Oleg Krishtal- Selected publications#


  • Kondratskaya,E.L., Pankratov,Y.V., Lalo,U.V., Chatterjee,S.S., and Krishtal,O.A. (2004). Inhibition of hippocampal UP by ginkgolide B is mediated by its blocking action on PAF rather than glycine receptors. Neurochemistry International 44, 171-177.
  • Pankratov,Y.V. and Krishtal,O.A. (2003). Distinct quantal features of AMPA and NMDA synaptic currents in hippocampal neurons: Implication of glutamate spillover and receptor saturation. Biophysical Journal 85, 3375-3387.
  • Chatterjee,S.S., Kondratskaya,E.L., and Krishtal,O.A. (2003). Structure-activity studies with Ginkgo biloba extract constituents as receptor-gated chloride channel blockers and modulators. Pharmacopsychiatry 36, S68-S77.
  • Kopanitsa,M.V., Yakubovska,L.M., Rudenko,O.P., and Krishtal,O.A. (2002). Modulation of GABA(A) receptor-mediated currents by benzophenone derivatives in isolated rat Purkinje neurones. Neuropharmacology 43, 764-777.
  • Pankratov,Y.V., Lalo,U.V., and Krishtal,O.A. (2002). Role for P2X receptors in long-term potentiation. Journal of Neuroscience 22, 8363-8369.
  • Pankratov,Y., Lalo,U., Krishtal,O., and Verkhratsky,A. (2002). Ionotropic P2X purinoreceptors mediate synaptic transmission in rat pyramidal neurones of layer II/III of somato-sensory cortex. Journal of Physiology-London 542, 529-536.
  • Tsintsadze,T.S., Lozovaya,N.A., and Krishtal,O.A. (2001). Effects of long-term hypoxia/hypoglycemia on synaptic transmission between the CA3 and CA1 zones in rat hippocampal slices. Neurophysiology 33, 365-371.
  • Kondratskaya,E.L., Lishko,P.V., Chatterjee,S.S., and Krishtal,O.A. (2002). BN52021, a platelet activating factor antagonist, is a selective blocker of glycine-gated chloride channel. Neurochemistry International 40, 647-653.
  • Maximyuk,O.P., Lozovaya,N.A., Kopanitsa,M.V., and Krishtal,O.A. (2002). G-protein inhibition of N- and P/Q-type calcium channels. Biologicheskie Membrany 19, 42-48.
  • Fisyunov,A.I., Lozovaya,N.A., Tsyntsadze,T.S., Yatsenko,N.M., Chatterjee,S., and Krishtal,O.A. (2001). Modulating action of hyperforin on the P-type calcium channels in the membranes of rat cerebellar purkinje neurons. Neurophysiology 33, 5-10.
  • Pankratov,Y.V., Lalo,U.V., Dashkin,A.N., and Krishtal,O.A. (2001). Heterogeneity of the functional expression of P2X3 and P2X2/3 receptors in the primary nociceptive neurons of rat. Neurochemical Research 26, 993-1000.
  • Krishtal,O., Lozovaya,N., Fisunov,A., Tsintsadze,T., Pankratov,Y., Kopanitsa,M., and Chatterjee,S.S. (2001). Modulation of ion channels in rat neurons by the constituents of Hypericum perforatum. Pharmacopsychiatry 34, S74-S82.
  • Kopanitsa,M.V., Zhuk,O.V., Zinkovsky,V.G., and Krishtal,O.A. (2001). Modulation of GABA(A) receptor-mediated currents by phenazepam and its metabolites. Naunyn-Schmiedebergs Archives of Pharmacology 364, 1-8.
  • Lalo,U.V., Pankratov,Y.V., Arndts,D., and Krishtal,O.A. (2001). Omega-Conotoxin GVIA potently inhibits the currents mediated by P2X receptors in rat DRG neurons. Brain Research Bulletin 54, 507-512.
  • Ostrovskaya,O.I., Kostyuchenko,O.V., and Krishtal,O.A. (2000). A component of the transmembrane current in molluscan neurons is gated by both protons and voltage. Neurophysiology 32, 125-126.
  • Kopanitsa,M.V., Zbarska,S.M., Boychuk,Y.A., and Krishtal,O.A. (2000). Modulation of GABA-activated currents by phenazepam and its metabolites in isolated rat Purkinje neurons. Neurophysiology 32, 192.
  • Krishtal,O., Kirichok,Y., Tsintsadze,T., Lozovaya,N., Loesel,W., and Arndts,D. (2001). New channel blocker BIIA388CL blocks delayed rectifier, but not A-type potassium current in central neurons. Neuropharmacology 40, 233-241.
  • Gerasimov,V.D., Artemenko,D.P., and Krishtal,O.A. (2001). Preconditioning by motor activity protects rat hippocampal CA1 neurons against prolonged ischemia. Brain Research 888, 326-329.
  • Kirichok,Y.V., Boychuk,Y.A., Kopanitsa,M.V., Tsintsadze,T.S., Lozovaya,N.A., and Krishtal,O.A. (2000). Effects of mibefradil on synaptic transmission in the hippocampus and on voltage-dependent currents in isolated hippocampal and thalamic neurons of the rat. Neurophysiology 32, 12-16.
  • Fisunov,A., Lozovaya,N., Tsintsadze,T., Chatterjee,S., Noldner,M., and Krishtal,O. (2000). Hyperforin modulates gating of P-type Ca2+ current in cerebellar Purkinje neurons. Pflugers Archiv-European Journal of Physiology 440, 427-434.
  • Zhenochin,S.P., Piotrovsky,L.B., Dumpis,M.A., Maximyuk,O.P., Lishko,P.V., Tsyndrenko,A.Y., and Krishtal,O.A. (1999). *Analogs of a superacidic NMDA receptor agonist, N-phthalamoyl- L-glutamic acid (PhGA): Activity and mode of interaction with the receptor recognition site. Neurophysiology 31, 295-303.
  • Artemenko,D.P., Gerasimov,V.D., and Krishtal,O.A. (2000). Electrical responses in hippocampal slices after prolonged global ischemia: effects of neuroprotectors. Brain Research 863, 66-70.
  • Kopanitsa,M.V., Krishtal,O.A., and Komissarov,I.V. (2000). Inhibitory action of ambocarb on voltage-operated sodium channels in rat isolated hippocampal pyramidal neurons. Clinical and Experimental Pharmacology and Physiology 27, 46-54.
  • Lishko,P.V., Piotrovsky,L.B., Maksimyuk,A.P., and Krishtal,O.A. (1999). Dependence of pharmacological activity of new NMDA agonists and antagonists on their chemical structure. Neurophysiology 31, 147-149.
  • Filippov,V.M. and Krishtal,O.A. (1999). Pharmacological properties of the potassium-activated inward current in pyramidal hippocampal neurons. Neurophysiology 31, 49-52.
  • Chatterjee,S., Filippov,V., Lishko,P., Maximyuk,O., Noldner,M., and Krishtal,O. (1999). Hyperforin attenuates various ionic conductance mechanisms in the isolated hippocampal neurons of rat. Life Sciences 65, 2395-2405.
  • Magura,E.I., Krishtal,O.A., and Gleitz,J. (1998). Effects of (+)-methysticin on the mechanisms responsible for sodium channel inactivation in rat hippocampal neurons. Neurophysiology 30, 256-258.
  • Filippov,V.M., Pinchenko,V., Volkova,T.M., and Krishtal,O.A. (1998). Membrane responses to changes in the extracellular potassium concentration in isolated hippocampal pyramidal neurons. Neurophysiology 30, 259-263.
  • Fisyunov,A.I. and Krishtal,O.A. (1998). Kinetic characteristics of interaction of conotoxin with N-type Ca2+ channels in rat hippocampal neurons. Neurophysiology 30, 285-288.
  • Filippov,V. and Krishtal,O. (1999). The mechanism gated by external potassium and sodium controls the resting conductance ln hippocampal and cortical neurons. Neuroscience 92, 1231-1242.
  • Lozovaya,N.A., Kopanitsa,M.V., Boychuk,Y.A., and Krishtal,O.A. (1999). Enhancement of glutamate release uncovers spillover-mediated transmission by N-methyl-D-aspartate receptors in the rat hippocampus. Neuroscience 91, 1321-1330.
  • Lishko,P.V., Maximyuk,O.P., Chatterjee,S.S., Noldner,M., and Krishtal,O.A. (1998). The putative cognitive enhancer KA-672.HCl is an uncompetitive voltage-dependent NMDA receptor antagonist. Neuroreport 9, 4193-4197.
  • Pankratov,Y., Castro,E., Miras-Portugal,M.T., and Krishtal,O. (1998). A purinergic component of the excitatory postsynaptic current mediated by P2X receptors in the CA1 neurons of the rat hippocampus. European Journal of Neuroscience 10, 3898-3902.
  • Kopanitsa,M.V., Lozovaya,N.A., Boychuk,Y.A., and Krishtal,O.A. (1997). Effects of blockers of voltage-operated potassium channels on an NMDA component of excitatory synaptic transmission in the CAI subfield of the rat hippocampus. Neurophysiology 29, 241-244.
  • Kirichok,Y.V., Nikolaev,A.V., and Krishtal,O.A. (1998). (K+)(out) accelerates inactivation of Shal-channels responsible for A-current in rat CA1 neurons. Neuroreport 9, 625-629.
  • Magura,E.I., Kopanitsa,M.V., Gleitz,J., Peters,T., and Krishtal,O.A. (1997). Kava extract ingredients, (+)-methysticin and (+/-)-kavain inhibit voltage-operated Na+-channels in rat CA1 hippocampal neurons. Neuroscience 81, 345-351.
  • Tsintsadze,T., Lozovaya,N., Klishin,A., and Krishtal,O. (1996). NMDA receptor-mediated synapses between CA1 neurones: Activation by ischaemia. Neuroreport 7, 2679-2682.
  • Parsons,C.G., Panchenko,V.A., Pinchenko,V.O., Tsyndrenko,A.Y., and Krishtal,O.A. (1996). Comparative patch-clamp studies with freshly dissociated rat hippocampal and striatal neurons on the NMDA receptor antagonistic effects of amantadine and memantine. European Journal of Neuroscience 8, 446-454.
  • Panchenko,V.A., Pintor,J., Tsyndrenko,A.Y., MirasPortugal,M.T., and Krishtal,O.A. (1994). Modulatory effects of diadenosine polyphosphates on different types of calcium channels in the rat central neurons. Neurophysiology 26, 334-340.
  • Klishin,A.I., Lozovaya,N.A., and Krishtal,O.A. (1994). Modulation by diadenosine polyphosphates of synaptic transmission in the hippocampus. Neurophysiology 26, 347-349.
  • Kopanitsa,M.V., Panchenko,V.A., Magura,E.I., Lishko,P.V., and Krishtal,O.A. (1995). Capsaicin blocks Ca2+ channels in isolated rat trigeminal and hippocampal neurones. Neuroreport 6, 2338-2340.
  • Klishin,A., Tsintsadze,T., Lozovaya,N., and Krishtal,O. (1995). Latent N-methyl-D-aspartate receptors in the recurrent excitatory pathway between hippocampal CA1 pyramidal neurons: Ca2+-dependent activation by blocking A(1) adenosine receptors. Proceedings of the National Academy of Sciences of the United States of America 92, 12431-12435.
  • Panchenko,V.A., Pintor,J., Tsyndrenko,A.Y., MirasPortugal,M.T., and Krishtal,O.A. (1996). Diadenosine polyphosphates selectively potentiate N-type Ca2+ channels in rat central neurons. Neuroscience 70, 353-360.
  • Klishin,A., Lozovaya,N., and Krishtal,O. (1995). A (1) adenosine receptors differentially regulate the N-methyl- D-aspartate and non-N-methyl-D-aspartate receptor-mediated components of hippocampal excitatory postsynaptic current in a Ca2+/Mg2+-dependent manner. Neuroscience 65, 947-953.
  • Klishin,A., Lozovaya,N., and Krishtal,O. (1994). Persistently enhanced ratio of NMDA and non-NMDA components of rat hippocampal EPSC after block of A(1) adenosine receptors at increased (Ca2+)(o) (Mg2+)(o). Neuroscience Letters 179, 132-136.
  • Klishin,A., Lozovaya,N., Pintor,J., MirasPortugal,M.T., and Krishtal,O. (1994). Possible functional-role of diadenosine polyphosphates - negative feedback for excitation in hippocampus. Neuroscience 58, 235-236.
  • Kiskin,N.I., Chizhmakov,I.V., Tsyndrenko,A.Y., Krishtal,O.A., and Tegtmeier,F. (1993). R56865 and flunarizine as Na+-channel blockers in isolated Purkinje neurons of rat cerebellum. Neuroscience 54, 575-585.
  • Panchenko,V.A., Krishtal,O.A., Tegtmeier,F., and Tsyndrenko,A.Y. (1993). R56865 as Ca2+-channel blocker in Purkinje neurons of rat - comparison with flunarizine and nimodipine. Neuroscience 54, 587-594.
  • Garaschuk,O., Kovalchuk,Y., and Krishtal,O. (1993). Glutamate and theta-rhythm stimulation selectively enhance NMDA component of EPSC in CA1 neurons of young-rats. Neuroscience Letters 151, 29-32.
  • Kiskin,N.I., Chizhmakov,I.V., Tsyndrenko,A.Y., Mueller,A.L., Jackson,H., and Krishtal,O.A. (1992). A highly potent and selective N-methyl-D-aspartate receptor antagonist from the venom of the agelenopsis-aperta spider. Neuroscience 51, 11-18.
  • Chizhmakov,I.V., Kiskin,N.I., and Krishtal,O.A. (1992). 2 types of steady-state desensitization of N-methyl-D-aspartate receptor in isolated hippocampal neurons of rat. Journal of Physiology-London 448, 453-472.
  • Garaschuk,O., Kovalchuk,Y., and Krishtal,O. (1992). Adenosine-dependent enhancement by methylxanthines of excitatory synaptic transmission in hippocampus of rats. Neuroscience Letters 135, 10-12.
  • Krishtal,O.A., Chernevskaya,N.I., and Obukhov,A.G. (1991). Inhibitory-action of NMDA-type receptors on N-type Ca-channels in hippocampal neurons. Biomedical Research-Tokyo 12, 67-69.
  • Kiskin,N.I., Tsyndrenko,A.Y., Dumpis,M.A., Piotrovsky,L.B., and Krishtal,O.A. (1991). A novel selective NMDA agonist, N-phthalamoyl-L-glutamic acid (PHGA). Neuroreport 2, 29-32.
  • Chernevskaya,N.I., Obukhov,A.G., and Krishtal,O.A. (1991). NMDA receptor agonists selectively block N-type calcium channels in hippocampal neurons. Nature 349, 418-420.
  • Kovalchuk,Y.N., Krishtal,O.A., and Nowycky,M.C. (1990). The proton-activated inward current of rat sensory neurons includes a calcium component. Neuroscience Letters 115, 237-242.
  • Kiskin,N.I., Krishtal,O.A., and Tsyndrenko,A.Y. (1990). Cross-desensitization reveals pharmacological specificity of excitatory amino-acid receptors in isolated hippocampal neurons. European Journal of Neuroscience 2, 461-470.
  • Akaike,N., Krishtal,O.A., and Maruyama,T. (1990). Proton-induced sodium current in frog isolated dorsal root ganglion cells. Journal of Neurophysiology 63, 805-813.
  • Chizhmakov,I.V., Kiskin,N.I., Tsyndrenko,A.Y., and Krishtal,O.A. (1990). Desensitization of NMDA receptors does not proceed in the presence of kynurenate. Neuroscience Letters 108, 88-92.
  • Krishtal,O.A., Petrov,A.V., Smirnov,S.V., and Nowycky,M.C. (1989). Hippocampal synaptic plasticity induced by excitatory amino- acids includes changes in sensitivity to the calcium-channel blocker, omega-conotoxin. Neuroscience Letters 102, 197-204.
  • Chizhmakov,I.V., Kiskin,N.I., Krishtal,O.A., and Tsyndrenko,A.Y. (1989). Glycine action on N-methyl-D-aspartate receptors in rat hippocampal neurons. Neuroscience Letters 99, 131-136.
  • Krishtal,O.A., Marchenko,S.M., and Obukhov,A.G. (1988). Cationic channels activated by extracellular ATP in rat sensory neurons. Neuroscience 27, 995-1000.
  • Krishtal,O.A., Marchenko,S.M., Obukhov,A.G., and Volkova,T.M. (1988). Receptors for ATP in rat sensory neurons - the structure-function relationship for ligands. British Journal of Pharmacology 95, 1057-1062.
  • Akaike,N., Kaneda,M., Hori,N., and Krishtal,O.A. (1988). Blockade of N-methyl-D-aspartate response in enzyme-treated rat hippocampal neurons. Neuroscience Letters 87, 75-79.
  • Krishtal,O.A., Smirnov,S.V., and Osipchuk,Y.V. (1988). Changes in the state of the excitatory synaptic system in the hippocampus on prolonged exposure to excitatory amino-acids and antagonists. Neuroscience Letters 85, 82-88.
  • Krishtal,O.A., Osipchuk,Y.V., and Vrublevsky,S.V. (1988). Properties of glycine-activated conductances in rat-brain neurons. Neuroscience Letters 84, 271-276.
  • Krishtal,O.A., Osipchuk,Y.V., Shelest,T.N., and Smirnoff,S.V. (1987). Rapid extracellular pH transients related to synaptic transmission in rat hippocampal slices. Brain Research 436, 352-356.
  • Kiskin,N.I., Krishtal,O.A., Tsyndrenko,A.Y., Mandelshtam,Y.E., Baranov,G.M., and Dejko,L.M. (1987). Modifying action of L-glutamate esters on the excitatory amino-acid receptors in the membrane of hippocampal neurons. Biologicheskie Membrany 4, 937-946.
  • Akaike,N., Kawai,N., Kiskin,N.I., Kljuchko,E.M., Krishtal,O.A., and Tsyndrenko,A.Y. (1987). Spider toxin blocks excitatory amino-acid responses in isolated hippocampal pyramidal neurons. Neuroscience Letters 79, 326-330.
  • Marchenko,S.M., Krishtal,O.A., Slepushkin,V.A., and Bukrinskaya,A.G. (1987). Virus-induced changes in cell membrane conductivity. 2. Comparative analysis of influenza and sendai virus-induced increase of different cell membrane conductivity and pH influence on this process. Biologicheskie Membrany 4, 747-755.
  • Slepushkin,V.A., Bukrinskaya,A.G., Marchenko,S.M., Volkova,T.M., and Krishtal,O.A. (1987). Virus-induced changes in cell membrane conductivity. 1. Sendai virus-induced conductivity changes of cytoplasmic membranes of cultured monkey kidney cells. Biologicheskie Membrany 4, 486-494.
  • Akaike,N., Inoue,M., and Krishtal,O.A. (1986). Concentration-clamp study of gamma-aminobutyric-acid-induced chloride current kinetics in frog sensory neurons. Journal of Physiology-London 379, 171-185.
  • Kiskin,N.I., Krishtal,O.A., and Tsyndrenko,A.Y. (1986). Excitatory amino-acid receptors in the membrane of hippocampal pyramidal neurons. Biologicheskie Membrany 3, 909-919.
  • Kiskin,N.I., Krishtal,O.A., Tsyndrenko,A.Y., and Akaike,N. (1986). Are sulfhydryl-groups essential for function of the glutamate-operated receptor ionophore complex? Neuroscience Letters 66, 305-310.
  • Krishtal,O.A. and Marchenko,S.M. (1986). Pharmacological properties of the receptor for ATP in the sensory neurons of rats. Biomedical Research-Tokyo 7, 79-81.
  • Kiskin,N.I., Krishtal,O.A., and Tsyndrenko,A.Y. (1986). Excitatory amino-acid receptors in hippocampal neurons - kainate fails to desensitize them. Neuroscience Letters 63, 225-230.
  • Krishtal,O.A., Marchenko,S.M., and Pidoplichko,V.I. (1983). Receptor for ATP in the membrane of mammalian sensory neurons. Neuroscience Letters 35, 41-45.
  • Krishtal,O.A. and Pidoplichko,V.I. (1981). A receptor for protons in the membrane of sensory neurons may participate in nociception. Neuroscience 6, 2599-2601.
  • Krishtal,O.A. and Pidoplichko,V.I. (1981). A receptor for protons in small neurons of trigeminal ganglia - possible role in nociception. Neuroscience Letters 24, 243-246.
  • Kostyuk,P.G., Krishtal,O.A., and Pidoplichko,V.I. (1981). Calcium inward current and related charge movements in the membrane of snail neurons. Journal of Physiology-London 310, 403-421.
  • Krishtal,O.A., Pidoplichko,V.I., and Shakhovalov,Y.A. (1981). Conductance of the calcium-channel in the membrane of snail neurons. Journal of Physiology-London 310, 423-434.
  • Krishtal,O.A. and Pidoplichko,V.I. (1980). A receptor for protons in the nerve cell membrane. Neuroscience 5, 2325-2327.
  • Kostyuk,P.G., Krishtal,O.A., and Pidoplichko,V.I. (1980). Gating current of calcium channels in the neuronal membrane. Bioelectrochemistry and Bioenergetics 7, 421-431.


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