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Purification of Immature Neuronal Cells From Neural Stem Cell Progeny Publisher Pubmed



Azari H1, 2, 3 ; Osborne GW1 ; Yasuda T1, 4 ; Golmohammadi MG1, 5 ; Rahman M3 ; Deleyrolle LP3 ; Esfandiari E6 ; Adams DJ1, 4 ; Scheffler B7 ; Steindler DA3 ; Reynolds BA1, 3
Authors
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Authors Affiliations
  1. 1. Queensland Brain Institute, The University of Queensland, Brisbane, Australia
  2. 2. Laboratory for Stem Cell Research, Department of Anatomical Sciences, Shiraz University of Medical Sciences, Shiraz, Iran
  3. 3. Department of Neurosurgery, McKnight Brain Institute, The University of Florida, Gainesville, FL, United States
  4. 4. Health Innovations Research Institute, RMIT University, Bundoora, VIC, Australia
  5. 5. Department of Anatomical Sciences, Ardebil University of Medical Sciences, Ardebil, Iran
  6. 6. Department of Anatomical Sciences, Isfahan University of Medical Sciences, Isfahan, Iran
  7. 7. Institute of Reconstructive Neurobiology, University of Bonn, Bonn, Germany

Source: PLoS ONE Published:2011


Abstract

Large-scale proliferation and multi-lineage differentiation capabilities make neural stem cells (NSCs) a promising renewable source of cells for therapeutic applications. However, the practical application for neuronal cell replacement is limited by heterogeneity of NSC progeny, relatively low yield of neurons, predominance of astrocytes, poor survival of donor cells following transplantation and the potential for uncontrolled proliferation of precursor cells. To address these impediments, we have developed a method for the generation of highly enriched immature neurons from murine NSC progeny. Adaptation of the standard differentiation procedure in concert with flow cytometry selection, using scattered light and positive fluorescent light selection based on cell surface antibody binding, provided a near pure (97%) immature neuron population. Using the purified neurons, we screened a panel of growth factors and found that bone morphogenetic protein-4 (BMP-4) demonstrated a strong survival effect on the cells in vitro, and enhanced their functional maturity. This effect was maintained following transplantation into the adult mouse striatum where we observed a 2-fold increase in the survival of the implanted cells and a 3-fold increase in NeuN expression. Additionally, based on the neural-colony forming cell assay (N-CFCA), we noted a 64 fold reduction of the bona fide NSC frequency in neuronal cell population and that implanted donor cells showed no signs of excessive or uncontrolled proliferation. The ability to provide defined neural cell populations from renewable sources such as NSC may find application for cell replacement therapies in the central nervous system. © 2011 Azari et al.
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