Neuropeptides amplify and focus the monoaminergic inhibition of nociception in Caenorhabditis elegans

Abstract

Monoamines and neuropeptides interact to modulate most behaviors. To better understand these interactions, we have defined the roles of tyramine (TA), octopamine, and neuropeptides in the inhibition of aversive behavior in Caenorhabditis elegans. TA abolishes the serotonergic sensitization of aversive behavior mediated by the two nociceptive ASH sensory neurons and requires the expression of the adrenergic-like, Gαq-coupled, TA receptor TYRA-3 on inhibitory monoaminergic and peptidergic neurons. For example, TA inhibition requires Gαq and Gαs signaling in the peptidergic ASI sensory neurons, with an array of ASI neuropeptides activating neuropeptide receptors on additional neurons involved in locomotory decision-making. The ASI neuropeptides required for tyraminergic inhibition are distinctfromthose required for octopaminergic inhibition, suggesting that individualmonoaminesstimulate the release of different subsets of ASI neuropeptides. Together, these results demonstrate that a complex humoral mix of monoamines is focused by more local, synaptic, neuropeptide release to modulate nociceptionandhighlight the similarities between the tyraminergic/octopaminergic inhibition of nociception in C. elegans and the noradrenergic inhibition of nociception in mammals that also involves inhibitory peptidergic signaling. © 2013 the authors.