• 1
    Chesler M, Kaila K. Modulation of pH by neuronal activity. Trends Neurosci 1992;15: 396402.
  • 2
    Perez-Velazquez JL, Valiante TA, Carlen PL. Modulation of gap junctional mechanisms during calcium-free induced field burst activity: a possible role for electrotonic coupling in epilepsy. J Neurosci 1994;14: 430817.
  • 3
    Jefferys JGR. Nonsynaptic modulation of neuronal activity in the brain: electric currents and extracellular ions. Physiol Rev 1995;75: 68994.
  • 4
    Curtis MD, Manfridi A, Biella G. Activity-dependent pH shifts and periodic recurrence of spontaneous interictal spikes in a model of focal epileptogenesis. J Neurosci 1998;18: 754351.
  • 5
    Rouach N, Glowinski J, Giaume C. Activity-dependent neuronal control of gap-junctional communication in astrocytes. J Cell Biol 2000;149: 151326.
  • 6
    Schmitz D, Schuchmann S, Fisahn A, et al. Axo-axonal coupling, a novel mechanism for ultrafast neuronal communication. Neuron 2001;31: 83140.
  • 7
    Perez Velazquez JL, Carlen PL. Gap junctions, synchrony and seizures. Trends Neurosci 2000;23: 6874.
  • 8
    Xiong ZQ, Saggau P, Stringer JL. Activity-dependent intracellular acidification correlates with the duration of seizure activity. J Neurosci 2000;20: 12906.
  • 9
    Jahromi SS, Wentlandt K, Piran S, et al. Anticonvulsant action of gap junctional blockers in an in vitro seizure model. J Neurophysiol 2001;88: 1893902.
  • 10
    Köhling R, Gladwell SJ, Bracci E, et al. Prolonged epileptiform bursting induced by 0-Mg2+ in rat hippocampal slices depends on gap junctional coupling. Neuroscience 2001;105: 3: 57987.
  • 11
    Szente M, Gajda Z, Said Ali K, et al. Involvement of electrical coupling in the in vivo ictal epileptiform activity induced by 4-aminopyridine in the neocortex. Neuroscience 2002;115: 106778.
  • 12
    Mambetisaeva ET, Gire V, Evans WH. Multiple connexin expression in peripheral nerve, Schwann cells, and Schwannova cells. J Neurosci Res 1999;57: 16675
  • 13
    Condorelli DF, Parenti R, Spinella F, et al. Cloning of a new gap junction gene (Cx36) highly expressed in mammalian brain neurons. Eur J Neurosci 1998;10: 12028.
  • 14
    Szente M, Boda B. Cellular mechanisms of neocortical secondary epileptogenesis. Brain Res 1994;648: 20314.
  • 15
    Draguhn A, Traub RD, Schmitz D, et al. Electrical coupling underlies high-frequency oscillations in the hippocampus in vitro. Nature 1998;394: 18992.
  • 16
    Moortgat KT, Bullock TH, Sejnowski TJ. Gap junction effects on precision and frequency of a model pacemaker network. J Neurophysiol 2000;83: 98497.
  • 17
    Osborne PB, Williams JT. Forskolin enhancement of opioid currents in rat locus coeruleus neurons. J Neurophysiol 1996;76: 155965.
  • 18
    Travagli RA, Dunwiddie TV, Williams JT. Opioid inhibition in locus coeruleus. J Neurophysiol 1995;74: 51828.
  • 19
    Ross FM, Gwyn P, Spanswick D, et al. Carbenoxolone depresses spontaneous epileptiform activity in the CA1 region of rat hippocampal slices. Neuroscience 2000;100: 78996.
  • 20
    Gladwell SJ, Jefferys JGR. Second messenger modulation of electrotonic coupling between region CA3 pyramidal cell axons in the rat hippocampus. Neurosci Lett 2001;300: 14.
  • 21
    Willoughby D, Thomas RC, Schwiening CJ. The effects of intracellular pH changes on resting cytosolic calcium in voltage-clamped snail neurones. J Physiol 2001;503: 40516.