Graciela Letechipía-Vallejo scite author profile

: This review summarizes the reports that have documented the neuroprotective effects of melatonin against ischemia/reperfusion brain injury. The studies were carried out on several species, using models of acute focal or global cerebral ischemia under different treatment schedules. The neuroprotective actions of melatonin were observed during critical evolving periods for cell processes of immediate or delayed neuronal death and brain injury, early after the ischemia/reperfusion episode. Late neural phenomena accounting either for brain damage or neuronal repair, plasticity and functional recovery taking place after ischemia/reperfusion have been rarely examined for the protective actions of melatonin. Special attention has been paid to the advantageous characteristics of melatonin as a neuroprotective drug: bioavailability into brain cells and cellular organelles targeted by morpho‐functional derangement; effectiveness in exerting several neuroprotective actions, which can be amplified and prolonged by its metabolites, through direct and indirect antioxidant activity; prevention and reversal of mitochondrial malfunction, reducing inflammation, derangement of cytoskeleton organization, and pro‐apoptotic cell signaling; lack of interference with thrombolytic and neuroprotective actions of other drugs; and an adequate safety profile. Thus, the immediate results of melatonin actions in reducing infarct volume, necrotic and apoptotic neuronal death, neurologic deficits, and in increasing the number of surviving neurons, may improve brain tissue preservation. The potential use of melatonin as a neuroprotective drug in clinical trials aimed to improve the outcome of patients suffering acute focal or global cerebral ischemia should be seriously considered.

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Post-ischemic administration of progesterone in rats exerts neuroprotective effects on the hippocampus

Moralí¹,

Letechipía-Vallejo²,

López-Loeza³

et al. 2005

Neuroscience Letters

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Long‐term morphological and functional evaluation of the neuroprotective effects of post‐ischemic treatment with melatonin in rats

Letechipía-Vallejo

López-Loeza

Espinoza-González

et al. 2006

Journal of Pineal Research

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Consensus on neuroprotection has pointed out the relevance of the long-term morphological and functional evaluation of the effectiveness of putative neuroprotective procedures. In the present study, place learning (Morris water maze) and working memory (eight-arm Olton radial maze) were evaluated in adult male rats 90 days after 15 min of global cerebral ischemia (four-vessel occlusion) followed by continuous i.v. infusion (10 mg/kg/hr) of melatonin (Isch + Mel) or vehicle (Isch + Veh) for 6 hr, and the pyramidal neuron population of the cornus Ammoni (CA) of the hippocampus and layers III and V of the medial prefrontal cortex was assessed at the end of the behavioral testing period (120 days after ischemia). Impairment of place learning, a significant delay in working memory acquisition, and a significant loss of pyramidal neurons in the Ammon's horn (CA1: 23%, CA2: 52% CA3: 73%, hilus: 64% remaining neurons), were observed in the Isch + Veh group. By contrast, a similar performance of the Isch + Mel group to that in the Intact and Sham groups and better than that of the Isch + Veh group, besides a significant reduction of pyramidal neuron loss in the CA subfields (CA1: 79%, CA2: 88% CA3: 86%, hilus: 72% remaining neurons), documented that melatonin treatment led to a long-term preservation of both the neural substrate, and the capability for integration of spatial learning and memory, mainly dependent on a normal hippocampal functioning. Overall the results emphasize the efficacy of melatonin in counteracting the pathophysiological processes induced by ischemia, by exerting its actions during a short but critical period early after the ischemic episode.

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Neuroprotective Effect of Melatonin on Brain Damage Induced by Acute Global Cerebral Ischemia in Cats

Letechipía-Vallejo

González-Burgos

Cervantes

2001

Archives of Medical Research

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