GABAergic compounds for treating drug addiction: Preclinical models
Gardner, Eliot L.   
National Institute on Drug Abuse, United States

During the period 01 Oct 06 to 30 Sept 07, significant progress was made on this research project. We found that the gamma-aminobutyric acid (GABA) transaminase inhibitor gamma-vinyl-GABA (GVG, Vigabatrin) dose-dependently inhibits cocaine-triggered relapse to cocaine-seeking behavior in laboratory rats who have been pharmacologically detoxified and behaviorally extinguished from their prior cocaine-taking habits. We further found that gamma-vinyl-GABA also dose-dependently inhibits sucrose-induced reinstatement of reward-seeking behavior in rats. By using in vivo brain microdialysis, we additionally found that gamma-vinyl-GABA dose-dependently elevates extracellular GABA levels in the nucleus accumbens of the limbic forebrain. However, gamma-vinyl-GABA, when administered either systemically or locally into the nucleus accumbens, fails to inhibit either basal or cocaine-enhanced nucleus accumbens dopamine in either drug-naive rats or in cocaine-extinction rats. We interpret these findings to suggest that: 1) gamma-vinyl-GABA significantly inhibits cocaine- or sucrose-triggered relapse to reward-seeking behavior; and 2) a GABAergic-, but not dopaminergic-, dependent brain mechanism underlies the antagonism by gamma-vinyl-GABA of cocaine-triggered reinstatement of drug-seeking behavior, at least with respect to gamma-vinyl-GABA's action(s) within the nucleus accumbens. In contrast to gamma-vinyl-GABA, systemic administration of gabapentin (another putative GABAmimetic compound claimed in some previous reports from other research groups to have anti-cocaine-addiction properties) was found to have no effect on cocaine-triggered relapse to cocaine-seeking behavior. Gabapentin also failed to alter intarvenous cocaine self-administration under fixed-ratio reinforcement in laboratory rats. In vivo brain microdialysis experiments showed that gabapentin produces a modest (50%) increase in extracellular GABA levels in the nucleus accumbens, but fails to alter either basal or cocaine-enhanced dopamine levels in the nucleus accumbens. When added to our previous extensive findings with gamma-vinyl-GABA in a very wide variety of addiction-related preclinical animal models, the present findings suggest that gamma-vinyl-GABA may have anti-addiction, anti-craving, and anti-relapse efficacy in human drug addiction. However, gabapentin appears to lack significant anti-addiction, anti-craving, or anti-relapse efficacy.