Functional Significance of Cannabinoid-Mediated, Depolarization Induced Suppression of Inhibition (DSI) in the Hippocampus

doi:10.1152/jn.01161.2002

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Functional Significance of Cannabinoid-Mediated, Depolarization Induced Suppression of Inhibition (DSI) in the Hippocampus

Robert E. Hampson¹, Shou-yuan Zhuang¹, Jeff L. Weiner¹, and Sam A. Deadwyler¹^*

¹ Physiology & Pharmacology, Wake Forest University Health Sciences, Winston-Salem, NC, USA

^* To whom correspondence should be addressed. E-mail: sdeadwyl{at}wfubmc.edu.

A number of recent studies have demonstrated that a well-knownform of short-term plasticity at hippocampal GABAergic synapses,called depolarization-induced suppression of inhibition (DSI),is in fact mediated by the retrograde actions of endocannabinoidsreleased in response to depolarization of the postsynaptic cells. These recent studies suggest that endogenous cannabinoids mayplay an important role in regulating inhibitory tone in themammalian CNS. Despite the widespread interest and potentialphysiological importance of DSI, many questions regarding thephysiological relevance of DSI remain. To that end, this studyset out to define the specific limiting conditions that couldelicit DSI at GABAergic synapses in CA1 hippocampal pyramidalneurons and to determine if DSI could be elicited with pulsetrains that mimic hippocampal cell firing patterns that occurin vivo. Whole cell recordings from hippocampal neurons undervoltage clamp configuration were made in rat hippocampal slices.Spontaneous and evoked GABA_A receptor-mediated inhibitory postsynapticpotentials (sIPSCs and eIPSCs respectively) were recorded priorto and following depolarization of identified CA1 hippocampalpyramidal cells. Depolarizing voltage pulses were shaped toevoke currents in QX-314 treated cells similar to those accompanyingsingle spontaneous voltage-clamped action potentials recordedfrom the soma. Attempts were made to elicit DSI with trainsof these pulses that mimicked hippocampal cell firing patternsin vivo, for instance when animals traverse place fields orare performing a short-term memory task. DSI could not be elicitedby such pulse trains or by a number of other combinations ofbehaviorally specific firing parameters. The minimum durationof depolarization necessary to elicit DSI in hippocampal neuronsdetermined by paired-pulse manipulation was 50-75 ms at a criticalinterval of 20-30 ms between pulse pairs. Under the conditionstested, the normal firing patterns of hippocampal neurons thatoccur in vivo do not appear to elicit DSI.

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