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Oligodendrocyte precursors

Kadi L, Selvaraju R, de Lys P, Proudfoot AE, Wells TN, Boschert U (2006) Differential effects of chemokines on oligodendrocyte precursor proliferation and myelin formation in vitro. J Neuroimmunol 174 133-146... [Pg.140]

Robinson S, Tani M, Strieter RM, Ransohoff RM, MiUer RH (1998) The chemokine growth-regulated oncogene-alpha promotes spinal cord oligodendrocyte precursor proliferation. J Neurosci 18 10457-10463... [Pg.188]

Dziembowska M, Tham TN, Lau P, Vitry S, Lazarini F, Dubois-Dalcq M (2005) A role for CXCR4 signaling in survival and migration of neural and oligodendrocyte precursors. Glia 50 258-269... [Pg.214]

Tsai HH, Frost E, To V, et al. The chemokine receptor CXCR2 controls positioning of oligodendrocyte precursors in developing spinal cord by arresting their migration. Cell 2002 110 373-383. [Pg.366]

Most mammalian cell types develop from precursor cells that divide a limited number of times before they stop and terminally differentiate. In no case do we understand why the cells stop dividing when they do. The stopping mechanisms are important because they determine how many differentiated cells are produced and when differentiation begins. We have been studying the stopping mechanism in oligodendrocyte precursor cells (OPCs) isolated from the developing optic nerve of rats and mice. [Pg.100]

Ahlgren SC, Wallace H, Bishop J, Neophytou C, Raff MC 1997 Effects of thyroid hormone on embryonic oligodendrocyte precursor cell development in vivo and in vitro. Mol Cell Neurosci 9 420-432... [Pg.105]

Kondo T, Raff M 2000b Oligodendrocyte precursor cells reprogrammed to become multipotential CNS stem cells. Science 289 1754-1757 Lane ME, Sauer K, Wallace K, Jan YN, Lehner CF, Vaessin H 1996 Dacapo, a cyclin-dependent kinase inhibitor, stops cell proliferation during Drosophila development. Cell 87 1225-1235... [Pg.106]

Raff The ventralizing signals such as Sonic hedgehog that are required for motor neuron development are also required for oligodendrocyte precursors to develop from CNS stem cells, at least in the spinal cord. [Pg.110]

NT3 is also critical for glial development. There is good evidence that NT3 acts to stimulate the proliferation of oligodendrocyte precursor cells, probably in concert with platelet derived growth factor (PDGF) (see below). [Pg.476]

Bongarzone ER, Howard SG, Schonmann V, Campagnoni AT (1998) Identification of the dopamine D3 receptor in oligodendrocyte precursors potential role in regulating differentiation and myelin formation. J Neurosci 75 5344-5353. [Pg.185]

Oligodendrocytes are extremely sensitive to insults that promote oxidative stress, such as inflammation and excessive glutamate signaling. Oligodendrocyte precursors are particularly susceptible to developmental exposure to lead at low doses. [Pg.748]

Wilson HC, Scolding NJ, Raine CS (2006) Co-expression of PDGF alpha receptor and NG2 by oligodendrocyte precursors in human CNS and multiple sclerosis lesions. J Neuroimmunol 176 162-173... [Pg.582]

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See also in sourсe #XX -- [ Pg.566 ]



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