Effect of Bmi1 over-expression on gene expression in adult and embryonic murine neural stem cells

Effect of Bmi1 over-expression on gene expression in adult and embryonic murine neural stem cells

Abstract The ability of isolated neural stem cells (NSCs) to proliferate as neurospheres is indicative of their competence as stem cells, and depends critically on the polycomb group (PcG) member Bmi1: knockdown of Bmi1 results in defective proliferation and self-renewal of isolated NSCs, whereas ov...

Full description

Bibliographic Details
Main Authors: Mythily Ganapathi, Nathan C. Boles, Carol Charniga, Steven Lotz, Melissa Campbell, Sally Temple, Randall H. Morse
Format: Article
Language:English
Published: Nature Publishing Group 2018-05-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-018-25921-8
id doaj-bb6451d396854ca396639407b1055802
record_format Article
spelling doaj-bb6451d396854ca396639407b10558022020-12-08T03:38:13ZengNature Publishing GroupScientific Reports2045-23222018-05-018111010.1038/s41598-018-25921-8Effect of Bmi1 over-expression on gene expression in adult and embryonic murine neural stem cellsMythily Ganapathi0Nathan C. Boles1Carol Charniga2Steven Lotz3Melissa Campbell4Sally Temple5Randall H. Morse6Laboratory of Molecular Genetics, Wadsworth Center, New York State Dept. of HealthNeural Stem Cell InstituteNeural Stem Cell InstituteNeural Stem Cell InstituteNeural Stem Cell InstituteNeural Stem Cell InstituteLaboratory of Molecular Genetics, Wadsworth Center, New York State Dept. of HealthAbstract The ability of isolated neural stem cells (NSCs) to proliferate as neurospheres is indicative of their competence as stem cells, and depends critically on the polycomb group (PcG) member Bmi1: knockdown of Bmi1 results in defective proliferation and self-renewal of isolated NSCs, whereas overexpression of Bmi1 enhances these properties. Here we report genome-wide changes in gene expression in embryonic and adult NSCs (eNSCs and aNSCs) caused by overexpression of Bmi1. We find that genes whose expression is altered by perturbations in Bmi1 levels in NSCs are mostly distinct from those affected in other multipotent stem/progenitor cells, such as those from liver and lung, aside from a small core of common targets that is enriched for genes associated with cell migration and mobility. We also show that genes differing in expression between prospectively isolated quiescent and activated NSCs are not affected by Bmi1 overexpression. In contrast, a comparison of genes showing altered expression upon Bmi1 overexpression in eNSCs and in aNSCs reveals considerable overlap, in spite of their different provenances in the brain and their differing developmental programs.https://doi.org/10.1038/s41598-018-25921-8
collection DOAJ
language English
format Article
sources DOAJ
author Mythily Ganapathi
Nathan C. Boles
Carol Charniga
Steven Lotz
Melissa Campbell
Sally Temple
Randall H. Morse
spellingShingle Mythily Ganapathi
Nathan C. Boles
Carol Charniga
Steven Lotz
Melissa Campbell
Sally Temple
Randall H. Morse
Effect of Bmi1 over-expression on gene expression in adult and embryonic murine neural stem cells
Scientific Reports
author_facet Mythily Ganapathi
Nathan C. Boles
Carol Charniga
Steven Lotz
Melissa Campbell
Sally Temple
Randall H. Morse
author_sort Mythily Ganapathi
title Effect of Bmi1 over-expression on gene expression in adult and embryonic murine neural stem cells
title_short Effect of Bmi1 over-expression on gene expression in adult and embryonic murine neural stem cells
title_full Effect of Bmi1 over-expression on gene expression in adult and embryonic murine neural stem cells
title_fullStr Effect of Bmi1 over-expression on gene expression in adult and embryonic murine neural stem cells
title_full_unstemmed Effect of Bmi1 over-expression on gene expression in adult and embryonic murine neural stem cells
title_sort effect of bmi1 over-expression on gene expression in adult and embryonic murine neural stem cells
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2018-05-01
description Abstract The ability of isolated neural stem cells (NSCs) to proliferate as neurospheres is indicative of their competence as stem cells, and depends critically on the polycomb group (PcG) member Bmi1: knockdown of Bmi1 results in defective proliferation and self-renewal of isolated NSCs, whereas overexpression of Bmi1 enhances these properties. Here we report genome-wide changes in gene expression in embryonic and adult NSCs (eNSCs and aNSCs) caused by overexpression of Bmi1. We find that genes whose expression is altered by perturbations in Bmi1 levels in NSCs are mostly distinct from those affected in other multipotent stem/progenitor cells, such as those from liver and lung, aside from a small core of common targets that is enriched for genes associated with cell migration and mobility. We also show that genes differing in expression between prospectively isolated quiescent and activated NSCs are not affected by Bmi1 overexpression. In contrast, a comparison of genes showing altered expression upon Bmi1 overexpression in eNSCs and in aNSCs reveals considerable overlap, in spite of their different provenances in the brain and their differing developmental programs.
url https://doi.org/10.1038/s41598-018-25921-8
work_keys_str_mv AT mythilyganapathi effectofbmi1overexpressionongeneexpressioninadultandembryonicmurineneuralstemcells
AT nathancboles effectofbmi1overexpressionongeneexpressioninadultandembryonicmurineneuralstemcells
AT carolcharniga effectofbmi1overexpressionongeneexpressioninadultandembryonicmurineneuralstemcells
AT stevenlotz effectofbmi1overexpressionongeneexpressioninadultandembryonicmurineneuralstemcells
AT melissacampbell effectofbmi1overexpressionongeneexpressioninadultandembryonicmurineneuralstemcells
AT sallytemple effectofbmi1overexpressionongeneexpressioninadultandembryonicmurineneuralstemcells
AT randallhmorse effectofbmi1overexpressionongeneexpressioninadultandembryonicmurineneuralstemcells
_version_ 1724392574318280704

Similar Items