Cells enriched in markers of neural tissue-committed stem cells reside in the bone marrow and are mobilized into the peripheral blood following stroke

M Kucia, YP Zhang, R Reca, M Wysoczynski… - Leukemia, 2006 - nature.com
M Kucia, YP Zhang, R Reca, M Wysoczynski, B Machalinski, M Majka, ST Ildstad…
Leukemia, 2006nature.com
The concept that bone marrow (BM)-derived cells participate in neural regeneration remains
highly controversial and the identity of the specific cell type (s) involved remains unknown.
We recently reported that the BM contains a highly mobile population of CXCR4+ cells that
express mRNA for various markers of early tissue-committed stem cells (TCSCs), including
neural TCSCs. Here, we report that these cells not only express neural lineage markers (β-III-
tubulin, Nestin, NeuN, and GFAP), but more importantly form neurospheres in vitro. These …
Abstract
The concept that bone marrow (BM)-derived cells participate in neural regeneration remains highly controversial and the identity of the specific cell type (s) involved remains unknown. We recently reported that the BM contains a highly mobile population of CXCR4+ cells that express mRNA for various markers of early tissue-committed stem cells (TCSCs), including neural TCSCs. Here, we report that these cells not only express neural lineage markers (β-III-tubulin, Nestin, NeuN, and GFAP), but more importantly form neurospheres in vitro. These neural TCSCs are present in significant amounts in BM harvested from young mice but their abundance and responsiveness to gradients of motomorphogens, such as SDF-1, HGF, and LIF, decreases with age. FACS analysis, combined with analysis of neural markers at the mRNA and protein levels, revealed that these cells reside in the nonhematopoietic CXCR4+/Sca-1+/lin−/CD45− BM mononuclear cell fraction. Neural TCSCs are mobilized into the peripheral blood following stroke and chemoattracted to the damaged neural tissue in an SDF-1-CXCR4−, HGF-c-Met−, and LIF-LIF-R-dependent manner. Based on these data, we hypothesize that the postnatal BM harbors a nonhematopoietic population of cells that express markers of neural TCSCs that may account for the beneficial effects of BM-derived cells in neural regeneration.
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