functionally distinct stem cells and neurosphere-initiating cells in adult mouse forebrain
eLife
stem cell
forebrain
fate-mapping
prospective identification
Bmi-1
author_facet John K Mich
Robert AJ Signer
Daisuke Nakada
André Pineda
Rebecca J Burgess
Tou Yia Vue
Jane E Johnson
Sean J Morrison
author_sort John K Mich
title Prospective identification of functionally distinct stem cells and neurosphere-initiating cells in adult mouse forebrain
title_short Prospective identification of functionally distinct stem cells and neurosphere-initiating cells in adult mouse forebrain
title_full Prospective identification of functionally distinct stem cells and neurosphere-initiating cells in adult mouse forebrain
title_fullStr Prospective identification of functionally distinct stem cells and neurosphere-initiating cells in adult mouse forebrain
title_full_unstemmed Prospective identification of functionally distinct stem cells and neurosphere-initiating cells in adult mouse forebrain
title_sort prospective identification of functionally distinct stem cells and neurosphere-initiating cells in adult mouse forebrain
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2014-05-01
description Neurosphere formation is commonly used as a surrogate for neural stem cell (NSC) function but the relationship between neurosphere-initiating cells (NICs) and NSCs remains unclear. We prospectively identified, and isolated by flow cytometry, adult mouse lateral ventricle subventricular zone (SVZ) NICs as GlastmidEGFRhighPlexinB2highCD24−/lowO4/PSA-NCAM−/lowTer119/CD45− (GEPCOT) cells. They were highly mitotic and short-lived in vivo based on fate-mapping with Ascl1CreERT2 and Dlx1CreERT2. In contrast, pre-GEPCOT cells were quiescent, expressed higher Glast, and lower EGFR and PlexinB2. Pre-GEPCOT cells could not form neurospheres but expressed the stem cell markers Slc1a3-CreERT, GFAP-CreERT2, Sox2CreERT2, and Gli1CreERT2 and were long-lived in vivo. While GEPCOT NICs were ablated by temozolomide, pre-GEPCOT cells survived and repopulated the SVZ. Conditional deletion of the Bmi-1 polycomb protein depleted pre-GEPCOT and GEPCOT cells, though pre-GEPCOT cells were more dependent upon Bmi-1 for Cdkn2a (p16Ink4a) repression. Our data distinguish quiescent NSCs from NICs and make it possible to study their properties in vivo.
topic stem cell
forebrain
fate-mapping
prospective identification
Bmi-1
url https://elifesciences.org/articles/02669
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AT seanjmorrison prospectiveidentificationoffunctionallydistinctstemcellsandneurosphereinitiatingcellsinadultmouseforebrain
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