Preservation of midbrain catecholaminergic neurons in very old human subjects

Kubis, Nathalie; Faucheux, Baptiste; Ransmayr, Gerhard; Damier, Philippe; Duyckaerts, C; Hénin, Dominique; Forette, B.; Charpentier, Y. Le; Hauw, J J; Agid, Yves; Hirsch, Étienne C.

doi:10.1093/brain/123.2.366

Cited by 136 publications

(103 citation statements)

References 24 publications

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“…A previous morphological study of the TH (+) neurons in the human SN found no correlation of cell body size with age [27]. Although stereological studies of the SN have not examined the volume of TH (+) neurons in normal ageing, there is evidence for a close correspondence between pigmented and TH (+) neurons [2,7].…”

Section: Discussionmentioning

confidence: 85%

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Morphometry of the human substantia nigra in ageing and Parkinson’s disease

Rudow¹,

O’Brien

Savonenko³

et al. 2008

Acta Neuropathol

164

117

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To investigate the relation between the loss of substantia nigra (SN) neurons in normal ageing and Parkinson's disease (PD), we measured the total number and the cell body volume of pigmented (neuromelanin) neurons in the SN. We examined young (n = 7, mean age: 19.9), middle-aged (n = grudow1@jhmi.edu. NIH Public Access NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author Manuscript 9, mean age: 50.1), and older controls from the Baltimore Longitudinal Study of Aging (n = 7, mean age: 87.6), as well as PD cases (n = 8, mean age: 74.8). On random-systematically selected paraffin Nissl-stained sections, we used the Optical Fractionator to estimate the total number of neurons on one side of the SN. Using the Nucleator probe, we measured the volume of these neurons. In young and older controls, we also estimated the total number and volume of tyrosine hydroxylase (TH) positive (+) nigral neurons. We observed a significant loss of pigmented (-28.3%, P < 0.01) and TH (+) (−36.2%, P < 0.001) neurons in older controls compared with younger subjects. Analysis of the size distribution of pigmented and TH (+) neurons showed a significant hypertrophy in older controls compared to young controls (P < 0.01). In contrast, in PD we observed a significant atrophy of pigmented neurons compared to all control groups (P < 0.01). These data suggest that neuronal hypertrophy represents a compensatory mechanism within individual SN neurons that allows for normal motor function despite the loss of neurons in normal ageing. Presumably, this compensatory mechanism breaks down or is overwhelmed by the pathological events of PD leading to the onset of the characteristic motor disturbances.

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Section: Discussionmentioning

confidence: 85%

“…Kubis et al [27] did not find a significant loss of TH (+) in the SN, nor in other midbrain regions, in a series of 21 control subjects who died at ages 44-110. In contrast, we have shown a 36% (P < 0.001) loss of TH (+) SN neurons in older controls compared to younger subjects.…”

Section: Discussionmentioning

confidence: 88%

Morphometry of the human substantia nigra in ageing and Parkinson’s disease

Rudow¹,

O’Brien

Savonenko³

et al. 2008

Acta Neuropathol

164

117

View full text Add to dashboard Cite

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“…Hence oxidative stress produced during PD is likely the consequence of H 2 O 2 production due to a combination of dopamine oxidation, GSH depletion and Fe 2+ generated from neuromelanin, thus allowing Fenton reaction to proceed at a considerable rate leading to neuronal death. This hypothesis gains support from the observation that neuromelanincontaining neurons are preferentially lost during the course of PD (31). It remains to be elucidated whether iron accumulation precedes injury of pigmented neurons or occurs as a consequence of neuronal degeneration.…”

Section: +mentioning

confidence: 84%

Interactions Between Environmental and Genetic Factors in the Pathophysiology of Parkinson's Disease

Tsang¹,

Soong²

2003

IUBMB Life

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SummaryParkinson's disease (PD) is a progressive neurodegenerative disease with no known cure and affects approximately 1% of the elderly population. The major question in PD relates to the selective loss of dopaminergic neurons in patients. The underlying mechanism of genetic dysfunction and environmental toxins in contributing to the pathogenesis of PD may be oxidative stress. The interactions of genetic and environmental factors in PD may provide some answers to the longstanding question. In particular, the possibility that iron may provide selectivity to genetic susceptibility or dopamine reactivity in dopaminergic neuronal death is enhanced by the neuroprotection demonstrated in transgenic mice overexpressing ferritin or the use of iron chelators in MPTP-induced PD mouse. It will be important to dissect and understand the contributions of genes, environment and intrinsic cellular states in the generation and progression of the pathophysiology of PD.

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“…Perfusion deficits have also been observed before the onset of clinical symptoms in other neurodegenerative disorders, which suggests that the deficits contribute to the pathogenesis of the disease (Storkebaum and Carmeliet, 2004). Conflicting results have been obtained in different studies, with either an age-dependent depletion or no change in DA neuron counts, which may be attributable to a number of methodological variables (Kubis et al, 2000;Collier et al, 2007). However, the present results support observations of a progressive functional decline in the SNc and increased vulnerability to injury with age.…”

Section: Discussionmentioning

confidence: 99%

Aging and Sedentarism Decrease Vascularization and VEGF Levels in the Rat Substantia Nigra. Implications for Parkinson's Disease

Villar-Cheda

Sousa-Ribeiro

Rodríguez‐Pallares

et al. 2008

J Cereb Blood Flow Metab

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It is not known if aging induces changes in nigral vascularization and nigral vascular endothelial growth factor (VEGF) levels similar to those previously reported for Parkinson's disease (PD). In this study nonexercised rats displayed age-dependent decreases in the density of nigral microvessels and VEGF mRNA expression, which were reversed by physical exercise. Such changes may enhance the vulnerability of dopaminergic neurons and the risk of developing PD, and may be reduced by exercise. Furthermore, the observed pattern is the opposite of that previously observed in PD, suggesting that the process underlying PD is not an accelerated age-dependent decline in the dopaminergic system.

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Preservation of midbrain catecholaminergic neurons in very old human subjects

Cited by 136 publications

References 24 publications

Morphometry of the human substantia nigra in ageing and Parkinson’s disease

Morphometry of the human substantia nigra in ageing and Parkinson’s disease

Interactions Between Environmental and Genetic Factors in the Pathophysiology of Parkinson's Disease

Aging and Sedentarism Decrease Vascularization and VEGF Levels in the Rat Substantia Nigra. Implications for Parkinson's Disease

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