Bmi1 loss produces an increase in astroglial cells and a decrease in neural stem cell population and proliferation
The polycomb transcriptional repressor Bmi1 promotes cell cycle progression, controls cell senescence, and is implicated in brain development. Loss of Bmi1 leads to a decreased brain size and causes progressive ataxia and epilepsy. Recently, Bmi1 was shown to control neural stem cell (NSC) renewal....
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| Vydané v: | The Journal of neuroscience Ročník 25; číslo 24; s. 5774 |
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| Hlavní autori: | , , , , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | English |
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United States
15.06.2005
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| ISSN: | 1529-2401, 1529-2401 |
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| Abstract | The polycomb transcriptional repressor Bmi1 promotes cell cycle progression, controls cell senescence, and is implicated in brain development. Loss of Bmi1 leads to a decreased brain size and causes progressive ataxia and epilepsy. Recently, Bmi1 was shown to control neural stem cell (NSC) renewal. However, the effect of Bmi1 loss on neural cell fate in vivo and the question whether the action of Bmi1 was intrinsic to the NSCs remained to be investigated. Here, we show that Bmi1 is expressed in the germinal zone in vivo and in NSCs as well as in progenitors proliferating in vitro, but not in differentiated cells. Loss of Bmi1 led to a decrease in proliferation in zones known to contain progenitors: the newborn cortex and the newborn and adult subventricular zone. This decrease was accentuated in vitro, where we observed a drastic reduction in NSC proliferation and renewal because of NSC-intrinsic effects of Bmi1 as shown by the means of RNA interference. Bmi1(-/-) mice also presented more astrocytes at birth, and a generalized gliosis at postnatal day 30. At both stages, colocalization of bromodeoxyuridine and GFAP demonstrated that Bmi1 loss did not prevent astrocyte precursor proliferation. Supporting these observations, Bmi1(-/-) neurospheres generate preferentially astrocytes probably attributable to a different responsiveness to environmental factors. Bmi1 is therefore necessary for NSC renewal in a cell-intrinsic mode, whereas the altered cell pattern of the Bmi1(-/-) brain shows that in vivo astrocyte precursors can proliferate in the absence of Bmi1. |
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| AbstractList | The polycomb transcriptional repressor Bmi1 promotes cell cycle progression, controls cell senescence, and is implicated in brain development. Loss of Bmi1 leads to a decreased brain size and causes progressive ataxia and epilepsy. Recently, Bmi1 was shown to control neural stem cell (NSC) renewal. However, the effect of Bmi1 loss on neural cell fate in vivo and the question whether the action of Bmi1 was intrinsic to the NSCs remained to be investigated. Here, we show that Bmi1 is expressed in the germinal zone in vivo and in NSCs as well as in progenitors proliferating in vitro, but not in differentiated cells. Loss of Bmi1 led to a decrease in proliferation in zones known to contain progenitors: the newborn cortex and the newborn and adult subventricular zone. This decrease was accentuated in vitro, where we observed a drastic reduction in NSC proliferation and renewal because of NSC-intrinsic effects of Bmi1 as shown by the means of RNA interference. Bmi1(-/-) mice also presented more astrocytes at birth, and a generalized gliosis at postnatal day 30. At both stages, colocalization of bromodeoxyuridine and GFAP demonstrated that Bmi1 loss did not prevent astrocyte precursor proliferation. Supporting these observations, Bmi1(-/-) neurospheres generate preferentially astrocytes probably attributable to a different responsiveness to environmental factors. Bmi1 is therefore necessary for NSC renewal in a cell-intrinsic mode, whereas the altered cell pattern of the Bmi1(-/-) brain shows that in vivo astrocyte precursors can proliferate in the absence of Bmi1.The polycomb transcriptional repressor Bmi1 promotes cell cycle progression, controls cell senescence, and is implicated in brain development. Loss of Bmi1 leads to a decreased brain size and causes progressive ataxia and epilepsy. Recently, Bmi1 was shown to control neural stem cell (NSC) renewal. However, the effect of Bmi1 loss on neural cell fate in vivo and the question whether the action of Bmi1 was intrinsic to the NSCs remained to be investigated. Here, we show that Bmi1 is expressed in the germinal zone in vivo and in NSCs as well as in progenitors proliferating in vitro, but not in differentiated cells. Loss of Bmi1 led to a decrease in proliferation in zones known to contain progenitors: the newborn cortex and the newborn and adult subventricular zone. This decrease was accentuated in vitro, where we observed a drastic reduction in NSC proliferation and renewal because of NSC-intrinsic effects of Bmi1 as shown by the means of RNA interference. Bmi1(-/-) mice also presented more astrocytes at birth, and a generalized gliosis at postnatal day 30. At both stages, colocalization of bromodeoxyuridine and GFAP demonstrated that Bmi1 loss did not prevent astrocyte precursor proliferation. Supporting these observations, Bmi1(-/-) neurospheres generate preferentially astrocytes probably attributable to a different responsiveness to environmental factors. Bmi1 is therefore necessary for NSC renewal in a cell-intrinsic mode, whereas the altered cell pattern of the Bmi1(-/-) brain shows that in vivo astrocyte precursors can proliferate in the absence of Bmi1. The polycomb transcriptional repressor Bmi1 promotes cell cycle progression, controls cell senescence, and is implicated in brain development. Loss of Bmi1 leads to a decreased brain size and causes progressive ataxia and epilepsy. Recently, Bmi1 was shown to control neural stem cell (NSC) renewal. However, the effect of Bmi1 loss on neural cell fate in vivo and the question whether the action of Bmi1 was intrinsic to the NSCs remained to be investigated. Here, we show that Bmi1 is expressed in the germinal zone in vivo and in NSCs as well as in progenitors proliferating in vitro, but not in differentiated cells. Loss of Bmi1 led to a decrease in proliferation in zones known to contain progenitors: the newborn cortex and the newborn and adult subventricular zone. This decrease was accentuated in vitro, where we observed a drastic reduction in NSC proliferation and renewal because of NSC-intrinsic effects of Bmi1 as shown by the means of RNA interference. Bmi1(-/-) mice also presented more astrocytes at birth, and a generalized gliosis at postnatal day 30. At both stages, colocalization of bromodeoxyuridine and GFAP demonstrated that Bmi1 loss did not prevent astrocyte precursor proliferation. Supporting these observations, Bmi1(-/-) neurospheres generate preferentially astrocytes probably attributable to a different responsiveness to environmental factors. Bmi1 is therefore necessary for NSC renewal in a cell-intrinsic mode, whereas the altered cell pattern of the Bmi1(-/-) brain shows that in vivo astrocyte precursors can proliferate in the absence of Bmi1. |
| Author | van Lohuizen, Maarten Zencak, Dusan Lingbeek, Merel Munier, Francis L Kostic, Corinne Tekaya, Meriem Hornfeld, Dana Tanger, Ellen Schorderet, Daniel F Jaquet, Muriel Arsenijevic, Yvan |
| Author_xml | – sequence: 1 givenname: Dusan surname: Zencak fullname: Zencak, Dusan organization: Jules Gonin Eye Hospital, Department of Ophthalmology, Lausanne University Medical School, 1004 Lausanne, Switzerland – sequence: 2 givenname: Merel surname: Lingbeek fullname: Lingbeek, Merel – sequence: 3 givenname: Corinne surname: Kostic fullname: Kostic, Corinne – sequence: 4 givenname: Meriem surname: Tekaya fullname: Tekaya, Meriem – sequence: 5 givenname: Ellen surname: Tanger fullname: Tanger, Ellen – sequence: 6 givenname: Dana surname: Hornfeld fullname: Hornfeld, Dana – sequence: 7 givenname: Muriel surname: Jaquet fullname: Jaquet, Muriel – sequence: 8 givenname: Francis L surname: Munier fullname: Munier, Francis L – sequence: 9 givenname: Daniel F surname: Schorderet fullname: Schorderet, Daniel F – sequence: 10 givenname: Maarten surname: van Lohuizen fullname: van Lohuizen, Maarten – sequence: 11 givenname: Yvan surname: Arsenijevic fullname: Arsenijevic, Yvan |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/15958744$$D View this record in MEDLINE/PubMed |
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| SubjectTerms | Animals Animals, Newborn Astrocytes - cytology Base Sequence Caudate Nucleus - physiology Cell Differentiation Cell Division Cerebral Cortex - physiology DNA Primers Gene Expression Regulation, Developmental Genetic Carrier Screening Gliosis - genetics In Situ Nick-End Labeling Mice Mice, Knockout Neurons - cytology Neurons - physiology Nuclear Proteins - deficiency Nuclear Proteins - genetics Polycomb Repressive Complex 1 Proto-Oncogene Proteins - deficiency Proto-Oncogene Proteins - genetics Putamen Repressor Proteins - genetics Reverse Transcriptase Polymerase Chain Reaction RNA, Messenger - genetics Stem Cells - cytology |
| Title | Bmi1 loss produces an increase in astroglial cells and a decrease in neural stem cell population and proliferation |
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