Discovery of a role for Rab3b in habituation and cocaine induced locomotor activation in mice using heterogeneous functional genomic analysis

ABSTRACTSubstance use disorders are prevalent and present a tremendous societal cost but the mechanisms underlying addiction behavior are poorly understood and few biological treatments exist. One strategy to identify novel molecular mechanisms of addiction is through functional genomic experimentation. However, results from individual experiments are often noisy. To address this problem, the convergent analysis of multiple genomic experiments can prioritize signal from these studies. In the present study, we examine genetic loci identified in the recombinant inbred (BXD RI) genetic reference population that modulate the locomotor response to cocaine. We then applied the GeneWeaver software system for heterogeneous functional genomic analysis to integrate and aggregate multiple studies of addiction genomics, resulting in the identification of Rab3b, as a functional correlate of the locomotor response to cocaine in rodents. This gene encodes a member of the RAB family of Ras-like GTPases known to be involved in trafficking of secretory and endocytic vesicles in eukaryotic cells. The convergent evidence for a role of Rab3b was included co-occurrence in previously published genetic mapping studies of cocaine related behaviors; methamphetamine response and Cartpt (Cocaine- and amphetamine-regulated transcript prepropeptide) abundance; evidence related to other addictive substances; density of polymorphisms; and its expression pattern in reward pathways. To evaluate this finding, we examined the effect of RAB3 complex perturbation in cocaine response. B6;129-Rab3btm1SudRab3ctm1sudRab3dtm1sud triple null mice (Rab3bcd-/-) exhibited significant deficits in habituation, and increased acute and repeated cocaine responses. This previously unidentified mechanism of the behavioral predisposition and response to cocaine is an example of many that can be identified and validated using aggregate genomic studies.Many genetic and genomic studies have been performed over the past few decades, representing a wealth of data on the underlying neurobiological and genetic basis of multiple complex behaviors. However, these studies, particularly legacy studies using older technologies and resources lack precision. By aggregating multiple studies, convergent evidence for shared molecular mechanisms of multiple behaviors can be found, for example the widely reported relations among psychostimulant use and novelty response behavior. Here a legacy genetic mapping result for a cocaine related trait mapped in mice was refined using data from 113 different experimental gene sets related to addiction in the GeneWeaver system for heterogeneous functional genomic analysis. Convergent evidence revealed a role for Rab3b in this and other traits including multiple psychostimulant responses and CART expression. Experimental perturbation of the RAB complex revealed effects on habituation to a novel environment, cocaine induced activation and Carpt expression. The analysis of aggregate data thus revealed a molecular mechanism that influences the relationship between response to novel situations and cocaine-related phenotypes.

Selective D2 and D3 receptor antagonists oppositely modulate cocaine responses in mice via distinct postsynaptic mechanisms in nucleus accumbens

BackgroundThe D3 receptor (D3R) has emerged as a promising pharmacotherapeutic target for the treatment of several diseases including schizophrenia, Parkinson’s disease, and substance use disorders. However, studies investigating the modulatory impact of D3R antagonism on dopamine neurotransmission or the effects drugs of abuse have produced mixed results, in part because D3R-targeted compounds often also interact with D2 receptors (D2R). The purpose of this study was to compare the consequences of selective D2R or D3R antagonism on the behavioral effects of cocaine in mice, and to identify the neurobiological mechanisms underlying their modulatory effects.MethodsWe characterized the effects of selective D2R or D3R antagonism in mice on 1) basal and cocaine-induced locomotor activity, 2) presynaptic dopamine release and clearance in the nucleus accumbens using ex vivo fast scan cyclic voltammetry, and 3) dopamine-mediated signaling in D1-expressing and D2-expressing medium spiny neurons using ex vivo electrophysiology.ResultsPretreatment with the selective D2R antagonist L-741,626 attenuated, while pretreatment with the selective D3R antagonist PG01037 enhanced, the locomotor-activating effects of acute and repeated cocaine administration. While both antagonists potentiated cocaine-induced increases in presynaptic DA release, D3R blockade uniquely facilitated DA-mediated excitation of D1-expressing medium spiny neurons in the nucleus accumbens.ConclusionsSelective D3R antagonism potentiates the behavioral-stimulant effects of cocaine in mice, an effect that is in direct opposition to that produced by selective D2R antagonism or nonselective D2-like receptor antagonists, likely by facilitating D1-mediated excitation in the nucleus accumbens. These findings provide important insights into the neuropharmacological actions of D3R antagonists on mesolimbic dopamine neurotransmission.

Binge ethanol drinking during adolescence modifies cocaine responses in mice

Binge ethanol drinking is an emerging pattern of excessive consumption among adolescents and young adults. Repeated ethanol intoxication has negative consequences during critical periods of brain development. Therefore, binge ethanol intake represents a vulnerability factor that promotes subsequent manifestations of neuropsychiatric disorders. In this study, we investigated the effects of oral binge ethanol intake during adolescence on the subsequent effects of cocaine in C57BL/6 mice. Firstly, we evaluated the oral ethanol intake of two binge ethanol procedures with different ethanol concentrations (20% v/v versus 30%, v/v). The highest ethanol intake was found in mice exposed to the lower ethanol concentration (20% v/v). In a second experiment, mice exposed to binge ethanol procedure were evaluated to study the effects of cocaine on locomotor activity, behavioural sensitization, and the reinforcing effects of cocaine in the self-administration paradigm. Mice exposed to ethanol binging showed discrete detrimental effects in responses to cocaine in the different experiments evaluated. Our findings revealed that the pattern of binge ethanol consumption in adolescent mice here evaluated produced a weak facilitation of cocaine responses. The present study highlights the importance of interventions to limit the deleterious effects of binge ethanol drinking during adolescence.