There are two, partially overlapping goals of this research: (1) comprehensively define the array of G protein- coupled neuropeptide receptors that act to modulate and mediate acute actions of ethanol in vivo. (2) investigate the impact of specific behavioral states on acute sensitivity to ethanol. We will characterize the roles of all neuropeptide receptors in C. elegans in basal locomotion behaviors and ethanol-induced behavioral effects. This comprehensive assessment will identify receptors that positively and negatively regulate the neuronal circuit that controls locomotion and those receptors that act to promote or negatively regulate ethanol actions. We will assess both the level of initial sensitivity to ethanol and the time-dependent development of acute functional tolerance to the drug. In addition, for those receptors that act to modify responses to ethanol, we will classify any interactions with the neuropeptidase nep-2, which is orthologous to the mammalian neprilysin protein. The mammalian neprilysin protein is involved in the regulation of levels of multiple important signaling peptides, including enkephalins, tachykinin, substance P and others. A mutation in the nep-2 gene produces an ethanol-resistant behavioral phenotype. We hypothesize that a peptide target of NEP-2, which is likely to be elevated in a nep-2 mutant background, acts to counteract acute effects of ethanol via increased signaling through a neuropeptide receptor. The proposed experiments will identify that receptor and test the hypothesis that the receptor acts in a defined neuronal circuit that controls behavioral state decisions. Our preliminary data has identified several mutants that affect both ethanol responses and a behavioral state decision that affects exploratory behavior. The circuit that regulates that decision is well defined, and includes the sites of action of neuropeptides and serotonin. We will define networks of genes that act to regulate that behavioral decision and ethanol responses, and test specific neurons in the controlling circuit for their role in regulating ethanol responses. The relationship between an emotional (or affective) state in humans and the problematic use of drugs of abuse is of significant interest. The successful outcome of this proposed research will provide a better understanding of how specific behavioral states, controlled by a known regulatory circuit, can impact the acute responses to an abused drug. There is a significant correlation between the level of an individual?s initial response to alcohol and their likelihood to develop an alcohol use disorder (AUD). Genetic variation in any of the human orthologs of the C. elegans genes identified in this study has the potential to alter an individual?s level of response to ethanol, and therefore could impact that individual?s predisposition to develop an AUD later in life.
This proposal uses alcohol to change nervous system function and test which neuropeptide receptors can act to oppose or promote the action of alcohol. The biological relationship between a behavioral state, a neuronal circuit and the identified neuropeptide receptors will be examined to understand the mechanisms of action.
