Adolfas Toleikis scite author profile

We review research investigating mitochondrial damage during heart and brain ischaemia, focusing on the mechanisms and consequences of ischaemia-induced and/or reperfusion-induced: (a) inhibition of mitochondrial respiratory complex I; (b) release of cytochrome c from mitochondria; (c) changes to mitochondrial phospholipids; and (d) nitric oxide inhibition of mitochondria. Heart ischaemia causes inhibition of cytochrome oxidase and complex I, release of cytochrome c, and induction of permeability transition and hydrolysis and oxidation of mitochondrial phospholipids, but some of the mechanisms are unclear. Brain ischaemia causes inhibition of complexes I and IV, but other effects are less clear.

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The effect of flavonoids on rat heart mitochondrial function

Trumbeckaitė

Bernatonienė

Majienė

et al. 2006

Biomedicine & Pharmacotherapy

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The role of adenine nucleotide translocators in regulation of oxidative phosphorylation in heart mitochondria

Kholodenko¹,

Z̆ilinskie·e²,

Borutaitė³

et al. 1987

FEBS Letters

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The regulative role of adenine nucleotide translocators (ANTS) in oxidative phosphorylation has been estimated by the titration of respiration of isolated rabbit heart mitochondria with carboxyatractyloside in the presence of a non-rate limiting creatine phosphokinase ADP-regenerating system. It has been established that the respiration rate is not controlled by ANTS in the two extreme states, state 3 and state 4. On the other hand, at an intermediate respiration rate (30-70s of the state 3 respiration, which roughly corresponds to that under physiological conditions) the ANT control coefficient had a value of 0.62-0.75. Thus, ANTS seem to play a key role in the regulation of oxidative phosphorylation.

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Effects of Ginkgo biloba extract on heart and liver mitochondrial functions: mechanism(s) of action

Baliūtytė

Banienė

Trumbeckaitė

et al. 2010

J Bioenerg Biomembr

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Though extracts of Ginkgo biloba leaves (GBE) have a wide pharmacological application, little is known about GBE effects on mitochondria. In this work, effects of ethanolic GBE on the respiration of isolated rat heart and liver mitochondria were investigated. We found that GBE stimulates the pyruvate + malate-dependent State 2 respiration of heart mitochondria and decreases mitochondrial membrane potential. Uncoupling effect of GBE was found to be due to its protonophoric action and is likely to be mediated by the ATP/ADP-translocator and uncoupling proteins. The effect of GBE was less in liver than in heart mitochondria. State 3 respiration of heart mitochondria was slightly stimulated at low and depressed at higher GBE concentrations. Inhibition of State 3 respiration of heart mitochondria was not relieved by uncoupler indicating that GBE may inhibit the respiratory chain complexes or the substrate transport. However, Complex IV of the respiratory chain was not inhibited by GBE. H(2)O(2) generation was attenuated by low concentration of GBE probably due to mild uncoupling. The data suggest that mild but not severe uncoupling activity of GBE may be important in providing pharmacological protection of cellular functions in pathological situations.

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Effect of Ginkgo biloba extract on the rat heart mitochondrial function

Trumbeckaitė

Bernatonienė

Majienė

et al. 2007

Journal of Ethnopharmacology

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