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Astrocytes as potential modulators of mercuric chloride neurotoxicity
Authors:M. Aschner  K. J. Mullaney  M. N. Fehm  D. E. Wagoner Jr.  D. Vitarella
Affiliation:(1) Department of Pharmacology and Toxicology, A-136, Albany Medical College, 47 New Scotland Avenue, 12208 Albany, New York;(2) Present address: Dept. of Physiology and Pharmacology, Bowman Gray School of Medicine, Medical Center Blvd., 27157-1083 Winston-Salem, NC
Abstract:Summary 1. MC has been shown to inhibit the uptake ofl-glutamate and increased-aspartate release from preloaded astrocytes in a dose-dependent fashion.2. Two sulfhydryl (SH-)-protecting agents; reduced glutathione (GSH), a cell membrane-nonpenetrating compound, and the membrane permeable dithiothreitol (DTT), have been shown consistently to reverse the above effects. MC-inducedd-aspartate release is completely inhibited by the addition of 1 mM DTT or GSH during the actual 5-min perfusion period with MC (5µM); when added after MC treatment, DTT fully inhibits the MC-inducedd-aspartate release, while GSH does not.3. Neither DTT nor GSH, in the absence of MC, have any effect on the rate of astrocyticd-aspartate release. Other studies demonstrate that although MC treatment (5µM) does not induce astrocytic swelling, its addition to astrocytes swollen by exposure to hypotonic medium leads to their failure to volume regulate.4. Omission of calcium from the medium greatly potentiates the effect of MC on astrocyticd-aspartate release, an effect which can be reversed by cotreatment of astrocytes with the dihydropyridine Ca2+-channel antagonist nimodipine (10µM), indicating that one possible route of MC entry into the cells is through voltage-gated L-type channels.
Keywords:mercuric chloride    font-variant:small-caps"  >l-glutamate    font-variant:small-caps"  >d-aspartate  astrocytes  thiols (-SH)
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