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BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos

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Zeitschriftentitel: Journal of Cell Science
Personen und Körperschaften: Busch, Christian, Oppitz, Matthias, Sailer, Martin H., Just, Lothar, Metzger, Marco, Drews, Ulrich
In: Journal of Cell Science, 119, 2006, 21, S. 4467-4474
Format: E-Article
Sprache: Englisch
veröffentlicht:
The Company of Biologists
Schlagwörter:
Cell Biology
author_facet Busch, Christian
Oppitz, Matthias
Sailer, Martin H.
Just, Lothar
Metzger, Marco
Drews, Ulrich
Busch, Christian
Oppitz, Matthias
Sailer, Martin H.
Just, Lothar
Metzger, Marco
Drews, Ulrich
author Busch, Christian
Oppitz, Matthias
Sailer, Martin H.
Just, Lothar
Metzger, Marco
Drews, Ulrich
spellingShingle Busch, Christian
Oppitz, Matthias
Sailer, Martin H.
Just, Lothar
Metzger, Marco
Drews, Ulrich
Journal of Cell Science
BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
Cell Biology
author_sort busch, christian
spelling Busch, Christian Oppitz, Matthias Sailer, Martin H. Just, Lothar Metzger, Marco Drews, Ulrich 1477-9137 0021-9533 The Company of Biologists Cell Biology http://dx.doi.org/10.1242/jcs.03205 <jats:p>Central nervous system (CNS) stem cells isolated from the subventricular zone (SVZ) show a remarkable differentiation potential into neural derivatives. Surprisingly adult SVZ cells can also be induced in vitro to differentiate into neural crest cell fates. This fate switch is dependent on the combination of fibroblast growth factor 2 (FGF2) and bone morphogenetic proteins (BMPs). Here we transplanted adult SVZ stem cells from GFP mice as neurospheres into the trunk neural tube of chick and quail embryos. Only neurospheres pre-exposed to BMP-2 and FGF2 formed close contacts with the dorsal neuroepithelium corresponding to the neural crest area. GFP-positive cells emigrated from the neurosphere and were identified in the roof plate, the dorsal neuroepithelium and among emigrating neural crest cells adjacent to the neural tube. Neurospheres not treated with BMP-2 did not integrate into the neuroepithelium. Our data demonstrate that adult CNS stem cells can be efficiently prepared in vitro for integration into the embryonic neural crest. BMP-2 treatment conveys the necessary morphogenetic capabilities to adult stem cells for future clinical transplantation strategies.</jats:p> BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos Journal of Cell Science
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title BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_unstemmed BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_full BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_fullStr BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_full_unstemmed BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_short BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_sort bmp-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
topic Cell Biology
url http://dx.doi.org/10.1242/jcs.03205
publishDate 2006
physical 4467-4474
description <jats:p>Central nervous system (CNS) stem cells isolated from the subventricular zone (SVZ) show a remarkable differentiation potential into neural derivatives. Surprisingly adult SVZ cells can also be induced in vitro to differentiate into neural crest cell fates. This fate switch is dependent on the combination of fibroblast growth factor 2 (FGF2) and bone morphogenetic proteins (BMPs). Here we transplanted adult SVZ stem cells from GFP mice as neurospheres into the trunk neural tube of chick and quail embryos. Only neurospheres pre-exposed to BMP-2 and FGF2 formed close contacts with the dorsal neuroepithelium corresponding to the neural crest area. GFP-positive cells emigrated from the neurosphere and were identified in the roof plate, the dorsal neuroepithelium and among emigrating neural crest cells adjacent to the neural tube. Neurospheres not treated with BMP-2 did not integrate into the neuroepithelium. Our data demonstrate that adult CNS stem cells can be efficiently prepared in vitro for integration into the embryonic neural crest. BMP-2 treatment conveys the necessary morphogenetic capabilities to adult stem cells for future clinical transplantation strategies.</jats:p>
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author Busch, Christian, Oppitz, Matthias, Sailer, Martin H., Just, Lothar, Metzger, Marco, Drews, Ulrich
author_facet Busch, Christian, Oppitz, Matthias, Sailer, Martin H., Just, Lothar, Metzger, Marco, Drews, Ulrich, Busch, Christian, Oppitz, Matthias, Sailer, Martin H., Just, Lothar, Metzger, Marco, Drews, Ulrich
author_sort busch, christian
container_issue 21
container_start_page 4467
container_title Journal of Cell Science
container_volume 119
description <jats:p>Central nervous system (CNS) stem cells isolated from the subventricular zone (SVZ) show a remarkable differentiation potential into neural derivatives. Surprisingly adult SVZ cells can also be induced in vitro to differentiate into neural crest cell fates. This fate switch is dependent on the combination of fibroblast growth factor 2 (FGF2) and bone morphogenetic proteins (BMPs). Here we transplanted adult SVZ stem cells from GFP mice as neurospheres into the trunk neural tube of chick and quail embryos. Only neurospheres pre-exposed to BMP-2 and FGF2 formed close contacts with the dorsal neuroepithelium corresponding to the neural crest area. GFP-positive cells emigrated from the neurosphere and were identified in the roof plate, the dorsal neuroepithelium and among emigrating neural crest cells adjacent to the neural tube. Neurospheres not treated with BMP-2 did not integrate into the neuroepithelium. Our data demonstrate that adult CNS stem cells can be efficiently prepared in vitro for integration into the embryonic neural crest. BMP-2 treatment conveys the necessary morphogenetic capabilities to adult stem cells for future clinical transplantation strategies.</jats:p>
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spelling Busch, Christian Oppitz, Matthias Sailer, Martin H. Just, Lothar Metzger, Marco Drews, Ulrich 1477-9137 0021-9533 The Company of Biologists Cell Biology http://dx.doi.org/10.1242/jcs.03205 <jats:p>Central nervous system (CNS) stem cells isolated from the subventricular zone (SVZ) show a remarkable differentiation potential into neural derivatives. Surprisingly adult SVZ cells can also be induced in vitro to differentiate into neural crest cell fates. This fate switch is dependent on the combination of fibroblast growth factor 2 (FGF2) and bone morphogenetic proteins (BMPs). Here we transplanted adult SVZ stem cells from GFP mice as neurospheres into the trunk neural tube of chick and quail embryos. Only neurospheres pre-exposed to BMP-2 and FGF2 formed close contacts with the dorsal neuroepithelium corresponding to the neural crest area. GFP-positive cells emigrated from the neurosphere and were identified in the roof plate, the dorsal neuroepithelium and among emigrating neural crest cells adjacent to the neural tube. Neurospheres not treated with BMP-2 did not integrate into the neuroepithelium. Our data demonstrate that adult CNS stem cells can be efficiently prepared in vitro for integration into the embryonic neural crest. BMP-2 treatment conveys the necessary morphogenetic capabilities to adult stem cells for future clinical transplantation strategies.</jats:p> BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos Journal of Cell Science
spellingShingle Busch, Christian, Oppitz, Matthias, Sailer, Martin H., Just, Lothar, Metzger, Marco, Drews, Ulrich, Journal of Cell Science, BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos, Cell Biology
title BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_full BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_fullStr BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_full_unstemmed BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_short BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_sort bmp-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
title_unstemmed BMP-2-dependent integration of adult mouse subventricular stem cells into the neural crest of chick and quail embryos
topic Cell Biology
url http://dx.doi.org/10.1242/jcs.03205