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41.                                                 JQ. Nestin expression in embryonic human neuroepithelium and in
           12.  Sanai N, Tramontin AD, Quinones-Hinojosa A, Barbaro NM, Gupta   human neuroepithelial tumor cells. Lab Invest 1992;66:303-13.
              N, Kunwar S, Lawton MT, McDermott MW, Parsa AT, Manuel-  35.  Collins VP. Brain tumours: classification and genes.  J Neurol
              Garcia Verdugo J, Berger MS, Alvarez-Buylla A. Unique astrocyte   Neurosurg Psychiatry 2004;75 Suppl 2:ii2-11.
              ribbon in adult human brain contains neural stem cells but lacks   36.  Burger PC, Scheithauser, B. W., Vogel, F. S. Surgical pathology of the
              chain migration. Nature 2004;427:740-4.             nervous system and its cverings 1991;Churchill Livingstone.
           13.  van den Berge SA, Middeldorp J, Zhang CE, Curtis MA, Leonard   37.  Quintana E, Shackleton M, Foster HR, Fullen DR, Sabel MS, Johnson
              BW, Mastroeni D, Voorn P, van de Berg WD, Huitinga I, Hol   TM, Morrison SJ. Phenotypic heterogeneity among tumorigenic
              EM. Longterm quiescent cells in the aged human subventricular   melanoma cells from patients that is reversible and not hierarchically
              neurogenic system specifically express GFAP-delta.  Aging Cell   organized. Cancer cell 2010;18:510-23.
              2010;9:313-26.                                   38.  Quintana E, Shackleton M, Sabel MS, Fullen DR, Johnson TM,
           14.  Guerrero-Cazares H, Gonzalez-Perez O,  Soriano-Navarro M,   Morrison SJ. Efficient tumour formation by single human melanoma
              Zamora-Berridi G, Garcia-Verdugo JM, Quinones-Hinojosa A.   cells. Nature 2008;456:593-8.
              Cytoarchitecture of the lateral ganglionic eminence and rostral   39.  Suva ML, Rheinbay E, Gillespie SM, Patel AP, Wakimoto H, Rabkin
              extension of the lateral ventricle in the human fetal brain. J Comp   SD, Riggi N, Chi AS, Cahill DP, Nahed BV, Curry WT, Martuza RL,
              Neurol 2011;519:1165-80.                            Rivera MN, Rossetti N, Kasif S, Beik S, Kadri S, Tirosh I, Wortman I,
           15.  Curtis MA, Kam M, Nannmark U, Anderson MF, Axell MZ, Wikkelso   Shalek AK, Rozenblatt-Rosen O, Regev A, Louis DN, Bernstein BE.
              C, Holtas S, van Roon-Mom WM, Bjork-Eriksson T, Nordborg C,   Reconstructing and reprogramming the tumor-propagating potential
              Frisen J, Dragunow M, Faull RL, Eriksson PS. Human neuroblasts   of glioblastoma stem-like cells. Cell 2014;157:580-94.
              migrate to the olfactory bulb via a lateral ventricular extension.   40.  Tang DG.  Understanding cancer  stem cell heterogeneity  and
              Science 2007;315:1243-9.                            plasticity. Cell Res 2012;22:457-72.
           16.  Danzer SC. Postnatal and adult neurogenesis in the development of   41.  Globus JH, Kuhlenbeck H. The subependymal plate (matrix) and its
              human disease. Neuroscientist 2008;14:446-58.       relationship to brain tumors of the ependymal type. J Neuropath Exp
           17.  Curtis MA, Low VF, Faull RL. Neurogenesis and progenitor cells in   Neurol 1944;3:1-35.
              the adult human brain: a comparison between hippocampal and   42.  Lewis PD. Mitotic activity in the primate subependymal layer and the
              subventricular progenitor proliferation. Dev Neurobiol 2012;72:990-  genesis of gliomas. Nature 1968;217:974-5.
              1005.                                            43.  Copeland DD, Vogel FS, Bigner DD. The induction of intractranial
           18.  Curtis MA, Penney EB, Pearson AG, van Roon-Mom WM,   neoplasms by the inoculation of avian sarcoma virus in perinatal and
              Butterworth NJ, Dragunow M, Connor B, Faull RL. Increased cell   adult rats. J Neuropathol Exp Neurol 1975;34:340-58.
              proliferation  and neurogenesis  in  the adult  human  Huntington’s   44.  Copeland DD, Bigner DD. The role of the subependymal plate in
              disease brain. Proc Natl Acad Sci U S A 2003;100:9023-7.  avian sarcoma virus brain tumor induction: comparison of incipient
           19.  Ha ET, Antonios JP, Soto H, Prins RM, Yang I, Kasahara N, Liau   tumors in neonatal and adult rats. Acta Neuropathol 1977;38:1-6.
              LM, Kruse CA. Chronic inflammation drives glioma growth: cellular   45.  Holland EC, Hively WP, DePinho RA, Varmus HE. A constitutively
              and molecular factors responsible for an immunosuppressive   active epidermal growth factor receptor cooperates with disruption
              microenvironment.  Neuroimmunol Neuroinflammation 2014;1:66-  of G1 cell-cycle arrest pathways to induce glioma-like lesions in mice.
              76.                                                 Genes Dev 1998;12:3675-85.
           20.  Charles NA, Holland EC, Gilbertson R, Glass R, Kettenmann H. The   46.  Holland EC, Celestino J, Dai C, Schaefer L, Sawaya RE, Fuller GN.
              brain tumor microenvironment. Glia 2012;60:502-14.  Combined activation of Ras and Akt in neural progenitors induces
           21.  Glass R, Synowitz M. CNS macrophages and peripheral myeloid   glioblastoma formation in mice. Nat Genet 2000;25:55-7.
              cells in brain tumours. Acta Neuropathol 2014;128:347-62.  47.  Bachoo RM, Maher EA, Ligon KL, Sharpless NE, Chan SS, You MJ,
           22.  Covey MV, Levison SW. Leukemia inhibitory factor participates in   Tang Y, DeFrances J, Stover E, Weissleder R, Rowitch DH, Louis
              the expansion of neural stem/progenitors after perinatal hypoxia/  DN, DePinho RA. Epidermal growth factor receptor and Ink4a/
              ischemia. Neuroscience 2007;148:501-9.              Arf: convergent mechanisms governing terminal differentiation and
           23.  Covey MV, Loporchio D, Buono KD, Levison SW. Opposite effect of   transformation along the neural stem cell to astrocyte axis. Cancer
              inflammation on subventricular zone versus hippocampal precursors   Cell 2002;1:269-77.
              in brain injury. Ann Neurol 2011;70:616-26.      48.  Doetsch F, Garcia-Verdugo JM, Alvarez-Buylla A. Cellular composition
           24.  Bauer S. Cytokine control of adult neural stem cells. Ann N Y Acad   and three-dimensional organization of the subventricular germinal
              Sci 2009;1153:48-56.                                zone in the adult mammalian brain. J Neurosci 1997;17:5046-61.
           25.  Wang H, Lathia JD, Wu Q, Wang J, Li Z, Heddleston JM, Eyler   49.  Piccirillo SGM, Spiteri I. Intratumor heterogeneity and transcriptional
              CE, Elderbroom J, Gallagher J, Schuschu J, MacSwords J, Cao   profiling in glioblastoma: translational opportunities.  Future
              Y, McLendon RE, Wang XF, Hjelmeland AB, Rich JN. Targeting   Neurology 2015;10:369-81.
              interleukin 6 signaling suppresses glioma stem cell survival and   50.  Assanah MC, Bruce JN, Suzuki SO, Chen A, Goldman JE, Canoll
              tumor growth. Stem Cells 2009;27:2393-404.          P. PDGF stimulates the massive expansion of glial progenitors in the
           26.  Liu Q, Li G, Li R, Shen J, He Q, Deng L, Zhang C, Zhang J. IL-6   neonatal forebrain. Glia 2009;57:1835-47.
              promotion of glioblastoma cell invasion and angiogenesis in U251   51.  Jackson EL, Garcia-Verdugo JM, Gil-Perotin S, Roy M, Quinones-
              and T98G cell lines. J Neurooncol 2010;100:165-76.  Hinojosa A, VandenBerg S, Alvarez-Buylla A. PDGFR alpha-positive
           27.  Weissenberger J, Loeffler S, Kappeler A, Kopf M, Lukes A, Afanasieva   B  cells  are  neural  stem cells  in  the  adult  SVZ  that  form  glioma-
              TA, Aguzzi A, Weis J. IL-6 is required for glioma development in a   like growths in response to increased PDGF signaling.  Neuron
              mouse model. Oncogene 2004;23:3308-16.              2006;51:187-99.
           28.  Huntly BJ, Gilliland DG. Leukaemia stem cells and the evolution of   52.  Zhu Y, Guignard F, Zhao D, Liu L, Burns DK, Mason RP, Messing
              cancer-stem-cell research. Nat Rev Cancer 2005;5:311-21.  A, Parada LF. Early inactivation of p53 tumor suppressor gene
           29.  Reya T, Morrison SJ, Clarke MF, Weissman IL. Stem cells, cancer,   cooperating with NF1 loss induces malignant astrocytoma. Cancer
              and cancer stem cells. Nature 2001;414:105-11.      Cell 2005;8:119-30.
           30.  Piccirillo SG, Vescovi AL. Brain tumour stem cells: possibilities of   53.  Alcantara Llaguno S, Chen J, Kwon CH, Jackson EL, Li Y, Burns
              new therapeutic strategies. Expert Opin Biol Ther 2007;7:1129-35.  DK, Alvarez-Buylla A, Parada LF. Malignant astrocytomas originate
           31.  Sanai N, Alvarez-Buylla A, Berger MS. Neural stem cells and the   from neural stem/progenitor cells in a somatic tumor suppressor
              origin of gliomas. N Engl J Med 2005;353:811-22.    mouse model. Cancer Cell 2009;15:45-56.
           32.  Visvader JE. Cells of origin in cancer. Nature 2011;469:314-22.  54.  Chen J, Li Y, Yu TS, McKay RM, Burns DK, Kernie SG, Parada LF.
           33.  Dahlstrand J, Collins VP, Lendahl U. Expression of the class VI   A restricted cell population propagates glioblastoma growth after
              intermediate filament nestin in human central nervous system   chemotherapy. Nature 2012;488:522-6.
              tumors. Cancer Res 1992;52:5334-41.              55.  Wang Y, Yang J, Zheng H, Tomasek GJ, Zhang P, McKeever PE, Lee
           34.  Tohyama T, Lee VM, Rorke LB, Marvin M, McKay RD, Trojanowski   EY, Zhu Y. Expression of mutant p53 proteins implicates a lineage


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