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  • Anderson W. W. and Collingridge G. L. (2001) The LTP Program: a data acquisition program for on-line analysis of long-term potentiation and other synaptic events. J Neurosci Methods 108, 7183.
  • Arrigoni E., Crocker A. J., Saper C. B., Greene R. W. and Scammell T. E. (2005) Deletion of presynaptic adenosine A1 receptors impairs the recovery of synaptic transmission after hypoxia. Neuroscience 132, 575580.
  • Bao L., Locovei S. and Dahl G. (2004) Pannexin membrane channels are mechanosensitive conduits for ATP. FEBS Lett. 572, 6568.
  • Basheer R., Strecker R. E., Thakkar M. M. and McCarley R. W. (2004) Adenosine and sleep-wake regulation. Prog. Neurobiol. 73, 379396.
  • Bauman L. A., Mahle C. D., Boissard C. G. and Gribkoff V. K. (1992) Age-dependence of effects of A1 adenosine receptor antagonism in rat hippocampal slices. J. Neurophysiol. 68, 629638.
  • Bodin P. and Burnstock G. (2001) Purinergic signalling: ATP release. Neurochem. Res. 26, 959969.
  • Braun N., Zhu Y., Krieglstein J., Culmsee C. and Zimmermann H. (1998) Upregulation of the enzyme chain hydrolyzing extracellular ATP after transient forebrain ischemia in the rat. J. Neurosci. 18, 48914900.
  • Carter S. G. and Karl D. W. (1982) Inorganic phosphate assay with malachite green: an improvement and evaluation. J. Biochem. Biophys. Methods 7, 713.
  • Contreras J. E., Sanchez H. A., Veliz L. P., Bukauskas F. F., Bennett M. V. and Saez J. C. (2004) Role of connexin-based gap junction channels and hemichannels in ischemia-induced cell death in nervous tissue. Brain Res. Brain Res. Rev. 47, 290303.
  • Cunha R. A. (2005) Neuroprotection by adenosine in the brain: From A1 receptor activation to A2A receptor blockade. Purinergic Signalling 1, 111134.
  • Dale N. and Kuenzi F. M. (1997) Ion channels and the control of swimming in the Xenopus embryo. Prog. Neurobiol. 53, 729756.
  • Dale N., Pearson T. and Frenguelli B. G. (2000) Direct measurement of adenosine release during hypoxia in the CA1 region of the rat hippocampal slice. J. Physiol. 526, 143155.
  • Dale N., Hatz S., Tian F. and Llaudet E. (2005) Listening to the brain: microelectrode biosensors for neurochemicals. Trends Biotechnol. 23, 420428.
  • Dulla C., Dobelis P., Pearson T., Frenguelli B. G., Staley K. J. and Masino S. A. (2005) Adenosine and ATP link PCO2 to cortical excitability via pH. Neuron 48, 10111023.
  • Dunwiddie T. V. and Diao L. (1994) Extracellular adenosine concentrations in hippocampal brain slices and the tonic inhibitory modulation of evoked excitatory responses. J. Pharmacol. Exp. Ther. 268, 537545.
  • Dunwiddie T. V. and Masino S. A. (2001) The role and regulation of adenosine in the central nervous system. Annu. Rev. Neurosci. 24, 3155.
  • Dunwiddie T. V., Diao L. and Proctor W. R. (1997) Adenine nucleotides undergo rapid, quantitative conversion to adenosine in the extracellular space in rat hippocampus. J. Neurosci. 17, 76737682.
  • Fabricius M., Fuhr S., Bhatia R., Boutelle M., Hashemi P., Strong A. J. and Lauritzen M. (2006) Cortical spreading depression and peri-infarct depolarization in acutely injured human cerebral cortex. Brain 129, 778790.
  • Fields R. D. and Burnstock G. (2006) Purinergic signalling in neuron-glia interactions. Nat. Rev. Neurosci. 7, 423436.
  • Fowler J. C. (1989) Adenosine antagonists delay hypoxia-induced depressions of neuronal activity in hippocampal brain slice. Brain Res. 490, 378384.
  • Franke H. and Illes P. (2006) Involvement of P2 receptors in the growth and survival of neurons in the CNS. Pharmacol. Ther. 109, 297324.
  • Fredholm B. B., Lindstrom K. and Wallman-Johansson A. (1994) Propentofylline and other adenosine transport inhibitors increase the efflux of adenosine following electrical or metabolic stimulation of rat hippocampal slices. J. Neurochem. 62, 563573.
  • Fredholm B. B., IJzerman A. P., Jacobson K. A., Klotz K. N. and Linden J. (2001) International Union of Pharmacology. XXV. Nomenclature and classification of adenosine receptors. Pharmacol. Rev. 53, 527552.
  • Fredholm B. B., Chen J. F., Masino S. A. and Vaugeois J. M. (2005) Actions of adenosine at its receptors in the CNS: insights from knockouts and drugs. Annu. Rev. Pharmacol. Toxicol. 45, 385412.
  • Frenguelli B. G. (1997) The effects of metabolic stress on glutamate receptor-mediated depolarisations in the in vitro rat hippocampal slice. Neuropharmacol 36, 981991.
  • Frenguelli B. G., Llaudet E. and Dale N. (2003) High-resolution real-time recording with microelectrode biosensors reveals novel aspects of adenosine release during hypoxia in rat hippocampal slices. J. Neurochem. 86, 15061515.
  • Gadalla A. E., Pearson T., Currie A. J. et al. (2004) AICA riboside both activates AMP-activated protein kinase and competes with adenosine for the nucleoside transporter in the CA1 region of the rat hippocampus. J. Neurochem. 88, 12721282.
  • Gervitz L. M., Lutherer L. O., Davies D. G., Pirch J. H. and Fowler J. C. (2001) Adenosine induces initial hypoxic-ischemic depression of synaptic transmission in the rat hippocampus in vivo. Am. J. Physiol. Regul. Integr. Comp. Physiol. 280, R639R645.
  • Gourine A. V. (2005) On the peripheral and central chemoreception and control of breathing: an emerging role of ATP. J. Physiol. 568, 715724.
  • Gourine A. V., Llaudet E., Dale N. and Spyer K. M. (2005a) ATP is a mediator of chemosensory transduction in the central nervous system. Nature 436, 108111.
  • Gourine A. V., Llaudet E., Dale N. and Spyer K. M. (2005b) Release of ATP in the ventral medulla during hypoxia in rats: role in hypoxic ventilatory response. J. Neurosci. 25, 12111218.
  • Gray J. H., Owen R. P. and Giacomini K. M. (2004) The concentrative nucleoside transporter family, SLC28. Pflugers Arch. 447, 728734.
  • Ilie A., Ciocan D., Zagrean A. M., Nita D. A., Zagrean L. and Moldovan M. (2006) Endogenous activation of adenosine A1 receptors accelerates ischemic suppression of spontaneous electrocortical activity. J. Neurophysiol. 96, 28092814.
  • Jabaudon D., Scanziani M., Gahwiler B. H. and Gerber U. (2000) Acute decrease in net glutamate uptake during energy deprivation. Proc. Natl Acad. Sci. USA 97, 56105615.
  • Johansson B., Halldner L., Dunwiddie T. V. et al. (2001) Hyperalgesia, anxiety, and decreased hypoxic neuroprotection in mice lacking the adenosine A1 receptor. Proc. Natl Acad. Sci. USA 98, 94079412.
  • Joshi I. and Andrew R. D. (2001) Imaging anoxic depolarization during ischemia-like conditions in the mouse hemi-brain slice. J. Neurophysiol. 85, 414424.
  • Juranyi Z., Sperlágh B. and Vizi E. S. (1999) Involvement of P2 purinoceptors and the nitric oxide pathway in [3H]purine outflow evoked by short-term hypoxia and hypoglycemia in rat hippocampal slices. Brain Res. 823, 183190.
  • King A. E., Ackley M. A., Cass C. E., Young J. D. and Baldwin S. A. (2006) Nucleoside transporters: from scavengers to novel therapeutic targets. Trends Pharmacol. Sci. 27, 416425.
  • Koos B. J., Kruger L. and Murray T. F. (1997) Source of extracellular brain adenosine during hypoxia in fetal sheep. Brain Res. 778, 439442.
  • Kukley M., Schwan M., Fredholm B. B. and Dietrich D. (2005) The role of extracellular adenosine in regulating mossy fiber synaptic plasticity. J. Neurosci. 25, 28322837.
  • Latini S. and Pedata F. (2001) Adenosine in the central nervous system: release mechanisms and extracellular concentrations. J. Neurochem. 79, 463484.
  • Liu X. J. and Salter M. W. (2005) Purines and pain mechanisms: recent developments. Curr. Opin. Investig. Drugs 6, 6575.
  • Llaudet E., Botting N. P., Crayston J. A. and Dale N. (2003) A three-enzyme microelectrode sensor for detecting purine release from central nervous system. Biosens. Bioelectron. 18, 4352.
  • Llaudet E., Hatz S., Droniou M. and Dale N. (2005) Microelectrode biosensor for real-time measurement of ATP in biological tissue. Anal. Chem. 77, 32673273.
  • Lloyd H. G., Lindstrom K. and Fredholm B. B. (1993) Intracellular formation and release of adenosine from rat hippocampal slices evoked by electrical stimulation or energy depletion. Neurochem. Int. 23, 173185.
  • Martin E. D., Fernandez M., Perea G., Pascual O., Haydon P. G., Araque A. and Cena V. (2007) Adenosine released by astrocytes contributes to hypoxia-induced modulation of synaptic transmission. Glia 55, 3645.
  • Matsumoto K., Graf R., Rosner G., Shimada N. and Heiss W. D. (1992) Flow thresholds for extracellular purine catabolite elevation in cat focal ischemia. Brain Res. 579, 309314.
  • Melani A., Turchi D., Vannucchi M. G., Cipriani S., Gianfriddo M. and Pedata F. (2005) ATP extracellular concentrations are increased in the rat striatum during in vivo ischemia. Neurochem. Int. 47, 442448.
  • Meno J. R., Ngai A. C. and Winn H. R. (1993) Changes in pial arteriolar diameter and CSF adenosine concentrations during hypoxia. J. Cereb. Blood Flow Metab. 13, 214220.
  • Moore K. A., Nicoll R. A. and Schmitz D. (2003) Adenosine gates synaptic plasticity at hippocampal mossy fiber synapses. Proc. Natl Acad. Sci. USA 100, 14 39714 402.
  • Noji T., Karasawa A. and Kusaka H. (2004) Adenosine uptake inhibitors. Eur. J. Pharmacol. 495, 116.
  • Pankratov Y. V., Lalo U. V. and Krishtal O. A. (2002) Role for P2X receptors in long-term potentiation. J. Neurosci. 22, 83638369.
  • Pankratov Y., Lalo U., Verkhratsky A. and North R. A. (2006) Vesicular release of ATP at central synapses. Pflugers Arch. 452, 589597.
  • Pascual O., Casper K. B., Kubera C., Zhang J., Revilla-Sanchez R., Sul J. Y., Takano H., Moss S. J., McCarthy K. and Haydon P. G. (2005) Astrocytic purinergic signaling coordinates synaptic networks. Science 310, 113116.
  • Pearson R. A., Dale N., Llaudet E. and Mobbs P. (2005) ATP released via gap junction hemichannels from the pigment epithelium regulates neural retinal progenitor proliferation. Neuron 46, 731744.
  • Pearson T. and Frenguelli B. G. (2004) Adrenoceptor subtype-specific acceleration of the hypoxic depression of excitatory synaptic transmission in area CA1 of rat hippocampus. Eur. J. Neurosci. 20, 15551565.
  • Pearson T., Nuritova F., Caldwell D., Dale N. and Frenguelli B. G. (2001) A depletable pool of adenosine in area CA1 of the rat hippocampus. J. Neurosci. 21, 22982307.
  • Pearson T., Currie A. J., Etherington L. A., Gadalla A. E., Damian K., Llaudet E., Dale N. and Frenguelli B. G. (2003) Plasticity of purine release during cerebral ischemia: clinical implications J. Cell Mol. Med. 7, 362375.
  • Pearson T., Damian K., Lynas R. and Frenguelli B. G. (2006) Sustained elevation of extracellular adenosine and activation of A1 receptors underlie the post-ischaemic inhibition of neuronal function in rat hippocampus in vitro. J. Neurochem. 97, 13571368.
  • Phillis J. W. and O’Regan M. H. (2003) In vivo studies of the release of adenine 5′-nucleotides, adenosine, and its metabolites from the rat brain. drug development research 58, 412419.
  • Phillis J. W., O’Regan M. H. and Walter G. A. (1989) Effects of two nucleoside transport inhibitors, dipyridamole and soluflazine, on purine release from the rat cerebral cortex. Brain Res. 481, 309316.
  • Phillis J. W., O’Regan M. H. and Perkins L. M. (1993) Adenosine 5′-triphosphate release from the normoxic and hypoxic in vivo rat cerebral cortex. Neurosci Lett. 151, 9496.
  • Phillis J. W., O’Regan M. H., Estevez A. Y., Song D. and VanderHeide S. J. (1996) Cerebral energy metabolism during severe ischemia of varying duration and following reperfusion. J. Neurochem. 67, 15251531.
  • Ralevic V. and Burnstock G. (1998) Receptors for purines and pyrimidines. Pharmacol Rev. 50, 413492.
  • Rossi D. J., Oshima T. and Attwell D. (2000) Glutamate release in severe brain ischaemia is mainly by reversed uptake. Nature 403, 316321.
  • Sebastiao A. M., De Mendonça A., Moreira T. and Ribeiro J. A. (2001) Activation of synaptic NMDA receptors by action potential-dependent release of transmitter during hypoxia impairs recovery of synaptic transmission on reoxygenation. J. Neurosci. 21, 85648571.
  • Da Silva B. M., De Mendonça A. and Ribeiro J. A. (2005) Long-term depression is not modulated by ATP receptors in the rat CA1 hippocampal region. Neurosci. Lett. 383, 345349.
  • Somjen G. G. (2001) Mechanisms of spreading depression and hypoxic spreading depression-like depolarization. Physiol. Rev. 81, 10651096.
  • Sperlágh B. and Vizi E. S. (1996) Neuronal synthesis, storage and release of ATP. Sem. Neurosci. 8, 175186.
  • Studer F. E., Fedele D. E., Marowsky A., Schwerdel C., Wernli K., Vogt K., Fritschy J. M. and Boison D. (2006) Shift of adenosine kinase expression from neurons to astrocytes during postnatal development suggests dual functionality of the enzyme. Neuroscience 142, 125137.
  • Tanaka E., Yamamoto S., Kudo Y., Mihara S. and Higashi H. (1997) Mechanisms underlying the rapid depolarization produced by deprivation of oxygen and glucose in rat hippocampal CA1 neurons in vitro. J. Neurophysiol. 78, 891902.
  • Theis M., Sohl G., Eiberger J. and Willecke K. (2005) Emerging complexities in identity and function of glial connexins. Trends Neurosci. 28, 188195.
  • Thompson R. J., Zhou N. and MacVicar B. A. (2006) Ischemia opens neuronal gap junction hemichannels. Science 312, 924927.
  • Volterra A. and Meldolesi J. (2005) Astrocytes, from brain glue to communication elements: the revolution continues. Nat. Rev. Neurosci. 6, 626640.