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Alterations in the distribution of glutathione in the substantia nigra in Parkinson's disease (1997)

Pearce, R. K. B. ; Owen, A. ; Daniel, S. ; [et al.]

Springer

Journal of neural transmission 104 (1997), S. 661-677

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ISSN: 1435-1463

Keywords: Parkinson's disease ; substantia nigra ; glutathione ; oxidative stress

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Depletion of reduced glutathione occurs in the substantia nigra in Parkinson's disease and in incidental Lewy body disease (presymptomatic Parkinson's disease) which may implicate oxidative stress in the neurode-generative process. In this study mercury orange fluorescent staining and immunostaining with an antibody to reduced glutathione have been used to determine the distribution of reduced glutathione in the substantia nigra in Parkinson's disease compared with normal individuals. Mercury orange staining showed moderate background levels of fluorescence in the neuropil in both control and Parkinson's disease substantia nigra and localised reduced glutathione to the somata of melanized nigral neurons and glial elements of the neuropil. Neuronal nuclei revealed a relative lack of fluorescence after mercury orange staining. There was a significant depletion of reduced glutathione in surviving neurons in Parkinson's disease compared to nerve cell populations in control tissue. Mercury orange fluorescence indicated a high concentration of reduced glutathione in a subpopulation of non-neuronal cells, most likely astrocytes or microglia. Immunohistochemical examination of nigral tissue from the same Parkinson's disease and control patients with an antibody to glutathione showed staining in neuronal perikarya and axonodendritic processes of melanized nigral neurons which was generally most intense in control neurons. Moderately intense staining of the background neuropil, most prominent in control nigras, and staining of capillary walls was also detected. Intense staining was seen in cells with the morphological features of glial cells in both control and PD nigra. These data show a significant presence of reduced glutathione in the cell bodies and axons of nigral neurons. They are in agreement with biochemical studies showing depletion of reduced glutathione in substantia nigra in Parkinson's disease, and indicate a significant loss of neuronal reduced glutathione in surviving nigral neurons in Parkinson's disease.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01291884

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Thioctic acid does not restore glutathione levels or protect against the potentiation of 6-hydroxydopamine toxicity induced by glutathione depletion in rat brain (1996)

Seaton, T. A. ; Jenner, P. ; Marsden, C. D.

Springer

Journal of neural transmission 103 (1996), S. 315-329

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ISSN: 1435-1463

Keywords: Thioctic acid ; 6-OHDA toxicity ; buthionine sulphoximine ; glutathione depletion ; substantia nigra

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Decreased reduced glutathione (GSH) levels are an early marker of nigral cell death in Parkinson's disease. Depletion of rat brain GSH by intracerebroventricular administration of buthionine sulphoximine (BSO) potentiates the toxicity of 6-hydroxydopamine (6-OHDA) to the nigrostriatal pathway. We have investigated whether thioctic acid can replenish brain GSH levels following BSO-induced depletion and/or prevent 6-OHDA induced toxicity. Administration of BSO (2 × 1.6 mg ICV) to rats depleted striatal GSH levels by upto 75%. BSO treatment potentiated 6-OHDA (75 μg ICV) toxicity as judged by striatal dopamine content and the number of tyrosine hydroxylase immunoreactive cells in substantia nigra. Repeated treatment with thioctic acid (50 or 100mg/kg i.p.) over 48h had no effect on the 6-OHDA induced loss of dopamine in striatum or nigral tyrosine hydroxylase positive cells in substantia nigra. Also thioctic acid treatment did not reverse the BSO induced depletion of GSH or prevent the potentiation of 6-OHDA neurotoxicity produced by BSO. Thioctic acid (50mg or 100mg/kg i.p.) alone or in combination with BSO did not alter striatal dopamine levels but increased dopamine turnover. Striatal 5-HT content was not altered by thioctic acid but 5-HIAA levels were increased. Under conditions of inhibition of GSH synthesis, thioctic acid does not replenish brain GSH levels or protect against 6-OHDA toxicity. At least in this model of Parkinson's disease, thioctic acid does not appear to have a neuroprotective effect.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01271243

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