脑脂质过氧化:左旋多巴/多巴胺与抗坏血酸和铁的相互作用

Chun-Lun Li, Peter Werner, Gerald Cohen
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引用次数: 48

摘要

最近的报道强调了铁的积累和黑质中脂质过氧化物水平的提高是帕金森病发病的重要因素。许多研究人员认为,抗坏血酸等组织抗氧化剂起着保护作用。另一方面,广泛用于治疗帕金森氏症的左旋多巴(L-DOPA)会发生自氧化(与多巴胺一样),从而产生活性氧。我们研究了小鼠脑匀浆中的脂质过氧化(LPO),并评估了铁(5μM铁- adp)、左旋多巴、多巴胺和抗坏血酸单独或混合添加的影响。抗坏血酸在0.5 mM或2.0 mM的水平上使用,接近大脑中正常存在的水平。脑匀浆中的LPO可以通过添加抗坏血酸或铁,以及两者的组合来刺激,这与其他报道一致。左旋多巴的作用是复杂的:无论是否添加铁- adp,左旋多巴都能强烈抑制LPO。与此形成鲜明对比的是,当加入抗坏血酸时,左旋多巴不再抑制LPO;事实上,在添加铁和抗坏血酸的情况下,左旋多巴刺激了LPO。多巴胺的表现与左旋多巴相似。当研究抗坏血酸的浓度范围时,LPO在0.5,1,2或3 mM时被刺激,添加或不添加铁和/或多巴胺;5和10 mM抗坏血酸要么没有效果,要么抑制LPO低于对照水平。去铁胺是一种强大的铁螯合剂,在所有条件下都能极大地抑制LPO,二乙烯三胺五乙酸酯(DTPA)也是如此。添加超氧化物歧化酶无明显影响。这些数据说明:(a)抗坏血酸的显著促氧化作用,在高浓度(10毫米)时被抗氧化作用所取代;(b)左旋多巴和多巴胺的强抗氧化作用,在添加抗坏血酸时被温和的促氧化作用所取代。
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Lipid Peroxidation in Brain: Interactions of L-DOPA/Dopamine with Ascorbate and Iron

Recent reports have stressed an accumulation of iron and enhanced levels of lipid peroxides in the substantia nigra as essential factors in the pathogenesis of Parkinson's disease. Many investigators believe that tissue antioxidants, such as ascorbate, play a protective role. On the other hand, L-DOPA, which is used extensively to treat Parkinson's disease, undergoes autoxidation (as does dopamine), thus generating reactive oxygen species. We studied lipid peroxidation (LPO) in mouse brain homogenates and evaluated the effects of iron (5μM ferric-ADP), L-DOPA, dopamine and ascorbic acid, added either alone or in mixtures. Ascorbic acid was used at levels of 0.5 mM or 2.0 mM, approximating those present normally in brain. LPO in brain homogenates was stimulated by the addition of either ascorbic acid or iron, as well as by a combination of the two, in agreement with other reports. The effects of L-DOPA were complex: L-DOPA strongly suppressed LPO both with and without added iron-ADP. In sharp contrast, however, when ascorbic acid was also added, L-DOPA no longer suppressed LPO; indeed, L-DOPA stimulated LPO in the presence of added iron and ascorbic acid. Dopamine behaved similarly to L-DOPA. When ascorbic acid was studied over a concentration range, LPO was stimulated at 0.5, 1, 2 or 3 mM, with or without added iron and/or dopamine; 5 and 10 mM ascorbic acid were either not as effective or suppressed LPO below control levels. Deferoxamine, a powerful iron chelator, greatly suppressed LPO under all conditions, as did diethylenetriaminepentaacetate (DTPA). Added superoxide dismutase had no effect. These data illustrate: (a) the prominent pro-oxidant action of ascorbate, giving way to an antioxidant effect at high concentration (10 mM), and (b) the strong antioxidant effects of L-DOPA and dopamine, giving way to a milder pro-oxidant effect in the presence of added ascorbic acid.

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