GLUTATHIONE DEFICIENCY POTENTIATES MANGANESE TOXICITY IN RAT STRIATUM AND BRAINSTEM AND IN PC12 CELLS

Levels of dopamine (DA), dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA), noradrenaline (NA), glutathione (GSH), ascorbic acid (AA), dehydroascorbic acid (DHAA) and uric acid (UA) were determined in the striatum and/or in the brainstem of 3-month-old male Wistar rats after subchronic ora...

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Published in:Pharmacological research 1997-10, Vol.36 (4), p.285-292
Main Authors: Desole, M.S., Esposito, G., Migheli, R., Sircana, S., Delogu, M.R., Fresu, L., Miele, M., de Natale, G., Miele, E.
Format: Article
Language:English
Subjects:
Animals
Ascorbic Acid - pharmacology
Brain Stem - drug effects
Brain Stem - metabolism
brainstem
Chlorides - toxicity
Dopamine - metabolism
Glutathione - deficiency
glutathione synthesis inhibition
Male
Manganese Compounds
manganese neurotoxicity
Manganese Poisoning
Methionine Sulfoximine - analogs & derivatives
Methionine Sulfoximine - pharmacology
Neostriatum - drug effects
Neostriatum - metabolism
oxidative stress
PC12 cells
PC12 Cells - drug effects
Rats
Rats, Wistar
striatum
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container_end_page 292
container_issue 4
container_start_page 285
container_title Pharmacological research
container_volume 36
creator Desole, M.S.
Esposito, G.
Migheli, R.
Sircana, S.
Delogu, M.R.
Fresu, L.
Miele, M.
de Natale, G.
Miele, E.
description Levels of dopamine (DA), dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA), noradrenaline (NA), glutathione (GSH), ascorbic acid (AA), dehydroascorbic acid (DHAA) and uric acid (UA) were determined in the striatum and/or in the brainstem of 3-month-old male Wistar rats after subchronic oral exposure to MnCl2(20 mg kg−1daily) alone or associated to buthionine(S,R)sulphoximine-ethyl ester (BSO-E), an inhibitor of GSH synthesis. The NA, DA, DOPAC, GSH and glutathione disulphide (GSSG) concentrations were also determined in PC12 cells incubated with Mn alone or associated with either BSO-E or AA. When PC12 cells were incubated with AA, cellular AA and DHAA concentrations were also determined. It was found that BSO-E: (a) decreased GSH levels in the striatum and in the brainstem; (b) potentiated the Mn-induced increase in AA oxidation and uric acid formation in both brain regions; and (c) potentiated the Mn-induced DA and NA depletion in the brainstem. Moreover, the changes in striatal DA metabolism induced by the BSO-E association with Mn (decrease in DA, DOPAC and HVA levels and in the DOPAC+HVA/DA ratio) are consistent with the hypothesis of a loss of dopaminergic neurons. In PC12 cells, BSO-E decreased GSH and GSSG levels and potentiated the Mn-induced decrease in DA and NA concentrations. On the contrary, AA antagonised the Mn-induced DA and NA depletion. AA antagonised also the Mn−and Mn+BSO-induced decrease in PC12 cells viability. In conclusion, the impairment of neuronal antioxidant system activity plays a permissive role in the oxidative stress-mediated Mn neurotoxicity.
doi_str_mv 10.1006/phrs.1997.0197
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The NA, DA, DOPAC, GSH and glutathione disulphide (GSSG) concentrations were also determined in PC12 cells incubated with Mn alone or associated with either BSO-E or AA. When PC12 cells were incubated with AA, cellular AA and DHAA concentrations were also determined. It was found that BSO-E: (a) decreased GSH levels in the striatum and in the brainstem; (b) potentiated the Mn-induced increase in AA oxidation and uric acid formation in both brain regions; and (c) potentiated the Mn-induced DA and NA depletion in the brainstem. Moreover, the changes in striatal DA metabolism induced by the BSO-E association with Mn (decrease in DA, DOPAC and HVA levels and in the DOPAC+HVA/DA ratio) are consistent with the hypothesis of a loss of dopaminergic neurons. In PC12 cells, BSO-E decreased GSH and GSSG levels and potentiated the Mn-induced decrease in DA and NA concentrations. On the contrary, AA antagonised the Mn-induced DA and NA depletion. AA antagonised also the Mn−and Mn+BSO-induced decrease in PC12 cells viability. 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The NA, DA, DOPAC, GSH and glutathione disulphide (GSSG) concentrations were also determined in PC12 cells incubated with Mn alone or associated with either BSO-E or AA. When PC12 cells were incubated with AA, cellular AA and DHAA concentrations were also determined. It was found that BSO-E: (a) decreased GSH levels in the striatum and in the brainstem; (b) potentiated the Mn-induced increase in AA oxidation and uric acid formation in both brain regions; and (c) potentiated the Mn-induced DA and NA depletion in the brainstem. Moreover, the changes in striatal DA metabolism induced by the BSO-E association with Mn (decrease in DA, DOPAC and HVA levels and in the DOPAC+HVA/DA ratio) are consistent with the hypothesis of a loss of dopaminergic neurons. In PC12 cells, BSO-E decreased GSH and GSSG levels and potentiated the Mn-induced decrease in DA and NA concentrations. On the contrary, AA antagonised the Mn-induced DA and NA depletion. 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The NA, DA, DOPAC, GSH and glutathione disulphide (GSSG) concentrations were also determined in PC12 cells incubated with Mn alone or associated with either BSO-E or AA. When PC12 cells were incubated with AA, cellular AA and DHAA concentrations were also determined. It was found that BSO-E: (a) decreased GSH levels in the striatum and in the brainstem; (b) potentiated the Mn-induced increase in AA oxidation and uric acid formation in both brain regions; and (c) potentiated the Mn-induced DA and NA depletion in the brainstem. Moreover, the changes in striatal DA metabolism induced by the BSO-E association with Mn (decrease in DA, DOPAC and HVA levels and in the DOPAC+HVA/DA ratio) are consistent with the hypothesis of a loss of dopaminergic neurons. In PC12 cells, BSO-E decreased GSH and GSSG levels and potentiated the Mn-induced decrease in DA and NA concentrations. On the contrary, AA antagonised the Mn-induced DA and NA depletion. AA antagonised also the Mn−and Mn+BSO-induced decrease in PC12 cells viability. In conclusion, the impairment of neuronal antioxidant system activity plays a permissive role in the oxidative stress-mediated Mn neurotoxicity.</abstract><cop>Netherlands</cop><pub>Elsevier Ltd</pub><pmid>9425617</pmid><doi>10.1006/phrs.1997.0197</doi><tpages>8</tpages></addata></record>
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identifier ISSN: 1043-6618
ispartof Pharmacological research, 1997-10, Vol.36 (4), p.285-292
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1096-1186
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recordid cdi_crossref_primary_10_1006_phrs_1997_0197
source ScienceDirect Freedom Collection; ScienceDirect Journals
subjects Animals
Ascorbic Acid - pharmacology
Brain Stem - drug effects
Brain Stem - metabolism
brainstem
Chlorides - toxicity
Dopamine - metabolism
Glutathione - deficiency
glutathione synthesis inhibition
Male
Manganese Compounds
manganese neurotoxicity
Manganese Poisoning
Methionine Sulfoximine - analogs & derivatives
Methionine Sulfoximine - pharmacology
Neostriatum - drug effects
Neostriatum - metabolism
oxidative stress
PC12 cells
PC12 Cells - drug effects
Rats
Rats, Wistar
striatum
title GLUTATHIONE DEFICIENCY POTENTIATES MANGANESE TOXICITY IN RAT STRIATUM AND BRAINSTEM AND IN PC12 CELLS
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