The role of adenosine in the nervous system : proceedings of the International Symposium on Adenosine in the Nervous System, July 13-16, 1996, Kobe, Japan

On the basis of advances in the molecular, cellular and behavioural fields in the past decade, there has been an increase in knowledge of the biological action of adenosine and its related compounds in the nervous system. The proceedings covered in this book survey the expansion of ideas and development of potential applications and bring together the mid-to-late-1990s knowledge and understanding of adenosine, a significant neuromodulator. The objectives of the symposium were not "encyclopedic", but rather "catalytic". Various fields of research from molecular biology to clinical therapeutics including several topics on the extraneurol action of adenosine are covered.

• Part 1 Reviews of current topics: New nomenclature for adenosine and P2 receptors, B.B. Fredholm
• Adenosine and neurotransmitter release - inhibition and facilitation, J.A. Ribeiro et al
• Excitatory effects of adenosine on neurotransmission in the central nervous system, Y. Okada, H. Hirai
• Adenosine in cerebral ischemic injury - both friend and foe, J.W. Phillis et al. Part 2 Recent advances in the adenosine study - Adenosine action on different regions in the nervous system: Adenosine plays a key role on neuromuscular transmission to adjust the modulatory pattern (cholinergic versus peptideric) to the conditions of motor nerve stimulation, P. Correia-de-Sa et al
• Cyclic AMP-dependent and independent mechanisms for presynaptic modulation of GABAergic transmission in the cerebellar cortex, s. Konishi, H. Mitoma
• Inhibitory effect of adenosine agonists and propentofylline on the proliferation and transformation of cultured microglia, Y. Nakamura et al
• A slow depolarizing response induced by ASTP in the neurons of bullfrog sympathetic ganglia, K. Somei et al
• Activation of adenosine A1 and A2 receptors differentially modulates acetylcholine release from electric organ synaptosomes of Japanese electric ray Narke Japonica, Y. Kirino et al
• Studies in hippocampus: Endogenous adenosine attenuates long-term depression in the hippocampus, A. de Mendonca, J.A. Ribeiro
• The roles of endogenous adenosine, acting via A1 and A2 receptors, in the induction and reversal of long-term potentiation in guinea pig hippocampal slices CA1 neurons, S. Fujii et al
• Release of ATP and adenosine and formation of extracellular adenosine in hippocampus, R.A. Cunha
• Adenosine activates the K+ channel and enhances cytosolic Ca2+ release via P2y purinoceptor in hippocampus neurons, T. Nishizaki et al
• PIA, an adenosine A1 receptor agonist, reduces high K+-evoked GABA release from in vivo rat hippocampus, J. Hada et al
• Role of adenosine upon high K+-evoked spreading depression and glutamate release from in vivo rat hippocampus, T. Kaku et al
• Modulation of the transsynaptic response in human hippocampus by adenosine, K. Kato
• Chloroadenosine- and nitric oxide-mediated hippocampal neurotoxicity in vitro. D. Janigro et al
• Adenosine A1 receptor in CA2 region are involved in inhibitory modulation of signal transmission from CA1 to CA3 in rat hippocampal slices, Y. Sekino et al. (Part contents).