Thomas B. Wishart scite author profile

Recent studies have demonstrated that selective monoamine oxidase inhibition may induce changes in brain beta-phenylethylamine availability following lesions. The present study used this approach to re-assess the possible effects of reserpine on striatal concentrations of beta-phenylethylamine and of other amines and selected metabolites. Mice were injected with pargyline (2,200 mg kg-1, 4 h), clorgyline (2 mg kg-1, 2 h) or (-)deprenyl (2 mg kg-1, 2 h) alone or in combination with reserpine (1, 10 mg kg-1, 2 h). Increases in beta-phenylethylamine accumulation were observed in the presence of both (-)deprenyl or pargyline respectively after reserpine except in the case of combined 200 mg kg-1 of pargyline plus 1 mg kg-1 of reserpine. In this condition, a minimal dopamine decrease was observed (to 80% of the concentration of pargyline-treated controls). Increases in beta-phenylethylamine concentration were not observed with reserpine alone (1 or 10 mg kg-1). In the latter condition, the concentrations of beta-phenylethylamine remained at control values due to the activity of monoamine oxidase B. Changes in p-tyrosine, 5-hydroxytryptamine or tryptophan did not consistently accompany increases in beta-phenylethylamine accumulation. Increased beta-phenylethylamine accumulation was always accompanied by the decreases in dopamine induced by reserpine in mice with either non-selective (200 mg kkg-1 pargyline) or type B monoamine oxidase inhibition (2 mg kg-1 pargyline or deprenyl). These data suggest that although the changes in beta-phenylethylamine accumulation may not be due simply to p-tyrosine availability they are related to dopamine levels in the intact striatum.

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The neuroprotective effects of gamma-vinyl GABA in transient global ischemia: a morphological study with early and delayed evaluations

Shuaib

Murabit

Kanthan

et al. 1996

Neuroscience Letters

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Acetyl-l-carnitine attenuates neuronal damage in gerbils with transient forebrain ischeia only when givenBefore the insult

et al. 1995

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The underlying mechanisms leading to neuronal damage in cerebral ischemia are multifactoral. In this study, we evaluated the neuroprotective effects of acetyl-L-carnitine, a medication that may enhance metabolic recovery after cerebral ischemia. The 5-minute transient forebrain ischemia model in gerbils was used. Acetyl-L-carnitine was given 30 minutes before the insult in one set of animals and 30 minutes after the insult in a second set of animals with histological evaluation at 7 days (Group A) and 28 days (Group B). Damage assessment was done using a 4-point damage score and Mann-Whitney U test was used for statistical analysis. Compared to the controls, there was significant protection in the cerebral cortex, hippocampus and the striatum in animals treated with the medication before the insult in Group A and Group B. Post-ischemic therapy showed little evidence of neuronal protection in either group. Behavioral tests in the Group B animals showed no significant differences between the treated or the saline controls. Our study shows, that pre-ischemic treatment with acetyl-L-carnitine results in neuronal protection. This may have clinical significance in situations (such as bypass surgery) where treatment could be initiated prior to the insult.

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Thomas B. Wishart

Neuroprotective effects of lamotrigine in global ischemia in gerbils. A histological, in vivo microdialysis and behavioral study

Zonisamide as a neuroprotective agent in an adult gerbil model of global forebrain ischemia: a histological, in vivo microdialysis and behavioral study

Reciprocal changes in striatal dopamine and ?-phenylethylamine induced by reserpine in the presence of monoamine oxidase inhibitors

The neuroprotective effects of gamma-vinyl GABA in transient global ischemia: a morphological study with early and delayed evaluations

Acetyl-l-carnitine attenuates neuronal damage in gerbils with transient forebrain ischeia only when givenBefore the insult

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