Nickolay K Isaev

Publications (5)13.84 Total impact

• Source

  Available from: Rustem E Uzbekov

  Article: Stimulation of kainate toxicity by zinc in cultured cerebellar granule neurons and the role of mitochondria in this process.

  Ekaterina R Lozier, Elena V Stelmashook, Rustem E Uzbekov, Svetlana V Novikova, Savva D Zorov, Irina B Alieva, Brigitte Arbeille, Dmitry B Zorov, Nickolay K Isaev
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  ABSTRACT: Zinc chloride (0.01 mM kept for 3h) is not toxic to cultured cerebellar granule neurons (CGNs) while kainate (0.1mM kept for 3h) demonstrates some but very low toxicity towards these cells. Measurements of the relative intraneuronal zinc ion concentration showed that increase in [Zn(2+)](i) under the simultaneous action of ZnCl(2) and kainate was significantly stronger compared to their separate action. Simultaneous treatment of CGNs with kainate and zinc chloride caused the swelling of neuronal mitochondria and consequent intensive neuronal death, which was totally prevented by NBQX (an AMPA/kainate-receptors blocker) or ruthenium red (a mitochondrial Ca(2+) uniporter blocker). These data imply that Zn(2+) synergistically to kainate increase their separate toxic effects on mitochondria leading to rapid neuronal death.
  Toxicology Letters 01/2012; 208(1):36-40. · 3.23 Impact Factor
• Article: Glucose starvation stimulates Zn2+ toxicity in cultures of cerebellar granule neurons.

  Nickolay K Isaev, Ekaterina R Lozier, Svetlana V Novikova, Denis N Silachev, Dmitry B Zorov, Elena V Stelmashook
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  ABSTRACT: Zinc chloride (0.02 mM, 3h) did not have any influence on the survival of cerebellar granule neurons (CGNs) incubated in balanced salt solution (BSS). However, in the absence of glucose ZnCl(2) caused severe neuronal damage, decreasing cell survival to 12±2%. Either the blockade of ionotropic glutamate NMDA-receptors with MK-801 or APV or supplementation the medium with ruthenium red (mitochondrial Ca(2+) uniporter blocker) almost entirely protected CGNs from the toxic effect of ZnCl(2) during glucose deprivation (GD). However, NBQX (AMPA/kainate glutamate receptor blocker) did not show protective effect. Measurements of intracellular calcium ions concentration using fluorescent probe (Fluo-4 AM) and zinc ions (FluoZin-3AM) demonstrated that 1.5h-exposure to GD induced intensive increase of Fluo-4 fluorescence and small increase of FluoZin-3 fluorescence in neurons. The supplementation of medium with ZnCl(2) caused equal increase of FluoZin-3 fluorescence at both GD and normoglycemia, whereas the potentiation of Fluo-4 fluorescence by zinc was observed only under GD and could be prevented by MK-801. However, neither MK-801 nor NBQX could influence [Zn(2+)](i) increase caused by zinc addition under GD, while ruthenium red did cause significant increase of [Zn(2+)](i). This data implies that zinc ions during GD induce an additional overload of CGNs with calcium ions that get transported through activated NMDA-channel. Zinc and calcium ions accumulate in mitochondria and amplify individual destructive action on these organelles leading to neuronal death.
  Brain research bulletin 11/2011; 87(1):80-4. · 2.18 Impact Factor
• Article: Synthetic and natural polyanions induce cytochrome c release from mitochondria in vitro and in situ.

  Boris F Krasnikov, Nickolay S Melik-Nubarov, Lubava D Zorova, Alevtina E Kuzminova, Nickolay K Isaev, Arthur J L Cooper, Dmitry B Zorov
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  ABSTRACT: A synthetic polyanion composed of styrene, maleic anhydride, and methacrylic acid (molar ratio 56:37:7) significantly inhibited the respiration of isolated rat liver mitochondria in a time-dependent fashion that correlated with 1) collapse of the mitochondrial membrane potential and 2) high amplitude mitochondrial swelling. The process is apparently Ca(2+) dependent. Since it is blocked by cyclosporin A, the process is ascribed to induction of the mitochondrial permeability transition. In mitoplasts, i.e., mitochondria lacking their outer membranes, the polyanion rapidly blocked respiration. After incubation of rat liver mitochondria with the polyanion, cytochrome c was released into the incubation medium. In solution, the polyanion modified by conjugation with fluorescein formed a complex with cytochrome c. Addition of the polyanion to cytochrome c-loaded phosphatidylcholine/cardiolipin liposomes induced the release of the protein from liposomal membrane evidently due to coordinated interplay of Coulomb and hydrophobic interactions of the polymer with cytochrome c. We conclude that binding of the polyanion to cytochrome c renders it inactive in the respiratory chain due to exclusion from its native binding sites. Apparently, the polyanion interacts with cytochrome c in mitochondria and releases it to the medium through breakage of the outer membrane as a result of severe swelling. Similar properties were demonstrated for the natural polyanion, tobacco mosaic virus RNA. An electron microscopy study confirmed that both polyanions caused mitochondrial swelling. Exposure of cerebellar astroglial cells in culture to the synthetic polyanion resulted in cell death, which was associated with nuclear fragmentation.
  AJP Cell Physiology 01/2011; 300(5):C1193-203. · 3.54 Impact Factor
• Article: Paraquat potentiates glutamate toxicity in immature cultures of cerebellar granule neurons.

  Elena V Stelmashook, Nickolay K Isaev, Dmitry B Zorov
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  ABSTRACT: Toxic concentrations of paraquat (0.2mM, 24h) caused death of both mature and immature cerebellar granule neurons (CGNs), which could be prevented by blockers of ionotropic glutamate receptors, or by removal of glutamine from cultural medium. Glutamate (Glu, 0.05-1mM, 24h) was highly toxic for mature CGNs while young CGNs were insensitive to the toxic effect of Glu. Measurements of the relative intracellular calcium ion concentration showed that the Glu-induced [Ca(2+)](i) rise in mature neurons was two times higher than that in young neurons. Subtoxic concentrations of paraquat did not affect the Glu-induced [Ca(2+)](i) rise in neurons, but lowered the CGNs survival only in immature cultures. These data provide evidence that oxidative stress induced by paraquat is a strong factor modulating the glutamate-induced damage to immature CGNs.
  Toxicology Letters 12/2007; 174(1-3):82-8. · 3.23 Impact Factor
• Article: Menadione reduces rotenone-induced cell death in cerebellar granule neurons.

  Nickolay K Isaev, Elena V Stelmashook, Karsten Ruscher, Nadezhda A Andreeva, Dmitry B Zorov
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  ABSTRACT: Oxidative stress has been implicated in neuronal death caused by cerebral ischemia or some neurologic disorders. Chemical hypoxia (term defining the simulation by using respiratory inhibitors) chosen as in vitro ischemic model, was induced in primary cultures of rat cerebellar granule neurons by inhibitors of mitochondrial electron transport such as rotenone or paraquat (complex I), 3-nitropropionic acid (3-NPA, complex II), antimycin A (complex III), or sodium azide (complex IV). All compounds caused neuronal death determined by trypan blue staining and MTT-test. On the other hand, neurotoxicity of rotenone and paraquat but not of 3-NPA, antimycin or azide was significantly abolished by menadione (vitamin K3, 2-methyl-1,4-naphthoquinone). This neuroprotective effect of menadione was associated with a decrease of rotenone-induced free radical production.
  Neuroreport 11/2004; 15(14):2227-31. · 1.66 Impact Factor