Endocannabinoid signalling selectively targets perisomatic inhibitory inputs to pyramidal neurones in juvenile mouse neocortex

doi:10.1113/jphysiol.2003.058198

Endocannabinoid signalling selectively targets perisomatic inhibitory inputs to pyramidal neurones in juvenile mouse neocortex

Joseph Trettel, Dale A. Fortin and Eric S. Levine

Department of Pharmacology, University of Connecticut Health Center, Farmington, CT 06030, USA

Retrograde synaptic signalling has long been recognized as afundamental feature of neural systems. However, the cellularspecificity and functional consequences of fast retrograde communicationare not well understood. We have focused our efforts on understandingthe role that endocannabinoids play in regulating synaptic inhibitionin sensory neocortex. Recent studies have implicated endocannabinoidsas the retrograde signalling molecules that underlie depolarization-inducedsuppression of inhibition, or DSI. This short-term form of presynapticdepression is triggered by postsynaptic depolarization and islikely to play an important role in information processing.In the present study we investigated the cellular and synapticspecificity of endocannabinoid signalling in sensory cortexusing whole-cell recordings from layer 2/3 pyramidal neurones(PNs) in acute brain slices. We report that GABAergic interneuronesthat are depolarized by muscarinic receptor stimulation providedthe majority of DSI-susceptible inputs to neocortical PNs. Thissubclass of interneurones generated large, fast postsynapticcurrents in PNs which were transiently suppressed by eitherpostsynaptic depolarization or a brief train of action potentials.Neocortical DSI required activation of the type 1 cannabinoidreceptor (CB1R) but not metabotropic glutamate or GABA receptors.Using focal drug application, we found that the DSI-susceptibleafferents preferentially synapse on the perisomatic membraneof PNs, and not on the apical dendrites. Together, these resultssuggest that endocannabinoid-mediated DSI in the cortex cantransiently and selectively depress a subclass of PN inputs.Although the physiological implications remain to be explored,this suppression of somatic inhibition may alter the excitabilityof principal neurones and thereby modulate cortical output.

(Received 8 December 2003; accepted after revision 21 January 2004; first published online 23 January 2004)
Corresponding author E. S. Levine: Department of Pharmacology, MC-6125, University of Connecticut Health Center, 263 Farmington Ave., Farmington, CT 06030, USA. Email: eslevine{at}neuron.uchc.edu

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