Abstract

Vinpocetine is considered as neuroprotectant drug and used for treatment of brain ischemia and cognitive deficiencies for decades. A number of enzymes, channels and receptors can bind vinpocetine, however the mechanisms of many effects’ are still not clear. The present study investigated the effects of vinpocetine from the mitochondrial bioenergetic aspects. In primary brain capillary endothelial cells the purinergic receptor-stimulated mitochondrial Ca2+ uptake and efflux were studied. Vinpocetine exerted a partial inhibition on the mitochondrial calcium efflux. In rodent brain synaptosomes vinpocetine (30 μM) inhibited respiration in uncoupler stimulated synaptosomes and decreased H2O2 release from the nerve terminals in resting and in complex I inhibited conditions, respectively. In isolated rat brain mitochondria using either complex I or complex II substrates leak respiration was stimulated, but ADP-induced respiration was inhibited by vinpocetine. The stimulation of oxidation was associated with a small extent of membrane depolarization. Mitochondrial H2O2 production was inhibited by vinpocetine under all conditions investigated. The most pronounced effects were detected with the complex II substrate succinate. Vinpocetine also mitigated both Ca2+-induced mitochondrial Ca2+-release and Ca2+-induced mitochondrial swelling. It lowered the rate of mitochondrial ATP synthesis, while increasing ATPase activity. These results indicate more than a single mitochondrial target of this vinca alkaloid. The relevance of the affected mitochondrial mechanisms in the anti ischemic effect of vinpocetine is discussed.

Highlights

  • IntroductionAmong its indication are ischemic neuronal damage [1], stroke [2, 3], cerebrovascular diseases [4], neurodegenerative diseases [5, 6], dementia and cognitive deficits [1, 7]

  • Vinpocetine has been marketed for more than 30 years

  • We conclude that the delayed permeability transition pore (PTP) opening, mild mitochondrial depolarization and decreased ­H2O2 release may all play an important role in the beneficial effects of vinpocetine in pathological conditions associated with neuronal damage

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Summary

Introduction

Among its indication are ischemic neuronal damage [1], stroke [2, 3], cerebrovascular diseases [4], neurodegenerative diseases [5, 6], dementia and cognitive deficits [1, 7] During this period many targets and mechanisms of actions has been proposed, including the inhibition of the cyclic nucleotide phosphodiesterase 1 (PDE1) [8, 9], voltage-dependent N­ a+. In the present study the effects of vinpocetine are investigated at three level of complexity, in cellular systems (primary neuronal and endothelial cell cultures), in isolated nerve terminals (synaptosomes) and in isolated guinea pig brain mitochondria. We conclude that the delayed PTP opening, mild mitochondrial depolarization and decreased ­H2O2 release may all play an important role in the beneficial effects of vinpocetine in pathological conditions associated with neuronal damage

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