The response of NG2-expressing oligodendrocyte progenitors to demyelination in MOG-EAE and MS (original) (raw)
References
Bergles, D. W., Roberts, R. D. B., Somogyi, P.& Jahr, C. E.(2000) Glutamatergic synapses on oligodendrocyte precursor cells in the hippocampus. Nature405, 187–191. Google Scholar
Blakemore, W. F.(1974) Pattern of remyelination in the CNS. Nature249, 577–578. Google Scholar
Blakemore, W. F.& Keirstead, H. S.(1999) The origin of remyelinating cells in the CNS. Jouranl of Neuroimmunology98, 69–76. Google Scholar
BÖ, L., MÖrk, S., Kong, P. A., Nyland, H., Pardo, C. A.& Trapp, B. D.(1994) Detection of MHC class II antigens on macrophages and microglia, but not on astrocytes and endothelia in active multiple sclerosis lesions. Journal of Neuroimmunology51, 135–146. Google Scholar
Bu, J., Akhtar, N.& Nishiyama, A.(2001) Transient expression of the NG2 proteoglycan by a sub-population of activated macrophages in an excitotoxic hippocampal lesion. Glia34, 296–310. Google Scholar
Butt, A. M., Duncan, A., Hornby, M. F., Kirvell, S. L., Hunter, A., Levine, J. M.& Berry, M.(1999) Cells expressing the NG2 antigen contact nodes of Ranvier in adult CNS white matter. Glia26, 84–91. Google Scholar
Canoll, P. D., Musacchio, J. M., Hardy, R., Reynolds, R., Marchionni, M. A.& Salzer, J. L.(1996) GGF/neuregulin is a neuronal signal that promotes the proliferation and survival and inhibits the differentiation of oligodendrocyte progenitors. Neuron17, 229–243. Google Scholar
Carroll, W. M.& Jennings, A. R.(1994) Early recruitment of oligodendrocyte precursors in CNS demyelination. Brain117, 563–578. Google Scholar
Carroll, W. M., Jennings, A. R.& Ironside, L. J.(1998) Identification of the resting oligodendrocyte progenitor cell by autoradiographic tracking of oligodendrocyte precursors in experimental demyelination. Brain121, 293–302. Google Scholar
Cenci Di Bello, I., Dawson, M. R. L., Levine, J. M.& Reynolds, R.(1999) Generation of oligodendroglial progenitors in acute inflammatory demyelinating lesions of the rat brain stem is stimulated by demyelination rather than inflammation. Journal of Neurocytology28, 366–381. Google Scholar
Chang, A., Nishiyama, A., Peterson, J., Prineas, J.& Trapp, B. D.(2000) NG2-positive oligodendrocyte progenitor cells in adult human brain and multiple sclerosis lesions. Journal of Neuroscience20, 6404–6412. Google Scholar
Chang, A., Tourtellotte, W. W., Rudick, R.& Trapp, B. D.(2002) Premyelinating oligodendrocytes in chronic lesions of multiple sclerosis. New England Journal of Medicine346, 165–173. Google Scholar
Chari, D. M.& Blakemore, W. F.(2002) Efficient recolonisation of progenitor depleted areas of the CNS by adult oligodendrocyte progenitor cells. Glia37, 307–313. Google Scholar
Dawson, M. R. L., Levine, J. M.& Reynolds, R.(2000) NG2-expressing cells in the central nervous system: Are they oligodendroglial progenitors? Journal of Neuroscience Research61, 471–479. Google Scholar
Dawson, M. R. L., Polito, A., Levine, J. L.& Reynolds, R.(2003) NG2-expressing glial progenitor cells:Anabundant and widespread population of cycling cells in the adult rat CNS. Molecular and Cellular Neuroscience(in press).
Diers-Fenger, M., Kirchhoff, F., Kettenmann, H., Levine, J. M.& Trotter, J.(2001) AN2/NG2 protein expressing glial progenitor cells in the muring CNS. Glia34, 213–228. Google Scholar
Fernandez, P. A., Tang, D. G., Cheng, L., Prochiantz, A., Mudge, A. W.& Raff, M. C.(2000) Evidence that axon-derived neuregulin promotes oligodendrocyte survival in the developing rat optic nerve. Neuron28, 81–90. Google Scholar
Franklin, R. J. M.& Hinks, G. L.(1999) Understanding CNS remyelination: Clues from developmental and regeneration biology. Journal of Neuroscience Research58, 207–213. Google Scholar
Ffrench-Constant, C.& Raff, M. C.(1986) Proliferating bipotential glial progenitor cells in adult rat optic nerve. Nature319, 499–502. Google Scholar
Gensert, J. M.& Goldman, J. E.(1997) Endogenous progenitors remyelinate demyelinated axons in the adult CNS. Neuron19, 197–203. Google Scholar
Hardy, R. J.& Reynolds, R.(1993) Neuronoligodendroglial interactions during central nervous system development. Journal of Neuroscience Research36, 121–126. Google Scholar
Horner, P. J., Power, A. E., Kempermann, G., Kuhn, H. G., Palmer, T. D., Winkler, J., Thal, L. J.& Gage, F. H.(2000) Proliferation and differentiation of progenitor cells throughout the intact adult rat spinal cord. Journal of Neuroscience20, 2218–2228. Google Scholar
Keirstead, H. S.& Blakemore, W. F.(1997) Identification of post-mitotic oligodendrocytes incapable of remyelination within the demyelinated adult spinal cord. Journal of Neuropathology and Experimental Neurology56, 1191–1201. Google Scholar
Keirstead, H. S., Levine, J. M.& Blakemore, W. F.(1998) Response of oligodendrocyte progenitor cell population (defined by NG2 labelling) to demyelination of the adult spinal cord. Glia22, 161–170. Google Scholar
Kornek, B., Storch, M. K., Weisert, R., Wallstroem, E., Stefferl, A., Olsson, T., Linnington, C., Schnidbauer, M.& Lassmann, H.(2000) Multiple sclerosis and chronic autoimmune encephalomyelitis: A comparative quantitative study of axonal injury in active, inactive and remyelinated lesions. American Journal of Pathology157, 267–276. Google Scholar
Levine, J. M.(1994) Increased expression of the NG2 chondroitin-sulphate preoteoglycan after brain injury. Journal of Neuroscience14, 4716–4730. Google Scholar
Levine, J. M.& Stallcup, W. B.(1987) Plasticity of developing cerebellar cells _in vitro_studied with antibodies against the NG2 antigen. Journal of Neuroscience7, 2721–2731. Google Scholar
Levine, J. M., Stincone, F.& Lee, Y.-S.(1993) Development and differentiation of glial precursor cells in the rat cerebellum. Glia7, 307–321. Google Scholar
Levine, J. M.& Reynolds, R.(1999) Activation and proliferation of endogenous oligodendrocyte precursor cells during ethidium bromide-induced demyelination. Experimental Neurology160, 333–347. Google Scholar
Levine, J. M., Reynolds, R.& Fawcett, J. W.(2001) The oligodendrocyte precursor cell in health and disease. Trends in Neuroscience24, 39–47. Google Scholar
Lucchinetti, C., BrÜck, W., Parisi, J., Scheithauer, B., Rodriguez, M.& Lassmann, H.(1999) A quantitative analysis of oligodendrocytes in multiple sclerosis lesions. A study of 113 cases. Brain122, 2279–2295. Google Scholar
Nishiyama, A., Lin, X. H., Giese, N., Heldin, C. H.& Stallcup, W. B.(1996) Co-localization of NG2 proteoglycan and PDGF alpha-receptor on O2A progenitor cells in the developing rat brain. Journal of Neuroscience Research43, 299–314. Google Scholar
Nishiyama, A., Yu, M., Drazba, J. A.& Tuohy, V. K.(1997) Normal and reactive NG2+glial cells are distinct from resting and activated microglia. Journal of Neuroscience Research48, 299–312. Google Scholar
Ong, W. Y.& Levine, J. M.(1999) A light and electronmicroscope study of NG2 chondroitin sulphate proteoglycan-positive oligodendrocyte precursor cells in the normal and kainate lesioned rat hippocampus. Neuroscience92, 83–95. Google Scholar
Pham-Dinh, D., Mattei, M.-G., Nussbaum, J. L., Roussel, G., Pontarotti, P., Roeckel, N., Mather, I. H., Artzt, K., Fischer Lindahl, K.& Dautigny, A.(1993) Myelin/oligodendrocyte glycoprotein is a member of a subset of the Ig superfamily encoded within the Major Histocompatibility Complex. Proceedings of the National Academy of Science USA90, 7990–7994. Google Scholar
Prineas, J. W., Barnard, R. O., Kwon, E. E., Sharer, L. R.& Cho, E. S.(1993) Multiple Sclerosis: Remyelination of nascent lesions. Annals of Neurology33, 137–151. Google Scholar
Redwine, J. M.& Armstrong, R. C.(1998) _In vivo_proliferation of oligodendrocyte progenitors expressing PDGF_α_R during early remyelination. Journal of Neurobiology37, 413–428. Google Scholar
Reynolds, R.& Wilkin, G. P.(1993) Cellular reaction to an acute demyelinating/remyelinating lesion of the rat brain stem: Localisation of GD3ganglioside immunoreactivity. Journal of Neuroscience Research36, 417–434. Google Scholar
Reynolds, R.& Hardy, R.(1997) Oligodendroglial progenitors labeled with the O4 antibody persist in the adult rat cerebral cortex in vivo. Journal of Neuroscience Research47, 455–470. Google Scholar
Scolding, N. J., Franklin, R. J. M., Stevens, S., Heldin, C.-H., Compston, D. A. S.& Newcombe, J.(1998) Oligodendrocyte progenitors are present in the normal adult human CNS and in the lesions of multiple sclerosis. Brain121, 2221–2228. Google Scholar
Shi, J., Marinovich, A.& Barres, B. A.(1998) Purification and characterisation of adult oligodendrocyte precursor cells from the rat optic nerve. Journal of Neuroscience18, 4627–4636. Google Scholar
Shields, S. A., Gilson, J. M., Blakemore, W. F.& Franklin, R. J. M.(1999) Remyelination occurs as extensively but more slowly in old rats compared to young rats following gliotoxin-induced CNS demyelination. Glia28, 77–83. Google Scholar
Storch, M. K., Piddlesdon, S., Haltia, M., Iivanainen, M., Morgan, P.& Lassmann, H.(1998) Multiple sclerosis: _In situ_evidence for antibody and complement mediated demyelination. Annals of Neurology43, 465–471. Google Scholar
Wang, S., Sdrulla, A. D., Disibio, G., Bush, G., Nofziger, D., Hicks, C., Weinmaster, G.& Barres, B.(1998) Notch receptor activation inhibits oligodendrocyte differentiation. Neuron21, 63–75. Google Scholar
Wolswijk, G.(2000) Oligodendrocyte survival, loss and birth in lesions of chronic-stage multiple sclerosis. Brain123, 105–115. Google Scholar
Wolswijk, G.(1998) Chronic stage multiple sclerosis lesions contain a relatively quiescent population of oligodendrocyte precursor cells. Journal of Neuroscience18, 601–609. Google Scholar
Wolswijk, G.& Noble, M.(1989) Identification of an adult-specific glial progenitor cell. Development105, 387–400. Google Scholar
Wren, D., Wolswijk, G.& Noble, M.(1992) _In vitro_analysis of the origin and maintenance of O-2Aadultprogenitor cells. Journal of Cell Biology116, 167–176. Google Scholar
Wu, H. Y., Dawson, M. R. L., Reynolds, R.& Hardy, R. J.(2001) Expression of QKI proteins and MAP1B distinguishes actively myelinating oligodendrocytes in adult rat brain. Molecular Cellular Neuroscience17, 292–302. Google Scholar