Literature DB >> 19299628

Methazolamide and melatonin inhibit mitochondrial cytochrome C release and are neuroprotective in experimental models of ischemic injury.

Xin Wang1, Bryan E Figueroa, Irina G Stavrovskaya, Yi Zhang, Ana C Sirianni, Shan Zhu, Arthur L Day, Bruce S Kristal, Robert M Friedlander.   

Abstract

BACKGROUND AND
PURPOSE: The identification of a neuroprotective drug for stroke remains elusive. Given that mitochondria play a key role both in maintaining cellular energetic homeostasis and in triggering the activation of cell death pathways, we evaluated the efficacy of newly identified inhibitors of cytochrome c release in hypoxia/ischemia induced cell death. We demonstrate that methazolamide and melatonin are protective in cellular and in vivo models of neuronal hypoxia.
METHODS: The effects of methazolamide and melatonin were tested in oxygen/glucose deprivation-induced death of primary cerebrocortical neurons. Mitochondrial membrane potential, release of apoptogenic mitochondrial factors, pro-IL-1beta processing, and activation of caspase -1 and -3 were evaluated. Methazolamide and melatonin were also studied in a middle cerebral artery occlusion mouse model. Infarct volume, neurological function, and biochemical events were examined in the absence or presence of the 2 drugs.
RESULTS: Methazolamide and melatonin inhibit oxygen/glucose deprivation-induced cell death, loss of mitochondrial membrane potential, release of mitochondrial factors, pro-IL-1beta processing, and activation of caspase-1 and -3 in primary cerebrocortical neurons. Furthermore, they decrease infarct size and improve neurological scores after middle cerebral artery occlusion in mice.
CONCLUSIONS: We demonstrate that methazolamide and melatonin are neuroprotective against cerebral ischemia and provide evidence of the effectiveness of a mitochondrial-based drug screen in identifying neuroprotective drugs. Given the proven human safety of melatonin and methazolamide, and their ability to cross the blood-brain-barrier, these drugs are attractive as potential novel therapies for ischemic injury.

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Year:  2009        PMID: 19299628      PMCID: PMC2674528          DOI: 10.1161/STROKEAHA.108.540765

Source DB:  PubMed          Journal:  Stroke        ISSN: 0039-2499            Impact factor:   7.914


  34 in total

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8.  N-acetyl-serotonin offers neuroprotection through inhibiting mitochondrial death pathways and autophagic activation in experimental models of ischemic injury.

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10.  Downregulating hypoxia-inducible factor-1α expression with perfluorooctyl-bromide nanoparticles reduces early brain injury following experimental subarachnoid hemorrhage in rats.

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