Intracerebroventricular infusion of glucagon-like peptide-1-(7—36) amide (GLP-1) reduces feeding in rats, an effect that could be localized to the hypothalamic paraventricular nucleus (PVN). Intracerebroventricular GLP-1, however, may also induce conditioned taste aversion (CTA), thereby putting into question the specificity of the action of GLP-1 on feeding. The present experiments evaluated the action of PVN GLP-1 (0, 100, or 200 ng) on induction of CTA, on locomotion, and finally, on feeding and drinking in rats. PVN infusion of GLP-1 (100 or 200 ng) did not support the induction of CTA and did not reliably alter locomotion, but did suppress feeding and drinking. The present study suggests that GLP-1 infusions into the PVN reduce food and water intake without producing illness or disrupting locomotor behavior. These data, in conjunction with reports of increased feeding following antagonism of central GLP-1 receptors, support the notion that endogenous GLP-1, perhaps within the PVN, functions to suppress feeding in the rat.
Cocaine use is associated with high levels of impulsive choice (preference for immediate over delayed rewards), but it is not clear whether cocaine use causes elevated impulsive choice, or whether elevated impulsive choice is solely a predisposing factor for cocaine use. This study examined the effects of prior cocaine self-administration on rats performing a delay discounting task commonly used to measure impulsive choice. Male Long-Evans rats were implanted with intravenous catheters, and following recovery, were trained to self-administer 30 mg/kg/day cocaine HCl (approx. 0.5 mg/kg/ infusion) for 14 consecutive days (a control group received yoked intravenous saline infusions). Following three weeks of withdrawal, all rats were food-restricted and began training on the delay discounting task in standard operant chambers. On each trial, rats were given a choice between two levers. A press on one lever delivered a small food reward immediately, and a press on the other delivered a large food reward after a variable delay period. Rats that self-administered cocaine displayed greater impulsive choice (enhanced preference for the small immediate over the large delayed reward, as reflected by shorter indifference points) compared to controls, but were no different from controls on a "probabilistic discounting" task in which they chose between small certain and large uncertain rewards. These data suggest that self-administered cocaine can cause lasting elevations in impulsive choice, and that the high levels of impulsive choice observed in human cocaine users may be due in part to long-term effects of cocaine on brain function.
The physiological mechanism through which food restriction (FR) enhances the biobehavioral actions of psychostimulants is unknown but may involve the gut peptide ghrelin. Plasma levels of ghrelin are increased by FR and reduced by eating. Moreover, systemically administered ghrelin crosses into the brain and is known to augment the locomotor-stimulating effects of cocaine [COC: Wellman et al, 2004]. This study sought to determine whether pretreatment with ghrelin (5 nmol) would enhance the rewarding properties of COC (0.0, 0.312, 0.625, or 1.25 mg/kg i.p.) as measured by conditioned place preference (CPP). Adult male Sprague-Dawley rats were given free access to both sides of a CPP chamber to determine initial side preference. The rats were then confined for 30 min to either their preferred side or non-preferred side on 8 consecutive days. When rats were confined to the least preferred side, each was injected with 0.5 ml (i.p.) of either ghrelin (5 nmol) or saline 1 h before the conditioning trial and then injected (i.p.) with one of the COC doses immediately prior to the conditioning trial. On alternate days, rats were injected with vehicle one hour before and again immediately before the conditioning trial. Place preference scores were computed as the differences in time (min) spent on the least preferred side of the chamber for the pre-test and the post conditioning test, covaried by the initial degree of preference (% time spent on the black side during the pre-test). These analyses indicated a significant interaction between ghrelin pretreatment and COC dose on changes in preference scores. Significantly higher place preference scores were noted for rats treated with either 0.312 or 0.625 mg/kg COC doses, but only when these COC doses were preceded by administration of 5 nmol ghrelin. In contrast, saline pretreated rats exhibited significant CPP at the 1.25 mg/kg COC dose, but the ghrelin pretreated group did not. These results provide partial support for the contention that ghrelin pretreatment can augment the rewarding effects of subthreshold doses of COC in a CPP procedure. Moreover, these findings are consistent with the view that ghrelin may play a role in the capacity of FR to augment psychostimulant action.
Rationale: Variation in dietary constituents such as carbohydrate are known to alter psychostimulant function in brain. Relatively few studies have examined the reinforcing effects of psychostimulants in subjects maintained on high-fat diets. The present experiment compared the rate of acquisition of an operant response for intravenous (i.v.) cocaine infusions (0.2 mg/kg) in rats fed either a chow-pellet diet or a 35.9% (by weight) high-fat diet for 45 days prior to cocaine selfadministration testing.Results: Rats maintained on a high-fat diet for 45 days exhibited diminished acquisition of cocaine self-administration, and this effect was not a function of dietary-induced obesity.
Conclusions:The results suggest that prolonged exposure to a high-fat diet diminishes the efficacy of cocaine reinforcement.
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