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Review
. 2024 Dec 2;25(23):12943.
doi: 10.3390/ijms252312943.

The Oxidative Stress in Epilepsy-Focus on Melatonin

Maciej Kamieniak  1 Kamil Kośmider  1 Barbara Miziak  1 Stanisław J Czuczwar  1
Affiliations
Review

The Oxidative Stress in Epilepsy-Focus on Melatonin

Maciej Kamieniak et al. Int J Mol Sci. .

Abstract

Oxidative stress develops when there is an excess of oxidants leading to molecular and cellular damage. Seizure activity leads to oxidative stress and the resulting increased lipid peroxidation. Generally, antiseizure medications reduce oxidative stress, although the data on levetiracetam are ambiguous. Exogenous antioxidants (vitamin E, resveratrol, hesperidin, and curcumin) have been documented to exert an anticonvulsant effect in animal models of seizures and some recent clinical data point to curcumin as an affective adjuvant for the therapy of pediatric intractable epilepsy. Melatonin is an antioxidant with an ability to attenuate seizure activity induced by various convulsants in rodents. Its clinical effectiveness has been also confirmed in a number of clinical studies. Experimental studies point to a possibility that endogenous melatonin may possess proconvulsive activity. Moreover, some scarce clinical data seem to express this view; however, a limited number of patients were included. The anticonvulsant activity of exogenous melatonin may involve GABA-mediated inhibition, while endogenous melatonin may act as a proconvulsant due to a decrease in the brain dopaminergic transmission. Antioxidants, including melatonin, may be considered as adjuvants in the therapy of epilepsy and melatonin, in addition, in patients with epilepsy suffering from sleep disorders.

Keywords: antioxidants; epilepsy; free radicals; melatonin; oxidative stress; seizures.

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Conflict of interest statement

S.J.C. received financial support from Bayer, GlaxoSmithKline, Janssen, Novartis, and Sanofi-Aventis for lecturing. S.J.C. is also a recipient of an unrestricted grant from Glaxo SmithKline. The remaining authors have nothing to disclose.

Figures

Figure 1
Figure 1
Melatonin—mechanisms of action: melatonin → ATP-sensitive potassium channels—stimulating effect; and melatonin → ROS/swelling—inhibitory effect. up arrow—increased, down arrow—decreased. For further explanations, see text.
See this image and copyright information in PMC

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