In vivo clonal analyses reveal the properties of endogenous neural stem cell proliferation in the adult mammalian forebrain

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In vivo clonal analyses reveal the properties of endogenous neural stem cell proliferation in the adult mammalian forebrain

CM Morshead, CG Craig and D van der Kooy
Neurobiology Research Group, Department of Anatomy and Cell Biology, University of Toronto, Toronto, Ontario M5S 1A8, Canada. cinci.morshead@utoronto.ca

The adult mammalian forebrain contains a population of multipotential neural stem cells in the subependyma of the lateral ventricles whose progeny are the constitutively proliferating cells, which divide actively throughout life. The adult mammalian brain is ideal for examining the kinetics of the stem cells due to their strict spatial localization and the limited and discrete type of progeny generated (constitutively proliferating cells). Clonal lineage analyses 6 days after retrovirus infection revealed that under baseline conditions 60% of the constitutively proliferating cells undergo cell death, 25% migrate to the olfactory bulb and 15% remain confined to the lateral ventricle subependyma (where they reside for approximately 15 days). Analysis of single cell clones 31 days after retroviral infection revealed that the stem cell divides asymmetrically to self-renew and give rise to constitutively proliferating cells. Following repopulation of the depleted subependyma the average clone size is 2.8 times larger than control, yet the absolute number of cells migrating to the olfactory bulb is maintained and the stem cell retains its asymmetric mode of division. The number of neural stem cells in the adult forebrain 33 days after repopulation of the subependyma was estimated using bromodeoxyuridine labeling of subepenydmal cells. There were calculated to be 1200-1300 cells between the rostral corpus callosum and rostral anterior commissure; these data support a lineage model similar to those based on stem cell behavior in other tissue types.

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				M. A. Bonaguidi, C.-Y. Peng, T. McGuire, G. Falciglia, K. T. Gobeske, C. Czeisler, and J. A. Kessler Noggin Expands Neural Stem Cells in the Adult Hippocampus J. Neurosci., September 10, 2008; 28(37): 9194 - 9204. [Abstract] [Full Text] [PDF]

				M. Higashi, N. Maruta, A. Bernstein, K. Ikenaka, and S. Hitoshi Mood Stabilizing Drugs Expand the Neural Stem Cell Pool in the Adult Brain Through Activation of Notch Signaling Stem Cells, July 1, 2008; 26(7): 1758 - 1767. [Abstract] [Full Text] [PDF]

				M. G. Golmohammadi, D. G. Blackmore, B. Large, H. Azari, E. Esfandiary, G. Paxinos, K. B. J. Franklin, B. A. Reynolds, and R. L. Rietze Comparative Analysis of the Frequency and Distribution of Stem and Progenitor Cells in the Adult Mouse Brain Stem Cells, April 1, 2008; 26(4): 979 - 987. [Abstract] [Full Text] [PDF]

				B. Jablonska, A. Aguirre, R. Vandenbosch, S. Belachew, C. Berthet, P. Kaldis, and V. Gallo Cdk2 is critical for proliferation and self-renewal of neural progenitor cells in the adult subventricular zone J. Cell Biol., December 17, 2007; 179(6): 1231 - 1245. [Abstract] [Full Text] [PDF]

				A. Petit, D. L. Sellers, D. J. Liebl, M. Tessier-Lavigne, T. E. Kennedy, and P. J. Horner From the Cover: Adult spinal cord progenitor cells are repelled by netrin-1 in the embryonic and injured adult spinal cord PNAS, November 6, 2007; 104(45): 17837 - 17842. [Abstract] [Full Text] [PDF]

				J. L. Vanderluit, C. A. Wylie, K. A. McClellan, N. Ghanem, A. Fortin, S. Callaghan, J. G. MacLaurin, D. S. Park, and R. S. Slack The Retinoblastoma family member p107 regulates the rate of progenitor commitment to a neuronal fate J. Cell Biol., October 3, 2007; 178(1): 129 - 139. [Abstract] [Full Text] [PDF]

				I. Nakano, J. D. Dougherty, K. Kim, I. Klement, D. H. Geschwind, and H. I. Kornblum Phosphoserine Phosphatase Is Expressed in the Neural Stem Cell Niche and Regulates Neural Stem and Progenitor Cell Proliferation Stem Cells, August 1, 2007; 25(8): 1975 - 1984. [Abstract] [Full Text] [PDF]

				A. Y. Maslov, K. J. Bailey, L. M. Mielnicki, A. L. Freeland, X. Sun, W. C. Burhans, and S. C. Pruitt Stem/Progenitor Cell-Specific Enhanced Green Fluorescent Protein Expression Driven by the Endogenous Mcm2 Promoter Stem Cells, January 1, 2007; 25(1): 132 - 138. [Abstract] [Full Text] [PDF]

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				C. M. C. Batista, T. E. Kippin, S. Willaime-Morawek, M. K. Shimabukuro, W. Akamatsu, and D. van der Kooy A Progressive and Cell Non-Autonomous Increase in Striatal Neural Stem Cells in the Huntington's Disease R6/2 Mouse J. Neurosci., October 11, 2006; 26(41): 10452 - 10460. [Abstract] [Full Text] [PDF]

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				P. Karpowicz, C. Morshead, A. Kam, E. Jervis, J. Ramunas, V. Cheng, and D. van der Kooy Support for the immortal strand hypothesis: neural stem cells partition DNA asymmetrically in vitro J. Cell Biol., August 29, 2005; 170(5): 721 - 732. [Abstract] [Full Text] [PDF]

				G. T. Haskell and A.-S. LaMantia Retinoic Acid Signaling Identifies a Distinct Precursor Population in the Developing and Adult Forebrain J. Neurosci., August 17, 2005; 25(33): 7636 - 7647. [Abstract] [Full Text] [PDF]

				T. E. Kippin, S. Kapur, and D. van der Kooy Dopamine Specifically Inhibits Forebrain Neural Stem Cell Proliferation, Suggesting a Novel Effect of Antipsychotic Drugs J. Neurosci., June 15, 2005; 25(24): 5815 - 5823. [Abstract] [Full Text] [PDF]

				T. E. Kippin, D. J. Martens, and D. van der Kooy p21 loss compromises the relative quiescence of forebrain stem cell proliferation leading to exhaustion of their proliferation capacity Genes & Dev., March 15, 2005; 19(6): 756 - 767. [Abstract] [Full Text] [PDF]

				T. P. Zwaka and J. A. Thomson Differentiation of Human Embryonic Stem Cells Occurs through Symmetric Cell Division Stem Cells, February 1, 2005; 23(2): 146 - 149. [Abstract] [Full Text] [PDF]

				E. Enwere, T. Shingo, C. Gregg, H. Fujikawa, S. Ohta, and S. Weiss Aging Results in Reduced Epidermal Growth Factor Receptor Signaling, Diminished Olfactory Neurogenesis, and Deficits in Fine Olfactory Discrimination J. Neurosci., September 22, 2004; 24(38): 8354 - 8365. [Abstract] [Full Text] [PDF]

				J. L. Vanderluit, K. L. Ferguson, V. Nikoletopoulou, M. Parker, V. Ruzhynsky, T. Alexson, S. M. McNamara, D. S. Park, M. Rudnicki, and R. S. Slack p107 regulates neural precursor cells in the mammalian brain J. Cell Biol., September 13, 2004; 166(6): 853 - 863. [Abstract] [Full Text] [PDF]

				L. S. Campos, D. P. Leone, J. B. Relvas, C. Brakebusch, R. Fassler, U. Suter, and C. ffrench-Constant {beta}1 integrins activate a MAPK signalling pathway in neural stem cells that contributes to their maintenance Development, July 15, 2004; 131(14): 3433 - 3444. [Abstract] [Full Text] [PDF]

				R. Zhang, Z. Zhang, C. Zhang, L. Zhang, A. Robin, Y. Wang, M. Lu, and M. Chopp Stroke Transiently Increases Subventricular Zone Cell Division from Asymmetric to Symmetric and Increases Neuronal Differentiation in the Adult Rat J. Neurosci., June 23, 2004; 24(25): 5810 - 5815. [Abstract] [Full Text] [PDF]

				A. Y. Maslov, T. A. Barone, R. J. Plunkett, and S. C. Pruitt Neural Stem Cell Detection, Characterization, and Age-Related Changes in the Subventricular Zone of Mice J. Neurosci., February 18, 2004; 24(7): 1726 - 1733. [Abstract] [Full Text] [PDF]

				M. D. Krathwohl and J. L. Kaiser Chemokines Promote Quiescence and Survival of Human Neural Progenitor Cells Stem Cells, January 1, 2004; 22(1): 109 - 118. [Abstract] [Full Text] [PDF]

				M. Kim and C. M. Morshead Distinct Populations of Forebrain Neural Stem and Progenitor Cells Can Be Isolated Using Side-Population Analysis J. Neurosci., November 19, 2003; 23(33): 10703 - 10709. [Abstract] [Full Text] [PDF]

				J. Imitola, E. Y. Snyder, and S. J. Khoury Genetic programs and responses of neural stem/progenitor cells during demyelination: potential insights into repair mechanisms in multiple sclerosis Physiol Genomics, August 15, 2003; 14(3): 171 - 197. [Abstract] [Full Text] [PDF]

				T. Imura, H. I. Kornblum, and M. V. Sofroniew The Predominant Neural Stem Cell Isolated from Postnatal and Adult Forebrain But Not Early Embryonic Forebrain Expresses GFAP J. Neurosci., April 1, 2003; 23(7): 2824 - 2832. [Abstract] [Full Text] [PDF]