Nonnociceptive afferent activity depresses nocifensive behavior and nociceptive synapses via an endocannabinoid-dependent mechanism

Author:

Yuan Sharleen1,Burrell Brian D.1

Affiliation:

1. Center for Brain and Behavior Research, Division of Basic Biomedical Sciences, Sanford School of Medicine, University of South Dakota, Vermillion, South Dakota

Abstract

Previously, low-frequency stimulation (LFS) of a nonnociceptive touch-sensitive neuron has been found to elicit endocannabinoid-dependent long-term depression (eCB-LTD) in nociceptive synapses in the leech central nervous system (CNS) that requires activation of a presynaptic transient receptor potential vanilloid (TRPV)-like receptor by postsynaptically synthesized 2-arachidonoyl glycerol (2-AG). This capacity of nonnociceptive afferent activity to reduce nociceptive signaling resembles gate control of pain, albeit longer lasting in these synaptic experiments. Since eCB-LTD has been observed at a single sensory-motor synapse, this study examines the functional relevance of this mechanism, specifically whether this form of synaptic plasticity has similar effects at the behavioral level in which additional, intersegmental neural circuits are engaged. Experiments were carried out using a semi-intact preparation that permitted both synaptic recordings and monitoring of the leech whole body shortening, a defensive withdrawal reflex that was elicited via intracellular stimulation of a single nociceptive neuron (the N cell). The same LFS of a nonnociceptive afferent that induced eCB-LTD in single synapses also produced an attenuation of the shortening reflex. Similar attenuation of behavior was also observed when 2-AG was applied. LFS-induced behavioral and synaptic depression was blocked by tetrahydrolipstatin (THL), a diacylglycerol lipase inhibitor, and by SB366791, a TRPV1 antagonist. The effects of both THL and SB366791 were observed following either bath application of the drug or intracellular injection into the presynaptic (SB366791) or postsynaptic (THL) neuron. These findings demonstrate a novel, endocannabinoid-based mechanism by which nonnociceptive afferent activity may modulate nocifensive behaviors via action on primary afferent synapses.

Publisher

American Physiological Society

Subject

Physiology,General Neuroscience

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