Advanced search
Publication Cover
Free Radical Research Volume 24, 1996 - Issue 2
Submit an article Journal homepage
96
Views
102
CrossRef citations to date
0
Altmetric
Original Article

Evaluation of the Pro-Oxidant and Antioxidant Actions of L-DOPA and Dopamine in Vitro: Implications for Parkinson's Disease

Jeremy P.E. Spencer Neurodegenerative Diseases Research Centre, Pharmacology Group, University of London King's College, Manresa Road, London, SW3 6LX, UK
,
Andrew Jenner Neurodegenerative Diseases Research Centre, Pharmacology Group, University of London King's College, Manresa Road, London, SW3 6LX, UK
,
John Butler Paterson Institute for Cancer Research, Christie Hospital NHS Trust, Wilmslow Road, Manchester, M20 9XB, UK
,
Okezie I. Aruoma Neurodegenerative Diseases Research Centre, Pharmacology Group, University of London King's College, Manresa Road, London, SW3 6LX, UK
,
David T. Dexter Neurodegenerative Diseases Research Centre, Pharmacology Group, University of London King's College, Manresa Road, London, SW3 6LX, UK
,
Peter Jenner Neurodegenerative Diseases Research Centre, Pharmacology Group, University of London King's College, Manresa Road, London, SW3 6LX, UK
&
Barry Halliwell Neurodegenerative Diseases Research Centre, Pharmacology Group, University of London King's College, Manresa Road, London, SW3 6LX, UK
 show all
Pages 95-105 | Received 26 Jun 1995, Published online: 07 Jul 2009

References

  • Cohen G. Monoamine oxide, hydrogen peroxide and Parkinson's disease. Advances in Neurology 1986; 45: 119–125
  • Yoshikawa T. Free radicals and their scavengers in Parkinson's disease. European Journal of Neurology 1993; 33(suppl 2)60–68
  • Riederer P., Sofic E., Rausche W. D., Schmidt B., Reynolds G. P., Jallinger K., Youdim M. B.H. Transition metals, ferritin, glutathime and ascorbic acid in Parkinsonian bmins. Journal of Neurochemisty 1989; 52: 515–520
  • Jenner P. Oxidative stress as a cause of Parkinson's disease. Acta Neurologica Scandinavica 1989; 84(suppl. 136)6–15
  • Coyle J. T., Puttfarcken P. Oxidative stress, glutamate and neurodegenerative disorders. Science 1993; 262: 689–695
  • Spina M. B., Cohen G. Dopamine turnover and glutathione oxidation: implications for Parkinson disease. Proceedings of the National Academy of Science, USA 1989; 86: 1398–1400
  • Olanow C. W. A radical hypothesis for neuro-degeneration. Trends in Neuroscience 1993; 16: 439–444
  • Cadet J. L. A unifying hypothesis of movement and madness: involvement of free radical in disorders of the isodendritic core. Medical Hypotheses 1988; 27: 87–94
  • Halliwell B., Gutteridge J. M.C. Oxygen radicals and the nervous system. Trends in Neuroscience 1985; 8: 22–26
  • Halliwell B. Reactive oxygen species and the central nervous system. Journal of Neurochemistry 1992; 59: 1609–1623
  • Dykens J. A., Stem A., Trenker E. Mechanism of kainate toxicity to cerebellar neurons in vitro is analogous to reperfusion tissue injury. Journal of Neurochemistry 1987; 49: 1222–1228
  • Hall E. D., Braughler J. M. The role of oxygen radical-induced lipid peroxidation in acute central nervous system trauma. Oxygen Radicals and Tissue Injury, B. Halliwell. FASEB, Bethesda 1988; 92–98
  • Carney J. M., Starke-Reed P. E., Oliver C. N., et al. Reversal of age-related changes in brain protein oxidation, decrease in enzyme activity, and loss, in temporal and spatial memory by chronic administration of the spin trapping compound N-tert-butyl-α-phenylnitrone. Proceedings of the National Academy of Science USA 1991; 88: 3633–3636
  • Youdim M. B.H. Brain Iron. Neurochemical and Behavioural Aspects. Taylor and Francis, New York 1988
  • Youdim M. B.H., Ben-Shachar D., Riederer P. The possible role of iron in the etiopathology of Parkinson's disease. Movement Disorder 1993; 8: l–12
  • Zecca L., Pietra R., Goj C., Mecacci C., Radice D., Sabbioni E. The possible role of iron in the etiopathology of Parkinson's disease. Journal of Neurochemisty 1994; 62: 1097–1101
  • Ben-Shachar D., Riederer P., Youdim M. B.H. Iron-melanin interaction and lipid peroxidation: implications for Parkinson's Disease. Journal of Neurochemistry 1991; 57: 1609–1614
  • Dexter D. T., Wells F. R., Lees A. J., et al. Increased nigra iron content and alterations in other metal ions occurring in brain in Parkinson's disease. Journal of Neurochemisty 1989; 52: 1830–1836
  • Tanaka M., Sotomatsu A., Kanai H., Hirai S. Dopa and dopamine cause cultured neuronal death in the presence of iron. Journal of Neurological Science 1991; 101: 198–203
  • Marrel C., Boss G., van de Waterbeemd H., Cooper D., Jenner P., Marsden C. D. L-DOPA esters as potential pro-drugs. Part 1. Physicochemical properties. European Journal of Medicinal Chemistry 1985; 20: 459–465
  • Graham D. G. Oxidative pathways for catecholamines in the genesis of neuromelanin and cytotoxic quinones. Molecular Pharmacology 1978; 14: 6330–643
  • Bindoli A., Rigobello M. P., Deeble D. J. Biochemical and toxicological properties of the oxidation products of catecholamines. Free Radical Biology & Medicine 1992; 13: 391–405
  • Moléeus P., Nordenskjöld M., Bolasfoldi G., Eiche A., Haglund U., Lambert B. Genetic toxicity of dopamine. Mutation Research 1983; 124: 9–24
  • Fornstedt B., Pileblad E., Carlsson A. In vivo autoxidation of dopamine in guinea pig striatum increases with age. Journal of Neurochemistry 1990; 5: 655–659
  • Sanchez-Ramos J. R., Overik E., Ames B. N. A marker of oxyradical-mediated DNA damage (8-hydroxy-2′-deoxy-guanosine) is increased in nigro-striatum of Parkinson's disease brain. Neurodegeneration 1994; 3: 197–204
  • Ogawa N., Asanuma M., Kondo Y., Kawada Y., Yamamoto M., Mori A. Differential effects of chronic L-DOPA treatment on lipid peroxidation in the mouse brain with or without pre-treatment with 6-hydroxydopamine. Neuroscience Letters 1994; 171: 55–58
  • Halliwell B. How to characterize a biological anti-oxidant. Free Radical Research Communications 1990; 9: 1–32
  • Quinlan G. J., Halliwell B., Moorhouse C. P., Gutteridge J. M.C. Action of lead (II) and aluminium (III) ions on iron-stimulated lipid peroxidation in liposomes, erythrocytes and rat liver microsomal fractions. Biochimica et Biophysica Acta 1988; 962: 196–200
  • Willson R. L. Organic peroxyl free radicals as ultimate agents in oxygen toxicity. Oxidative Stress, H. Sies. Academic Press, London 1985; 41–72
  • Aruoma O. I., Halliwell B., Aeschbach R., Löliger J. Antioxidant and pro-oxidant properties of active rosemary constituents: carnosol and carnosic acid. Xenobiotica 1992; 22: 257–268
  • McCord J. M., Fridovich I. Superoxide dismutase. An enzyme function for erythrocuprein (hemocuprein). Journal of Biological Chemistry 1969; 244: 6049–6055
  • Halliwell B., Gutteridge J. M.C., Aruoma O. I. The deoxyribose method a simple test-tube assay for determination of rate constants for reactions of hydroxyl radical. Analytical Biochemistry 1987; 165: 215–219
  • Wasil M., Halliwell B., Hutchison D. C.S., Baum H. The antioxidant action of human extracellular fluids: effect of human serum and its protein components on theinactivationofai-antiproteinasebyhypochlorousacid and by hydrogen peroxide. Biochemical Journal 1987; 243: 219–223
  • Aruoma O. I., Halliwell B. Action of hypochlorous acid on the antioxidant protective enzymes superoxide dismutase, catalase and glutathione peroxidase. Biochemical Journal 1987; 248: 973–976
  • Scott B. C., Aruoma O. I., Evans PJ., O'Neill A., van der Vliet C., Cross C. E., Tritschler H., Halliwell B. Lipoic and dihydrolipoic acids as antioxidants. A critical evaluation. Free Radical Research 1993; 20: 119–133
  • Aruoma O. I. Nutrition and health aspects of free radicals and antioxidants. Food and Chemical Toxicology 1994; 37: 671–685
  • Halliwell B. Use of desferrioxamine as a probe for iron-dependent formation of hydroxyl radicals. Evidence for a direct reaction between desferal and the superoxide radical. Biochemical Pharmacology 1985; 34: 229–233
  • Bielski B. H.J., Cabelli D. E., Arudi R. L. Reactivity of HO2/O2− radicals in aqueous solution. Journal of Physical and Chemical Reference Data 1985; 14: 1041–1100
  • Weiss S. J. Tissue destruction by neutrophils. New England Journal of Medicine 1989; 320: 365–376
  • Ploemen J.H. T.M., Van Ommen B., De Haan A., Venekamp J. C., Van Bladerers P. J. Inhibition of human glutathione-S-transferases by dopamine, a-methyldopa and their 5-S-glutathionyl conjugates. Chemico-Biological Interactions 1994; 90: 87–99
  • Halliwell B., Gutteridge J. M.C. Oxygen toxicity, oxygen radicals, transition metals and disease. Biochemical Journal 1984; 219: 10–14
  • Grootveld M., Bell J. D., Halliwell B., Aruoma O. I., Bomford A., Sadler P. J. Non-transferrin-bound iron in plasma or serum from patients with idiopathic hemochromatosis. Characterization by high performance liquid chromatography and nuclear magnetic resonance spectroscopy. Journal of Biological Chemistry 1989; 264: 4417–4422
  • Richter H. W., Waddell W. H. Mechanism of the oxidation of dopamine by the hydroxyl radical in aqueous solution. Journal of the American Chemical Society 1983; 105: 5434–5440
  • Chiueh C. C., Krishna G., Tulsi P., Obata T., Lang K., Huang S.-J., Murphy D. L. Intracranial microdialysis of salicylic acid to detect hydroxyl radical generation through dopamine autoxidation in the caudate nucleus: effects of MPP+. Free Radical Biology & Medicine 1992; 13: 581–583
  • Spina M. B., Cohen G. Exposure of school synaptosomes to L-Dopa increases levels of oxidized glutathione. Journal of Pharmacology and Experimental Therapeutics 1988; 247: 502–507
  • Anden N. E., Fuxe K., Hamberger B., Hokfelt T. A quantitative study on the nigro-straital dopamine neuron system in the rat. Acta Physiologicn Scandinavica 1966; 67: 306–312
  • Stadtman E. R., Oliver D. N. Metal-catalyzed oxidation of proteins. Physiological consequences. Journal of Biological Chemistry 1991; 266: 2005–2008
  • Halliwell B., Aruoma O. I. DNA damage by oxygen-derived species: its mechanism and measurement in mammalian systems. FEBS Letters 1991; 281: 9–19
  • Spencer J. P.E., Jenner A., Aruoma O. I., Evans P. J., Kaur H., Dexter D. T., Jenner P., Lees A. J., Marsden D. C., Halliwell B. Intense oxidative DNA damage promoted by L-DOPA and its metabolites. Implications for neurodegenerative disease. FEBS. Letters 1994; 353: 246–250
  • Halliwell B., Gutteridge J. M.C., Cross C. E. Free radicals, antioxidants, and human disease: where are we now?. Journal of Laboratory and Clinical Medicine 1992; 119: 598–620
  • Spencer J. P.E., Jenner P., Halliwell B. Superoxide-dependent GSH depletion by L-DOPA and dopamine. Relevance to Parkinson's disease. Neuro Report 1995; 6: 1480–1484

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.