Mechanisms underlying controlled alcohol consumption: nociceptine/kappa-opioid related gene expression in the rat brain

Abstract

Kappa-opioidergic and nociceptinergic systems both inhibit the mesolimbic reward circuitry but their role in mechanisms of addictive behavior still is not well understood. Objective of the study was to compare expression of kappa opioid and nociceptin receptor genes (OPRK1 and OPRL1, respectively) and their endogenous ligands, preprodynorphin (PDYN) and prepronociceptin (PNOC), in the mesolimbic areas of rats with high and low voluntary alcohol consumption. Methods. Individually housed male Wistar rats were given a 25-daylong two-bottle (10% ethanol/water) free choice trial. mRNA levels were measured using the real-time polymerase chain reaction (qPCR). Results. Alcohol preferring rats progressively increased their ethanol consumption over the course of experiment while non-preferring, lowdrinking animals controlled their alcohol intake near the baseline level. Alcohol non-preferring rats were identified to have significantly higher levels of PDYN and PNOC mRNA in the striatum and OPRK1 and OPRL1 mRNA in the amygdala compared to ethanol preferring animals. Conclusion. We suggested that higher levels of the “anti-reward opioid system” gene expression in mesolimbic structures may blunt the hedonic response to alcohol and thus preclude the increase in alcohol preference and uncontrolled excessive alcohol intake.