Use-Dependent Shift From Inhibitory to Excitatory GABAA Receptor Action in SP-O Interneurons in the Rat Hippocampal CA3 Area

doi:10.1152/jn.00060.2003

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Use-Dependent Shift From Inhibitory to Excitatory GABA_A Receptor Action in SP-O Interneurons in the Rat Hippocampal CA3 Area

Karri Lamsa and Tomi Taira

Department of Biosciences, Division of Animal Physiology and Institute of Biotechnology, FIN-00014 University of Helsinki, Finland

Submitted 22 January 2003; accepted in final form 12 May 2003

Cortical inhibitory interneurons set the pace of synchronousneuronal oscillations implicated in synaptic plasticity andvarious cognitive functions. The hyperpolarizing nature of inhibitorypostsynaptic potentials (IPSPs) in interneurons has been consideredcrucial for the generation of oscillations at ${beta}$ (15–30Hz) and ${gamma}$ (30–100 Hz) frequency. Hippocampal basket cellsand axo-axonic cells in stratum pyramidale-oriens (S-PO) playa central role in the synchronization of the local interneuronalnetwork as well as in pacing of glutamatergic principal cellfiring. A lack of conventional forms of plasticity in excitatorysynapses onto interneurons facilitates their function as stableneuronal oscillators. We have used gramicidin-perforated andwhole cell clamp recordings to study properties of GABA_AR-mediatedtransmission in CA3 SP-O interneurons and in CA3 pyramidal cellsin rat hippocampal slices during electrical 5- to 100-Hz stimulationand during spontaneous activity. We show that GABAergic synapsesonto SP-O interneurons can easily switch their mode from inhibitoryto excitatory during heightened activity. This is based on adepolarizing shift in the GABA_A reversal potential (E_GABA-A),which is much faster and more pronounced in interneurons thanin pyramidal cells. We also found that the shift in interneuronalfunction was frequency dependent, being most prominent at 20-to 40-Hz activation of the GABAergic synapses. After 40-Hz tetanicstimulation (100 pulses), GABA_A responses remained depolarizingfor $~$ 45 s in the interneurons, promoting bursting in the GABAergicnetwork. Hyperpolarizing E_GABA-A was restored >60 s afterthe stimulus train. Similar but spontaneous GABAergic burstingwas induced by application of 4-aminopyridine (100 µM)to slices. A shift to depolarizing IPSPs by the GABA_AR permeantweak acid anion formate provoked interneuronal population bursting,supporting the role of GABAergic excitation in burst generation.Furthermore, depolarizing GABAergic potentials and synchronousinterneuronal bursting were enhanced by pentobarbital (100 µM),a positive allosteric modulator of GABA_ARs, and were blockedby picrotoxin (100 µM). Intriguingly, GABAergic burstsdisplayed short (<1 s) oscillations at 15–40 Hz, eventhough only depolarizing GABA_A responses were seen in the SP-Ointerneurons. This ${beta}$ - ${gamma}$ rhythmicity in the interneuron networkwas dependent on electrotonic coupling, and was abolished byblockade of gap junctions with carbenoxolone (200 µM).Results here implicate the rapid activity-dependent degradationof hyperpolarizing IPSPs in SP-O interneurons in setting thetemporal limits for a given interneuron to participate in ${beta}$ - ${gamma}$ oscillations synchronized by GABAergic synapses. Furthermore,they imply that mutual GABAergic excitation provided by interneuronsmay be an integral part in the function of neuronal networks.We suggest that the use-dependent change in E_GABA-A could representa form of short-term plasticity in interneurons promoting coherentand sustained activation of local GABAergic networks.

Present address and address for reprint requests: K. Lamsa, Dept. of Clinical and Experimental Epilepsy, Institute of Neurology, UCL, London WC1N 3BG, United Kingdom (E-mail: k.lamsa{at}ion.ucl.ac.uk).

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