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Excitotoxic brain damage in the rat induces interleukin-1beta protein in microglia and astrocytes: correlation with the progression of cell death.
Pearson V, Rothwell NJ, Toulmond S
Glia. 1999;25( 4):311-23.
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Abstract
Interleukin-1 beta (IL-1beta) has been proposed as a mediator of several forms of brain damage, including that induced by excitotoxins. In vitro studies suggest that glial cells are the effector cells of IL-1beta-mediated neurodegeneration. We have investigated the expression of IL-1beta protein by glial cells in vivo in response to NMDA receptor-mediated excitotoxicity in the rat parietal cortex and striatum. Expression of IL-1beta by glial cells was investigated using immunocytochemistry 30 min to 7 days after infusion of the NMDA agonist cis-2,4-methanoglutamate (MGlu; 10 nmol) into the cortex. Early expression (1-4 h) of IL-1beta by microglia was directly related to lesion development. Later expression by microglia (up to 24 h), and by astrocytes (2-7 days), was widespread compared to the area involved in excitotoxic cell death and co-localised with areas of reactive gliosis. Infusion of MGlu into the striatum induced a similar temporal pattern of IL-1beta expression by microglia and astrocytes. However, IL-1beta-expressing glial cells were localised strictly to the area of striatal cell death. Infusion of PBS or a subtoxic dose of MGlu into the cortex or striatum induced only limited neuronal death and negligible glial IL-1beta expression. These studies reveal that IL-1beta is expressed specifically by microglia during the early response to excitotoxicity in the adult rat cortex and striatum. However, the widespread and delayed IL-1beta expression by astrocytes suggests diverse roles for IL-1beta in response to excitotoxicity.
Keyword(s)
Animals; Male; Rats; Support, Non-U.S. Gov't; biosynthesis: Interleukin-1; cytology: Cerebral Cortex; cytology: Corpus Striatum; drug effects: Astrocytes; drug effects: Cell Death; drug effects: Microglia; drug effects: Receptors, N-Methyl-D-Aspartate; pharmacology: Glutamates; pharmacology: Neurotoxins