Effects of food deprivation on cocaine base smoking in rhesus monkeys

Modulation of cue value and the augmentation of heroin seeking in chronically food-restricted male rats under withdrawal

Food restriction augments drug seeking in abstinent rats. The underlying motivational mechanisms, however, remain unclear. We hypothesized that caloric restriction enhances the incentive value attributed to drug-associated cues and, in turn, augments drug seeking. Male rats were trained to lever-press for heroin, and then moved to the animal colony for a forced-abstinence period. Rats were maintained on free access to food (Sated) or subjected to 14 days of food restriction (FDR). In a series of experiments, we assessed the effect of food-restriction on the incentive value of heroin-associated cues. Tests included performance under a progressive ratio (PR) schedule of reinforcement maintained by heroin-associated cues, acquisition of a novel operant response reinforced by drug-associated cues, effect of food-restriction on operant response reinforced by neutral cues, acquisition of a novel operant response reinforced by drug-associated or neutral cues, and the effect of food-restriction on operant response reinforced by drug-associated or neutral cues, under a discrete choice procedure. Food-restriction did not change breakpoints in PR maintained by heroin-associated cues. FDR rats acquired the novel response at a greater level compared to the Sated group. Food-restriction-induced increase in novel-response rate was observed for both heroin-paired and the neutral cue. Responding for a heroin-associated cue was greater than for the neutral cue in both Sated and FDR groups. Response rate for the neutral cue, however, was greater in the FDR versus Sated group. Our findings suggest that food restriction increases the conditioned motivational properties of environmental stimuli, including, but not exclusive to, heroin-paired cues.

Fasting may increase incentive signaling for nonfood rewards

During acute energy deprivation, hunger signaling mechanisms support homeostasis by enhancing incentive for food. There is some evidence (primarily based on nonhuman experiments) that fasting heightens incentive signaling for nonfood reward as well. We hypothesized that, consistent with results from research in rodent and nonhuman primates, human participants would evidence increased incentive-related brain activity for nonfood rewards during fast (relative to satiety) and that this increase would be heightened when available rewards were immediate. To assess these possibilities, healthy participants with body mass index between 18 and 29 kg/m² completed a task which engaged participants in opportunities to win immediate and delayed money (Monetary Incentive Delay Task) during 2 neuroimaging sessions (1 postprandial, 1 fasted). Analyses of participants (N = 18 included, body mass index 22.12± 2.72, age 21.39± 3.52) focused on brain activity during the incentive window of the task. Region of interest, as well as whole-brain analyses, supported the hypothesized increase in incentive signaling during fasting in regions that included caudate and putamen. No evidence of interaction was observed between fasting and the effect of reward immediacy or reward magnitude. Although provisional given the modest sample size, these results suggest that acute fasting can heighten incentive signaling for nonfood rewards.

Self-administration of methamphetamine aerosol by male and female baboons

The reinforcing efficacy of vaporized methamphetamine HCl (0.3 mg/kg) was determined in baboons with minimal previous drug exposure. A group of 8 adult male baboons was tested prior to a group of 7 adult female baboons. Baboons were initially trained to suck on a brass stem activating a pressure-sensitive relay (i.e., puff), to receive one M&M® candy. Five of the 8 males and 6 of the 7 females learned to activate the relay. 0.05 ml of 95% ethyl alcohol containing 0.3 mg/kg methamphetamine was vaporized and delivered to the mouth of the baboon after he/she completed 2 puffs; a single candy was given after an additional 5 puffs to ensure that baboons continued puffing after the aerosol entered their mouths. Puffing was recorded but not reinforced by candy or drug for 2 min after each aerosol delivery for males and 1 min for females. Males could earn 10 and females could earn 20 aerosol deliveries. Males made between 225 and 650 puffs each session. Females made between 200 and 400 puffs each session. When only candy and placebo aerosol were delivered the number of puffs decreased in all 6 females but increased in all 5 males. When candy was delivered without aerosol, puffing decreased in 4 of 5 males, but this manipulation was not tested in females. Methamphetamine aerosol delivery maintained lower rates of puffing behavior in females than males, but procedural differences weaken interpretation of this sex comparison. Although training non-human primates to inhale drug vapors is time consuming, if successful, their long lifespan could provide years of valuable data justifying further work with non-human primates using models of vaporized drug self-administration.

Locomotor Stimulant and Rewarding Effects of Inhaling Methamphetamine, MDPV, and Mephedrone via Electronic Cigarette-Type Technology

Although inhaled exposure to drugs is a prevalent route of administration for human substance abusers, preclinical models that incorporate inhaled exposure to psychomotor stimulants are not commonly available. Using a novel method that incorporates electronic cigarette-type technology to facilitate inhalation, male Wistar rats were exposed to vaporized methamphetamine (MA), 3,4-methylenedioxypyrovalerone (MDPV), and mephedrone (4-methylmethcathinone) in propylene glycol vehicle using concentrations ranging from 12.5 to 200 mg/ml. Rats exhibited increases in spontaneous locomotor activity, measured by implanted radiotelemetry, following exposure to methamphetamine (12.5 and 100 mg/ml), MDPV (25, 50, and 100 mg/ml), and mephedrone (200 mg/ml). Locomotor effects were blocked by pretreatment with the dopamine D1-like receptor antagonist SCH23390 (10 μg/kg, intraperitoneal (i.p.)). MA and MDPV vapor inhalation also altered activity on a running wheel in a biphasic manner. An additional group of rats was trained on a discrete trial intracranial self-stimulation (ICSS) procedure interpreted to assess brain reward status. ICSS-trained rats that received vaporized MA, MDPV, or mephedrone exhibited a significant reduction in threshold of ICSS reward compared with vehicle. The effect of vapor inhalation of the stimulants was found comparable to the locomotor and ICSS threshold-reducing effects of i.p. injection of mephedrone (5.0 mg/kg), MA (0.5-1.0 mg/kg), or MDPV (0.5-1.0 mg/kg). These data provide robust validation of e-cigarette-type technology as a model for inhaled delivery of vaporized psychostimulants. Finally, these studies demonstrate the potential for human use of e-cigarettes to facilitate covert use of a range of psychoactive stimulants. Thus, these devices pose health risks beyond their intended application for the delivery of nicotine.

Sex differences in nicotine self-administration in rats during progressive unit dose reduction: implications for nicotine regulation policy

Reducing the nicotine content in tobacco products is being considered by the FDA as a policy to reduce the addictiveness of tobacco products. Understanding individual differences in response to nicotine reduction will be critical to developing safe and effective policy. Animal and human research demonstrating sex differences in the reinforcing effects of nicotine suggests that males and females may respond differently to nicotine-reduction policies. However, no studies have directly examined sex differences in the effects of nicotine unit-dose reduction on nicotine self-administration (NSA) in animals. The purpose of the present study was to examine this issue in a rodent self-administration model. Male and female rats were trained to self-administer nicotine (0.06mg/kg) under an FR 3 schedule during daily 23h sessions. Rats were then exposed to saline extinction and reacquisition of NSA, followed by weekly reductions in the unit dose (0.03 to 0.00025mg/kg) until extinction levels of responding were achieved. Males and females were compared with respect to baseline levels of intake, resistance to extinction, degree of compensatory increases in responding during dose reduction, and the threshold reinforcing unit dose of nicotine. Exponential demand-curve analysis was also conducted to compare the sensitivity of males and females to increases in the unit price (FR/unit dose) of nicotine (i.e., elasticity of demand or reinforcing efficacy). Females exhibited significantly higher baseline intake and less compensation than males. However, there were no sex differences in the reinforcement threshold or elasticity of demand. Dose-response relationships were very well described by the exponential demand function (r(2) values>0.96 for individual subjects). These findings suggest that females may exhibit less compensatory smoking in response to nicotine reduction policies, even though their nicotine reinforcement threshold and elasticity of demand may not differ from males.

Exercise to reduce the escalation of cocaine self-administration in adolescent and adult rats

RATIONALE

Concurrent access to an exercise wheel decreases cocaine self-administration under short access (5 h/day for 5 days) conditions and suppresses cocaine-primed reinstatement in adult rats.

OBJECTIVE

The effect of exercise (wheel running) on the escalation of cocaine intake during long access (LgA, 6 h/day for 26 days) conditions was evaluated.

METHODS

Adolescent and adult female rats acquired wheel running, and behavior was allowed to stabilize for 3 days. They were then implanted with an iv catheter and allowed to self-administer cocaine (0.4 mg/kg, iv) during 6-h daily sessions for 16 days with concurrent access to either an unlocked or a locked running wheel. Subsequently, for ten additional sessions, wheel access conditions during cocaine self-administration sessions were reversed (i.e., locked wheels became unlocked and vice versa).

RESULTS

In the adolescents, concurrent access to the unlocked exercise wheel decreased responding for cocaine and attenuated escalation of cocaine intake irrespective of whether the locked or unlocked condition came first. However, cocaine intake increased when the wheel was subsequently locked for the adolescents that had initial access to an unlocked wheel. Concurrent wheel access either before or after the locked wheel access did not reduce cocaine intake in adults.

CONCLUSIONS

Wheel running reduced cocaine intake during LgA conditions in adolescent but not adult rats, and concurrent access to the running wheel was necessary. These results suggest that exercise prevents cocaine seeking and that this effect is more pronounced in adolescents than adults.

Nicotine self-administration in the rat: effects of hypocretin antagonists and changes in hypocretin mRNA

RATIONALE

The hypocretin (hcrt) system has been implicated in addiction-relevant effects of several drugs, but its role in nicotine dependence has been little studied.

OBJECTIVES

These experiments examined the role of the hcrt system in nicotine reinforcement.

METHODS

Rats were trained for nicotine self-administration (NSA) on fixed-ratio schedules. The effects of acute, presession treatments with the hcrtR1 antagonist SB334867 and the hcrtR1/2 antagonist almorexant were examined on NSA maintained on a fixed-ratio (FR) 5 schedule. Gene expression for the hcrt system (mRNA for hcrt, hcrtR1, and hcrtR2) was measured in animals following NSA on a FR 1 schedule for a 19-day period.

RESULTS

The hcrtR1 antagonist SB334867 and the hcrtR1/2 antagonist almorexant both reduced NSA dose-dependently (significantly at doses of 30 and 300 mg/kg, respectively); SB334867 did not affect food-maintained responding whereas almorexant (at the 300 mg/kg) did. Tissue from animals collected 5 h after self-administration showed an increase in hcrtR1 mRNA in the arcuate nucleus compared to control subjects. In tissue collected immediately after a similar 19-day self-administration period, mRNA for hcrtR1 was decreased in the rostral lateral hypothalamus compared to controls.

CONCLUSIONS

These data confirm a previous report (Hollander et al., Proc Natl Acad Sci U S A 105:19480-19485, 2008) that the hypocretin receptor hcrtR1 is activated in nicotine reinforcement and in addition show that both the arcuate nucleus and lateral hypothalamus are sites at which hcrt receptor mechanisms may influence reinforcement. Different patterns of mRNA expression at different times after NSA suggest that changes in the hcrt system may be labile with time.

The effect of food deprivation on cigarette smoking in females

Food deprivation is associated with increased self-administration of nicotine and other substances in laboratory animals, although little is known about the effects of food deprivation on substance use in humans. A within-subjects design was utilized to test the primary hypotheses that smoking rate and expired carbon monoxide (CO) levels would be greater among 15 female participants following a 24-hour fasting period than when participants were not food-deprived. Food-deprived participants were also expected to endorse greater negative mood, smoking urges, and pleasure from smoking, as well as less positive mood. Analyses indicated that CO levels were significantly greater in the food-deprived condition than in the non-deprived condition (p=.05), although no differences were found in the number of cigarettes smoked during the laboratory session. Participants reported significantly lower Vigor-Activity in the food-deprived condition (p=.02). No differences were found between conditions in urges to smoke or pleasure from smoking. Findings suggest that nicotine intake may increase among females during acute food deprivation.

Modeling the role of environment in addiction

The aim of this review is to provide an overview of the main types of animal models used to investigate the modulatory role of environment on drug addiction. The environment can alter the responsiveness to addictive drugs in at least three major ways. First, adverse life experiences can make an individual more vulnerable to develop drug addiction or to relapse into drug seeking. Second, neutral environmental cues can acquire, through Pavlovian conditioning, the ability to trigger drug seeking even after long periods of abstinence. Third, the environment immediately surrounding drug taking can alter the behavioral, subjective, and rewarding effects of a given drug, thus influencing the propensity to use the same drug again. We have focused in particular on the results obtained using an animal model we have developed to study the latter type of drug-environment interaction.

Levo-tetrahydropalmatine inhibits cocaine's rewarding effects: experiments with self-administration and brain-stimulation reward in rats

It was recently reported that levo-tetrahydropalmatine (l-THP), a dopamine (DA) D1 and D2 receptor antagonist purified from the Chinese herb Stephanie, appears to be effective in attenuating cocaine self-administration, cocaine-triggered reinstatement and cocaine-induced conditioned place preference in preclinical animal models. The present study was designed to contrast l-THP's effects on cocaine self-administration under fixed-ratio (FR) and progressive-ratio (PR) reinforcement, and to study l-THP's effects on cocaine-enhanced brain stimulation reward (BSR). Systemic administration of l-THP produced dose-dependent, biphasic effects, i.e., low-to-moderate doses (1, 3, 10 mg/kg) increased, while a high dose (20 mg/kg) inhibited cocaine self-administration behavior under FR2 reinforcement. The increased cocaine self-administration is likely a compensatory response to a reduction in cocaine's rewarding effects, because the same low doses of l-THP dose-dependently attenuated cocaine self-administration under PR reinforcement and also attenuated cocaine-enhanced BSR. These attenuations of PR cocaine self-administration and cocaine-enhanced BSR are unlikely due to l-THP-induced sedation or locomotor inhibition, because only 10 mg/kg, but not 1-3 mg/kg, of l-THP inhibited locomotion, sucrose self-administration and asymptotic operant performance in the BSR paradigm. In vivo microdialysis demonstrated that l-THP slightly elevates extracellular nucleus accumbens DA by itself, but dose-dependently potentiates cocaine-augmented DA, suggesting that a postsynaptic, rather than presynaptic, DA receptor antagonism underlies l-THP's actions on cocaine reward. Together, the present data, combined with previous findings, support the potential use of l-THP for treatment of cocaine addiction.

Calorie restriction increases cigarette use in adult smokers

RATIONALE

Cigarette smokers weigh less than nonsmokers, and smokers often gain weight when they quit. This is a major barrier to smoking cessation, especially among women. However, strict dieting is not recommended during smoking cessation out of concern that it might promote relapse. This concern derives, in part, from the observation that calorie restriction increases self-administration of drugs of abuse in animals. This relationship has never been experimentally demonstrated in humans.

OBJECTIVES

To evaluate whether calorie restriction increases cigarette smoking in humans.

METHODS

Seventeen (nine males, eight females) healthy, normal-weight smokers not attempting to quit were cycled in partially counterbalanced order, double-blind, through four diets-normal calorie (2,000-2,800 kcal/day), low calorie (700 kcal/day deficit), low-carbohydrate (CHO)/normal-calorie, and low-CHO/low-calorie-for 6 days per diet in an inpatient research ward. Smoking was assessed by cigarette counts, breath carbon monoxide (CO) levels, and cigarette craving.

RESULTS

Compared with the normal-calorie diet, while on the low-calorie diet, subjects smoked 8% more cigarettes (P<0.02) and had 11% higher breath CO levels (P<0.01). The low-CHO/normal-calorie diet showed no significant effect on either variable, but there was a 15% increase in breath CO levels (P<0.05) on the low-CHO/low-calorie diet. There were no changes in self-reported cigarette craving or mood.

CONCLUSIONS

Consistent with animal studies, moderate calorie restriction was associated with a small but statistically significant increase in cigarette smoking, with no independent effect of CHO deprivation. These findings suggest that dieting may increase smoking behavior and could impede smoking-cessation attempts.

A progressive ratio schedule of self-stimulation testing in rats reveals profound augmentation of d-amphetamine reward by food restriction but no effect of a "sensitizing" regimen of d-amphetamine

RATIONALE

Prior research indicates that psychostimulant-induced sensitization is not expressed in lateral hypothalamic electrical self-stimulation (LHSS)-based measures of drug reward, although the augmenting effect of chronic food restriction is. Neuroadaptations within the brain dopamine system have been identified in both psychostimulant-sensitized and food-restricted animals. Consequently, a variant of the LHSS paradigm in which responding is particularly sensitive to changes in dopaminergic tone may be best suited to detect and compare effects of chronic d-amphetamine and food restriction. Instrumental responding on a progressive ratio (PR) schedule is more sensitive to dopaminergic manipulations than is responding on a continuous reinforcement (CRF) schedule, but has not previously been used to examine chronic psychostimulant and food restriction effects on LHSS-based measures of drug reward.

OBJECTIVE

The first aim of this study was to determine whether a regimen of d-amphetamine treatment, that produces locomotor sensitization (5 mg/kg per day x5 days), increases the reward-potentiating effect of d-amphetamine in a PR LHSS protocol. The second aim, was to determine whether chronic food restriction produces a marked increase in the reward-potentiating effect of d-amphetamine in the PR LHSS protocol and, if so, whether it is reversible in parallel with body weight recovery when free feeding is restored.

METHOD

Reward-potentiating effects of a challenge dose of d-amphetamine (0.25 mg/kg, IP) were measured in terms of the break point of LHSS responding on a PR schedule of reinforcement, in ad libitum fed and food-restricted rats.

RESULTS

A regimen of d-amphetamine treatment that produced locomotor sensitization did not increase the break point for LHSS in the presence or absence of d-amphetamine. Chronic food restriction produced a marked increase in the break point-increasing effect of d-amphetamine (3-fold), which returned to baseline in parallel with body weight recovery over a 4-week period of restored free-feeding.

CONCLUSIONS

A locomotor-sensitizing regimen of d-amphetamine treatment does not increase the rewarding effect of LH electrical stimulation or the reward-potentiating effect of d-amphetamine in a PR LHSS protocol. The augmenting effect of chronic food restriction on drug reward is mechanistically and functionally different from psychostimulant sensitization and may be controlled by signals associated with adipose depletion and repletion.

The effects of extreme nutritional conditions on the neurochemistry of reward and addiction

Weight loss is a frequent problem in space flights. We now claim that it may affect performance and drug-seeking behavior by altering midbrain neurochemistry. In food-deprived rats (20-30% underweight) basal extracellular dopamine levels in the nucleus accumbens decrease to 40-50% of normal and locomotion is depressed. However, amphetamine-induced dopamine release and locomotion are higher than in controls (1825% vs. 595% after a 25 micromoles d-amphetamine intraaccumbens infusion). The lower basal and the higher stimulated dopamine levels suggest that the neurotransmitter accumulates presynaptically in the accumbens of the underweight rats due to subnormal basal release. Psychostimulants are more rewarding for underweight subjects possibly because they release significantly more dopamine from elevated presynaptic stores into the accumbens. Consequently, weight loss can lead both to depression of performance and propensity to substance abuse. These effects should be considered when providing nutritional resources for space flights so that weight loss is limited.

Cocaine self-administration in monkeys: effects on the acquisition and performance of response sequences

A three-component multiple schedule of intravenous cocaine self-administration (0.01-0.3 mg/kg), repeated acquisition and performance was used to examine the effects of self-administered cocaine on learning in rhesus monkeys. A 0.03 mg/kg infusion of cocaine maintained reliable self-administration without markedly decreasing overall response rate or increasing the percentage of errors in the acquisition and performance components in which food was presented. When saline was substituted for 0.03 mg/kg of cocaine, there was little or no effect on responding in the acquisition or performance components while the number of infusions and response rate in the self-administration component decreased. These effects occurred to a greater extent under a FR 90 schedule (Experiment 2) as compared to a FR 30 schedule (Experiment 1) of cocaine self administration. Substitution of higher infusion doses of cocaine also decreased response rate and the number of infusions in the self-administration components, and substantially decreased responding in the acquisition components; decreases in overall accuracy of responding were evident when responding in this schedule component occurred. Taken together, these data indicate that learning is generally more sensitive than performance to the disruptive effects of self-administered cocaine.

Oral caffeine pretreatment produced modest increases in smoked cocaine self-administration in rhesus monkeys

Several recent studies have shown that caffeine potentiates the reinforcing, discriminative stimulus, and motor activating effects of cocaine in rats. The present study was designed to determine whether oral caffeine pretreatment would enhance the reinforcing effects of cocaine in rhesus monkeys trained to self-administer smoked cocaine base. The effects of oral caffeine pre-treatment (0, 100, or 200 mg) and fixed-ratio (FR) value on cocaine-base smoking were evaluated in four male rhesus monkeys. Monkeys responded on a lever under a fixed-ratio (FR) schedule (FR 128, 256, 512, 1024, 2048, or 4096) and then made five inhalations on a smoking spout to gain access to volatilized cocaine base (0.25 or 1.0 mg/kg per delivery) during daily experimental sessions. Twenty pellets [20 non-caffeinated (0 mg caffeine), ten non-caffeinated+ten caffeinated (100 mg caffeine), or 20 caffeinated (200 mg caffeine) pellets] were administered 30 min prior to experimental sessions. The lever FR value was held constant within each experimental session, but was increased after 3 consecutive days of stable responding. Although the number of smoke deliveries that was self-administered significantly decreased from FR 128 to FR 4096, it did not change as a function of cocaine dose across the range of FR values tested. However, the interaction between cocaine dose and caffeine pretreatment was statistically significant. Compared to 0 mg caffeine, three of four monkeys pretreated with 200 mg caffeine responded for a greater number of smoke deliveries when they were maintained on a cocaine dose of 1.0 mg/kg per delivery, but not 0.25 mg/kg per delivery. Thus, caffeine pretreatment can produce small, but statistically significant increases in smoked cocaine self-administration in rhesus monkeys.