F. Agid scite author profile

Levels of iron, copper, zinc, manganese, and lead were measured by inductively coupled plasma spectroscopy in parkinsonian and age-matched control brain tissue. There was 31-35% increase in the total iron content of the parkinsonian substantia nigra when compared to control tissue. In contrast, in the globus pallidus total iron levels were decreased by 29% in Parkinson's disease. There was no change in the total iron levels in any other region of the parkinsonian brain. Total copper levels were reduced by 34-45% in the substantia nigra in Parkinson's disease; no difference was found in the other brain areas examined. Zinc levels were increased in substantia nigra in Parkinson's disease by 50-54%, and the zinc content of the caudate nucleus and lateral putamen was also raised by 18-35%. Levels of manganese and lead were unchanged in all areas of the parkinsonian brain studied when compared to control brains, except for a small decrease (20%) in manganese content of the medial putamen. Increased levels of total iron in the substantia nigra may cause the excessive formation of toxic oxygen radicals, leading to dopamine cell death.

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Increased Nigral Iron Content in Postmortem Parkinsonian Brain

Dexter¹,

Wells²,

Agid³

et al. 1987

The Lancet

503

256

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Decreased Ferritin Levels in Brain in Parkinson's Disease

Dexter

Carayon

Vidailhet

et al. 1990

Journal of Neurochemistry

240

110

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Ferritin levels were measured in postmortem brain tissue from patients dying with Parkinson's disease [treated with L-3,4-dihydroxyphenylalanine (L-DOPA)] and from control patients. Ferritin levels were decreased in the substantia nigra, caudate-putamen, globus pallidus, cerebral cortex, and cerebellum when compared with age-matched control tissues. However, in CSF from L-DOPA-treated patients and in serum from L-DOPA-treated and untreated parkinsonian patients, ferritin levels were normal. Previous studies have suggested an increased total iron content in substantia nigra of parkinsonian brain. The failure of substantia nigra ferritin formation to be stimulated by increased iron levels suggests some defect in iron handling in this critical brain region in Parkinson's disease. The reason for decreased ferritin levels throughout the parkinsonian brain is not clear but does not seem to reflect a general system deficit in ferritin.

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Lipid Peroxidation as Cause of Nigral Cell Death in Parkinson's Disease

et al. 1986

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Autoradiographic localization of glucocorticosteroid and progesterone binding sites in the human post-mortem brain

Sarrieau

Dussaillant

Agid

et al. 1986

Journal of Steroid Biochemistry

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Somatostatin Receptors in Brain and Pituitary

Epelbaum¹,

Agid²,

Agid³

et al. 1989

Horm Res

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Somatostatin (SRIF) actions in the brain and pituitary are mediated by specific receptors. Using radioiodinated ligands it has been possible to characterize the kinetics of specific binding sites in the brain and pituitary, and to determine their cellular localization by autoradiography. At the pituitary level, the inhibition of growth hormone, prolactin and thyrotropin secretions induced by SRIF is mediated through a single binding site which is coupled to the inhibition of adenylate cyclase. In the brain, SRIF receptors are localized on neurons and glial cells and are also coupled to adenylate cyclase inhibition. Two sites are differentiated in the brain with an analogue of somatostatin, SMS 201995. In humans, SRIF-binding sites have been related to a number of pathologies. At the pituitary level, it has been shown that the number of binding sites was negatively correlated to growth hormone levels in acromegaly. Furthermore, SRIF-binding sites were undetectable in a patient which did not respond to SMS 201995 therapy. In the brain, meningiomas and gliomas are rich in SRIF binding sites. This suggests a possible role for SRIF on glia. In neuro-degenerative diseases, cortical SRIF concentrations are decreased in Alzheimer’s and Parkinson’s disease associated with dementia while SRIF-binding sites are only affected in Alzheimer’s disease. In conclusion, the physiological role of SRIF in the brain and pituitary can be evaluated by studying the receptors of the peptide. Such studies allow to question the implication of SRIF in endocrine and neuropathologies.

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Usefulness of Receptor Binding Studies in Human Brain

Agid¹,

Ruberg²,

Cash³

et al. 1984

Clinical Neuropharmacology

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Action incitative de recherche sur le paludisme pour les pays en développement : le programme PAL+

Agid¹

2004

J. Soc. Biol.

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F. Agid

Increased Nigral Iron Content and Alterations in Other Metal Ions Occurring in Brain in Parkinson's Disease

Increased Nigral Iron Content in Postmortem Parkinsonian Brain

Decreased Ferritin Levels in Brain in Parkinson's Disease

Lipid Peroxidation as Cause of Nigral Cell Death in Parkinson's Disease

Autoradiographic localization of glucocorticosteroid and progesterone binding sites in the human post-mortem brain

Somatostatin Receptors in Brain and Pituitary

Usefulness of Receptor Binding Studies in Human Brain

Action incitative de recherche sur le paludisme pour les pays en développement : le programme PAL+

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