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Alterations in metabolism and gene expression in brain regions during cuprizone‐induced demyelination and remyelination
Author(s) -
Jurevics Helga,
Largent Carrie,
Hostettler Janell,
Sammond Deanne W.,
K. Matsushima Glenn,
Toews Arrel D.,
Morell Pierre
Publication year - 2002
Publication title -
journal of neurochemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.75
H-Index - 229
eISSN - 1471-4159
pISSN - 0022-3042
DOI - 10.1046/j.1471-4159.2002.00954.x
Subject(s) - remyelination , neuroscience , gene expression , gene , metabolism , biology , central nervous system , endocrinology , myelin , genetics
Exposure of mice to the copper chelator, cuprizone, results in CNS demyelination. There is remyelination after removal of the metabolic insult. We present brain regional studies identifying corpus callosum as particularly severely affected; 65% of cerebroside is lost after 6 weeks of exposure. We examined recovery of cerebroside and ability to synthesize cerebroside and cholesterol following removal of the toxicant. The temporal pattern for concentration of myelin basic protein resembled that of cerebroside. We applied Affymetrix GeneChip technology to corpus callosum to identify temporal changes in levels of mRNAs during demyelination and remyelination. Genes coding for myelin structural components were greatly down‐regulated during demyelination and up‐regulated during remyelination. Genes related to microglia/macrophages appeared in a time‐course (peaking at 6 weeks) correlating with phagocytosis of myelin and repair of lesions. mRNAs coding for many cytokines had peak expression at 4 weeks, compatible with intercellular signaling roles. Of interest were other genes with temporal patterns correlating with one of the three above patterns, but of function not obviously related to demyelination/remyelination. The ability to correlate gene expression with known pathophysiological events should help in elucidating further function of such genes as related to demyelination/remyelination.

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