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Review
. 1999 Jan;9(1):165-86.
doi: 10.1111/j.1750-3639.1999.tb00217.x.

Oxidative stress and motor neurone disease

M R Cookson  1 P J Shaw
Affiliations
Review

Oxidative stress and motor neurone disease

M R Cookson et al. Brain Pathol. 1999 Jan.

Abstract

The effects of oxidative stress within post mitotic cells such as neurones may be cumulative, and injury by free radical species is a major potential cause of the age-related deterioration in neuronal function seen in several neurodegenerative diseases. There is strong evidence that oxidative stress plays an important role in the pathogenesis of motor neurone disease (MND). Point mutations in the antioxidant enzyme Cu,Zn superoxide dismutase (SOD1) are found in some pedigrees with the familial form of MND. How mutations in this ubiquitous enzyme cause the relatively selective cell death of specific groups of motor neurones is not clear, although a number of hypotheses have been forwarded. These include (1) the formation of hydroxyl radicals, (2) the catalysis of reactions of the nitrogen centred oxidant species peroxynitrite, (3) toxicity of copper or zinc and (4) protein aggregation. Some experimental support for these different hypotheses has been produced by manipulating cells in culture to express the mutant SOD1 proteins and by generating transgenic mice which over-express mutant SOD1. Observations in these model systems are, in some cases at least, supported by observations made on pathological material from patients with similar SOD1 mutations. Furthermore, there are reports of evidence of free radical mediated damage to neurones in the sporadic form of MND. Several lines of evidence suggest that alterations in the glutamatergic neurotransmitter system may also play a key role in the injury to motor neurones in sporadic MND. There are several important subcellular targets, which may be preferentially impaired within motor neurones, including neurofilament proteins and mitochondria. Future research will need to identify the aspects of the molecular and physiological phenotype of human motor neurones that makes them susceptible to degeneration in MND, and to identify those genetic and environmental factors which combine to cause this disease in individuals and in familial pedigrees.

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References

    1. Abe K, Pan LH, Watanabe M, Konno H, Kato T, Itoyama Y (1997) Upregulation of protein‐tyrosine nitration in the anterior horn cells of amyotrophic lateral sclerosis. Neurol Res 19: 124–128. - PubMed
    1. Abe K, Pan L‐H, Watanabe M, Kato T, Itoyama Y (1995) Induction of nitrotyrosine‐like immunoreactivity in the lower motor neuron of amyotrophic lateral sclerosis. Neurosci Lett 199: 152–154. - PubMed
    1. Aguirre T, VanDenBosch L, Goetschalckx K, Tilkin P, Mathijs G, Cassiman JJ, Robberecht W (1998) Increased sensitivity of fibroblasts from amyotrophic lateral sclerosis patients to oxidative stress. Ann Neurol 43: 452–457. - PubMed
    1. Bajaj NPS, AlSarraj ST, Anderson V, Kibble M, Leigh N, Miller CCJ (1998) Cyclin‐dependent kinase‐5 is associated with lipofuscin in motor neurones in amyotrophic lateral sclerosis. Neurosci Lett 245: 45–48. - PubMed
    1. Beal MF, Ferrante RJ, Browne SE, Matthews RT, Kowall NW, Brown RH (1997) Increased 3‐nitrotyrosine in both sporadic and familial amyotrophic lateral sclerosis. Ann Neurol 42: 644–654. - PubMed

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