Dun‐Xian Tan scite author profile

Melatonin was discovered to be a direct free radical scavenger less than 10 years ago. Besides its ability to directly neutralize a number of free radicals and reactive oxygen and nitrogen species, it stimulates several antioxidative enzymes which increase its efficiency as an antioxidant. In terms of direct free radical scavenging, melatonin interacts with the highly toxic hydroxyl radical with a rate constant equivalent to that of other highly efficient hydroxyl radical scavengers. Additionally, melatonin reportedly neutralizes hydrogen peroxide, singlet oxygen, peroxynitrite anion, nitric oxide and hypochlorous acid. The following antioxidative enzymes are also stimulated by melatonin: superoxide dismutase, glutathione peroxidase and glutathione reductase. Melatonin has been widely used as a protective agent against a wide variety of processes and agents that damage tissues via free radical mechanisms.

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Melatonin: A Multitasking Molecule

Reíter

2010

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Actions of Melatonin in the Reduction of Oxidative Stress

et al. 2000

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Melatonin, hydroxyl radical‐mediated oxidative damage, and aging: A hypothesis

Pöeggeler

Reíter

Tan

et al. 1993

Journal of Pineal Research

470

324

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Melatonin is a very potent and efficient endogenous radical scavenger. The pineal indolamine reacts with the highly toxic hydroxyl radical and provides on-site protection against oxidative damage to biomolecules within every cellular compartment. Melatonin acts as a primary non-enzymatic antioxidative defense against the devastating actions of the extremely reactive hydroxyl radical. Melatonin and structurally related tryptophan metabolites are evolutionary conservative molecules principally involved in the prevention of oxidative stress in organisms as different as algae and rats. The rate of aging and the time of onset of age-related diseases in rodents can be retarded by the administration of melatonin or treatments that preserve the endogenous rhythm of melatonin formation. The release of excitatory amino acids such as glutamate enhances endogenous hydroxyl radical formation. The activation of central excitatory amino acid receptors suppress melatonin synthesis and is therefore accompanied by a reduced detoxification rate of hydroxyl radicals. Aged animals and humans are melatonin-deficient and more sensitive to oxidative stress. Experiments investigating the effects of endogenous excitatory amino acid antagonists and stimulants of melatonin biosynthesis such as magnesium may finally lead to novel therapeutic approaches for the prevention of degeneration and dysdifferentiation associated with diseases related to premature aging.

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The significance of the metabolism of the neurohormone melatonin: Antioxidative protection and formation of bioactive substances

Hardeland

Reíter

Pöeggeler

et al. 1993

Neuroscience & Biobehavioral Reviews

401

295

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Dun‐Xian Tan

Actions of melatonin in the reduction of oxidative stress

Melatonin: A Multitasking Molecule

Actions of Melatonin in the Reduction of Oxidative Stress

Melatonin, hydroxyl radical‐mediated oxidative damage, and aging: A hypothesis

The significance of the metabolism of the neurohormone melatonin: Antioxidative protection and formation of bioactive substances

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