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1 Neuroscience Programme, International School for Advanced Studies, Via Beirut 2–4, 34014 Trieste, Italy
2 Institute of Higher Nervous Activity and Neurophysiology, Russian Academy of Sciences, Butlerova 5a, 117485 Moscow, Russia
3 Kazan State Medical University, Kazan, Russia
In the immature hippocampus, the so-called ‘giant depolarizing potentials’ (GDPs) are network-driven synaptic events generated by the synergistic action of glutamate and GABA. Here we tested the hypothesis that ATP, a widely distributed neurotransmitter, directly contributes to the network activity during the first postnatal week. We found that in CA3 pyramidal cells, in the presence of the adenosine antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX), ATP produced a transient facilitation of GDPs followed by a depressant effect. A similar biphasic effect was produced by blockade of the ectoATPase activity with 6-N,N-diethyl-D-ß,
-dibromomethylene ATP (ARL-67156). The effects of exogenous and endogenous ATP on GDPs were prevented by the P2X receptor antagonist pyridoxal phosphate-6-azophenyl-2',4'-disulphonic acid (PPADS). On pyramidal cells, ATP upregulated spontaneous action-potential-dependent GABAA-mediated synaptic events (GABA-SPSPs), suggesting a network-driven effect. Recordings from interneurones allowed comparison of ATP effects on GABAergic and glutamatergic synaptic activity. While ATP depressed GABA-SPSPs via metabotropic P2Y1 receptors, it up- and downregulated glutamatergic SPSPs via PPADS-sensitive receptors. Thus, ATP exerts an excitatory action on CA3 pyramidal cells via facilitation of GDPs and SPSPs. This excitatory drive is propagated to pyramidal cells by interneurons that represent the ‘common pathway’ for generation of GDPs and SPSPs. Our results show that ATP operating via distinct P2X and P2Y receptors directly contributes to modulate network activity at the early stages of postnatal development.
(Received 22 February 2005;
accepted after revision 14 April 2005;
first published online 21 April 2005)
Corresponding author E. Cherubini: Neuroscience Programme, International School for Advanced Studies, Via Beirut 2–4, 34014 Trieste, Italy. Email: cher{at}sissa.it
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