Time acts as a conditioned stimulus to control behavioral sensitization to amphetamine in rats

Time-of-day as a critical biological variable

Time-of-day is a crucial, yet often overlooked, biological variable in biomedical research. We examined the top 25 most cited papers in several domains of behavioral neuroscience to determine whether time-of-day information was reported. The majority of studies report behavioral testing conducted during the day, which does not coincide with the optimal time to perform the testing from an functional perspective of the animals being tested. The majority of animal models used in biomedical research are nocturnal rodents; thus, testing during the light phase (i.e. animals' rest period) may alter the results and introduce variability across studies. Time-of-day is rarely considered in analyses or reported in publications; the majority of publications fail to include temporal details when describing their experimental methods, and those few that report testing during the dark rarely report whether measures are in place to protect from exposure to extraneous light. We propose that failing to account for time-of-day may compromise replication of findings across behavioral studies and reduce their value when extrapolating results to diurnal humans.

Changes in the time of day of conditioning with respect to the pre-exposure interfere with the latent inhibition of conditioned taste aversion in rats

In rats, the reduction of the magnitude of a conditioned taste aversion (CTA) that occurs after taste pre-exposures (that is, the latent inhibition of CTA) can be attenuated by contextual changes of the external cues in the conditioning stage. Similarly, circadian internal cues such as those induced by the time of day may also modulate the magnitude of the taste aversion. Under a long period of temporal-contextual habituation, the latent inhibition of CTA is reduced if the pre-exposure and conditioning stages occur at different times of day. However, it is unknown if this effect is consistent when different changes in the time of day of conditioning with respect to the pre-exposure are compared. In this study, the effect of two different changes in the time of day of conditioning (one from morning to evening, and one from evening to morning) on the latent inhibition of CTA was compared with the response of a typical latent inhibition group without temporal change between stages, and with control groups without pre-exposures. The results indicate that the latent inhibition of CTA of both groups with temporal change between pre-exposure and conditioning is significantly reduced when compared with the latent inhibition of the group without temporal change. These findings suggest that the temporal context may be a critical cue for the latent inhibition of CTA, and they show that different changes in the time of day of conditioning interfere similarly with this learning.

Differential modulatory effects of cocaine on marmoset monkey recognition memory

Acute and repeated exposure to cocaine alters the cognitive performance of humans and animals. How each administration schedule affects the same memory task has yet to be properly established in nonhuman primates. Therefore, we assessed the performance of marmoset monkeys in a spontaneous object-location (SOL) recognition memory task after acute and repeated exposure to cocaine (COC; 5mg/kg, ip). Two identical neutral stimuli were explored on the 10-min sample trial, after which preferential exploration of the displaced vs the stationary object was analyzed on the 10-min test trial. For the acute treatment, cocaine was given immediately after the sample presentation, and spatial recognition was then tested after a 24-h interval. For the repeated exposure schedule, daily cocaine injections were given on 7 consecutive days. After a 7-day drug-free period, the SOL task was carried out with a 10-min intertrial interval. When given acutely postsample, COC improved the marmosets' recognition memory, whereas it had a detrimental effect after the repeated exposure. Thus, depending on the administration schedule, COC exerted opposing effects on the marmosets' ability to recognize spatial changes. This agrees with recent studies in rodents and the recognition impairment seen in human addicts. Further studies related to the effects of cocaine's acute×prior drug history on the same cognitive domain are warranted.

Exploring the role of locomotor sensitization in the circadian food entrainment pathway

Food entrainment is the internal mechanism whereby the phase and period of circadian clock genes comes under the control of daily scheduled food availability. Food entrainment allows the body to efficiently realign the internal timing of behavioral and physiological functions such that they anticipate food intake. Food entrainment can occur with or without caloric restriction, as seen with daily schedules of restricted feeding (RF) or restricted treat (RT) that restrict food or treat intake to a single feeding time. However, the extent of clock gene control is more pronounced with caloric restriction, highlighting the role of energy balance in regulating clock genes. Recent studies have implicated dopamine (DA) to be involved in food entrainment and caloric restriction is known to affect dopaminergic pathways to enhance locomotor activity. Since food entrainment results in the development of a distinct behavioral component, called food anticipatory activity (FAA), we examined the role of locomotor sensitization (LS) in food entrainment by 1) observing whether amphetamine (AMPH) sensitization results in enhanced locomotor output of FAA and 2) measuring LS of circadian and non-circadian feeding paradigms to an acute injection of AMPH (AMPH cross-sensitization). Unexpectedly, AMPH sensitization did not show enhancement of FAA. On the contrary, LS did develop with sufficient exposure to RF. LS was present after 2 weeks of RF, but not after 1, 3 or 7 days into RF. When food was returned and rats regain their original body weight at 10-15 days post-RF, LS remained present. LS did not develop to RT, nor to feedings of a non-circadian schedule, e.g. variable restricted feeding (VRF) or variable RT (VRT). Further, when RF was timed to the dark period, LS was observed only when tested at night; RF timed to the light period resulted in LS that was present during day and night. Taken together our results show that LS develops with food entrainment to RF, an effect that is dependent on the chronicity and circadian phase of RF but independent of body weight. Given that LS involves reorganization of DA-regulated motor circuitry, our work provides indirect support for the role of DA in the food entrainment pathway of RF. The findings also suggest differences in neuronal pathways involved in LS from AMPH sensitization and LS from RF.

Glycogen synthase kinase-3β in the ventral tegmental area mediates diurnal variations in cocaine-induced conditioned place preference in rats

Cocaine sensitization and reward are reported to be under the influence of diurnal rhythm. However, no previous studies have reported brain areas that play a role as modulators and underlie the mechanism of diurnal variations in cocaine reward. We examined (1) the diurnal rhythm of glycogen synthase kinase-3β (GSK-3β) activity in the suprachiasmatic nucleus (SCN) and reward-related brain areas in naive rats; (2) the effect of day and night on the acquisition of cocaine-induced conditioned place preference (CPP); (3) the influence of cocaine-induced CPP on GSK-3β activity in the SCN and reward-related brain areas; and (4) the effect of the GSK-3β inhibitor SB216763 microinjected bilaterally into the ventral tegmental area (VTA) on cocaine-induced CPP. A significant diurnal rhythm of GSK-3β activity was found in the SCN and reward-related brain areas, with diurnal variations in cocaine-induced CPP. GSK-3β activity in the SCN and reward-related brain areas exhibited marked diurnal variations in rats treated with saline. GSK-3β activity in rats treated with cocaine exhibited distinct diurnal variations only in the prefrontal cortex and VTA. Cocaine decreased the expression of phosphorylated GSK-3β (i.e. increased GSK-3β activity) only in the VTA in rats trained and tested at ZT4 and ZT16. SB216763 microinjected into the VTA bilaterally eliminated the diurnal variations in cocaine-induced CPP, but did not affect the acquisition of cocaine-induced CPP. These findings suggest that the VTA may be a critical area involved in the diurnal variations in cocaine-induced CPP, and GSK-3β may be a regulator of diurnal variations in cocaine-induced CPP.

Time of day influences the voluntary intake and behavioral response to methamphetamine and food reward

The circadian timing system influences a vast array of behavioral responses. Substantial evidence indicates a role for the circadian system in regulating reward processing. Here we explore time of day effects on drug anticipation, locomotor activity, and voluntary methamphetamine (MA) and food intake in animals with ad libitum food access. We compared responses to drug versus a palatable treat during their normal sleep times in early day (zeitgeber time (ZT) 0400) or late day (ZT 1000). In the first study, using a between-subjects design, mice were given daily 1-h access to either peanut butter (PB-Alone) or to a low or high concentration of MA mixed in PB (MA+PB). In study 2, we repeated the experiment using a within-subjects design in which mice could choose between PB-Alone and MA+PB at either ZT 0400 or 1000. In study 3, the effects of MA-alone were investigated by evaluating anticipatory activity preceding exposure to nebulized MA at ZT 0400 vs. ZT 1000. Time of day effects were observed for both drug and palatable treat, such that in the between groups design, animals showed greater intake, anticipatory activity, and post-ingestional activity in the early day. Furthermore, there were differences among mice in the amount of MA ingested but individuals were self-consistent in their daily intake. The results for the within-subjects experiment also revealed robust individual differences in preference for MA+PB or PB-Alone. Interestingly, time of day effects on intake were observed only for the preferred substance. Anticipatory activity preceding administration of MA by nebulization was also greater at ZT 0400 than ZT 1000. Finally, pharmacokinetic response to MA administered intraperitoneally did not vary as a function of time of administration. The results indicate that time of day is an important variable mediating the voluntary intake and behavioral effects of reinforcers.

High levels of wheel running protect against behavioral sensitization to cocaine

Although there is no doubt that the direct action of stimulant drugs on the brain is necessary for sensitization to their behavioral stimulating effects, several experiments indicate that drug action is often not sufficient to produce sensitization. There is considerable evidence that many individual characteristics and experiential variables can modulate the behavioral and neural changes that are seen following repeated exposure to stimulant drugs. In the work presented here, we examined whether chronic wheel running would modulate behavioral sensitization to cocaine, and whether any such influence was contingent on individual differences in wheel running. We found that a 5- or 10-week experience with wheel running protects against behavioral sensitization to cocaine but only in animals with a natural tendency to run the most. Understanding the mechanism underlying the modulating effect of wheel running on behavioral sensitization may have important implications for future studies on the link between drug-induced behavioral and neural adaptations.

Common transcriptional effects in the mouse striatum following chronic treatment with heroin and methamphetamine

The molecular alterations that underlie the long-lasting behavioural effects of drugs of abuse, such as psychomotor sensitization and physical dependence, are still not known. Moreover, it is not known which molecular effects are similar for addictive drugs from various pharmacological classes. In this study, we utilized whole-genome microarray profiling to evaluate the detailed time-course of transcriptional alterations in the mouse striatum during chronic treatment with heroin (HER) and methamphetamine (METH) and after period of spontaneous withdrawal. We identified 27 genes regulated by chronic drug administration. The overlap between lists of HER- and METH-induced genes was highly significant. The most substantial impact on the gene expression profile was observed for circadian genes (Per1, Per2 and Nr1d1). However, changing the treatment scheme from diurnal to nocturnal was sufficient to attenuate the drug-induced changes in circadian gene mRNA levels. Both of the drugs caused a dose-dependent induction in glucocorticoid-dependent genes with relatively long mRNA half-lives (Fkbp5, Sult1a1 and Plin4). The analysis also showed a drug-regulated group of transcripts enriched in the nucleus accumbens and includes well known (Pdyn, Cartpt and Rgs2) as well as new (Fam40b and Inmt) candidate genes. All identified alterations in the striatal transcriptome were transient and persisted up to 6 days after withdrawal. Behavioural sensitization, however, was maintained throughout the 12-day withdrawal period for both HER and METH. We suggest that transient gene expression alterations during drug treatment and in the early period of withdrawal are involved in the establishment of persistent neuroplastic alterations responsible for the development of drug addiction.

The effects of adolescent methylphenidate self-administration on responding for a conditioned reward, amphetamine-induced locomotor activity, and neuronal activation

BACKGROUND

Abuse of methylphenidate (Ritalin) is rising, particularly during adolescence and early adulthood, but the long-term effects of its abuse during adolescence are unclear.

METHODS

In experiment 1, we examined the effect of adolescent methylphenidate self-administration (0.0625 mg/infusion), as compared with cocaine self-administration (0.125 mg/infusion), under a fixed ratio 1 schedule of reinforcement in male Sprague-Dawley rats during adolescence (postnatal day (PND) 32-47) on adult dopamine-mediated behaviors (PND >70). These included responding for a conditioned reward (CR), a measure of incentive motivation, and amphetamine-induced locomotor activity. In experiment 2, we aimed to replicate and enhance the effects observed in experiment 1, and we also examined the effects of methylphenidate self-administration during adolescence on adult amphetamine-induced zif268 messenger ribonucleic acid (mRNA) expression.

RESULTS

Adolescent rats self-administered both cocaine and methylphenidate. There was no effect of adolescent drug self-administration on adult baseline or amphetamine-induced responding for a CR. However, both adolescent methylphenidate and cocaine self-administration increased amphetamine-induced locomotion. Adolescent methylphenidate self-administration also enhanced amphetamine-induced zif268 mRNA expression in the nucleus accumbens.

CONCLUSIONS

Our findings suggest that repeated, behaviorally contingent exposure to methylphenidate during adolescence enhances responsivity to the locomotor-stimulating and neuronal activating effects of amphetamine but not incentive motivation.

Contribution of the suprachiasmatic nucleus to day:night variation in cocaine-seeking behavior

Recent work has shown that time-of-day influences drug-seeking behavior. The present experiments tested the hypothesis that the master circadian pacemaker located in the suprachiasmatic nucleus of the hypothalamus (SCN) is required for generating day:night differences in drug-seeking behavior, specifically the acquisition, extinction, and reinstatement of cocaine-induced conditioned place preference (CPP). Sham and SCN-lesioned (SCNx) rats were trained for cocaine-induced CPP behavior at either ZT4 (Zeitgeber time 4, 4 h after lights-on) or ZT12 (lights-off). After being tested for side preference, rats were allowed to extinguish CPP. This was followed by cocaine-induced reinstatement with 5 mg/kg and 10 mg/kg of cocaine. SCNx animals exhibited no 24-h locomotor activity rhythm. Acquisition of CPP behavior did not vary with time-of-day, but was greater in SCNx animals. Sham rats tested at ZT12 took significantly longer to extinguish CPP behavior compared to ZT4, an effect completely abolished by SCN lesions. Cocaine-induced reinstatement of CPP did not vary with time of day in sham rats. However, SCNx animals tested at ZT4 trended towards greater reinstatement to the low dose of cocaine, and displayed significantly less reinstatement to the higher dose of cocaine than sham rats. Additionally, SCNx rats tested for reinstatement to the lower dose of cocaine displayed greater reinstatement at ZT4 than at ZT12. We conclude that: 1) acquisition of CPP behavior does not vary between the two times of day tested but is influenced tonically by the SCN, 2) extinction of cocaine CPP varies with time-of-day and this variation depends critically on the SCN, and 3) reinstatement of cocaine CPP does not vary between the two times of day tested. However, day:night differences in reinstatement are unmasked in animals lacking an SCN, suggesting the possibility that an extra-SCN oscillator is responsible for generating variation in this cocaine-seeking behavior.

Diurnal differences in dopamine transporter and tyrosine hydroxylase levels in rat brain: dependence on the suprachiasmatic nucleus

Time of day can influence cocaine-seeking behavior in rats, and this influence may depend on the suprachiasmatic nucleus (SCN). We used western blots to measure expression of dopamine transporter (DAT) and tyrosine hydroxylase (TH) proteins in the medial prefrontal cortex (mPFC), nucleus accumbens (NAc), and caudate in sham and SCN-lesioned (SCNx) rats at ZT4 (Zeitgeber time 4, 4 h after lights-on) or ZT20 (8 h after lights-off). In the mPFC, DAT levels were lower at ZT20 than at ZT4 in sham but not SCNx rats. In the NAc, DAT expression was higher at ZT20 than at ZT4, and this effect was blunted in SCNx rats. Caudate DAT levels were unaffected by time of day or SCNx. Levels of TH did not change in mPFC with time of day or SCN lesion; TH levels were higher at ZT20 in the NAc, with a trend towards higher levels at this time in SCNx rats. Caudate TH expression was slightly elevated at ZT20 in sham but not in SCNx rats. We conclude that DAT and TH within these brain regions exhibit diurnal variation and dependence on the SCN. The results may have implications for new strategies to maximize pharmacological treatments for drug addiction.

Patterns of opioid and cocaine co-use: a descriptive study in a Canadian sample of untreated opioid-dependent individuals

This study examined prevalence and patterns of co-use of opioids and cocaine in regular users of illicit opioids (N = 729) recruited from 5 Canadian cities. Fifty-seven percent (n = 417) reported having used both opioids and cocaine in the month and week preceding the interview; of these, 73% (n = 304) were able to identify a typical pattern of daily co-use. In a typical day, injectors of opioids and cocaine (n = 119) and injectors of opioids who inhaled cocaine (n = 111) showed stable opioid use but variable cocaine use, which peaked at 21 hr. Overall, 30% of the individuals used both drugs exclusively in a sequential fashion, 35% reported taking opioids and cocaine within the same hour, and 35% reported taking them together at the same time or mixing them. These findings indicate that different individuals display different patterns of opioids and cocaine co-use.

Preweaning cocaine exposure alters brain glucose metabolic rates following repeated amphetamine administration in the adult rat

Developmental cocaine exposure produces long-term alterations in function of many neuronal circuits. This study examined glucose metabolic rates following repeated amphetamine administration in adult male and female rats pretreated with cocaine during postnatal days (PND) 11-20. PND11-20 cocaine increased the response to amphetamine in many components of the motor system and the dorsal caudate-putamen, in particular, and decreased the metabolic response in the hypothalamus. While amphetamine alone produced widespread increases in metabolism, there were no cocaine-related effects in the mesolimbic, limbic or sensory structures. These data suggest that a brief cocaine exposure during development can alter ontogeny and result in abnormal neuronal responses to repeated psychostimulant administration in adulthood.

Amphetamine sensitization: nonassociative and associative components

Rats, pretreated with amphetamine (AMPH, 1 mg/kg) or saline for 2 weeks, were challenged with AMPH (0.5 mg/kg) or saline following 1 week of abstinence, and locomotion was measured. In Experiments 1 and 2, the pretreatment occurred in various contexts (home cage, novel box, test box). Sensitization was observed only when pretreatment context and test context were the same; a context switch abolished sensitization. When rats anesthetized with chloral hydrate were pretreated with AMPH, sensitization was completely dependent on the pretreatment, but independent of context. This "zero context" condition isolated the basal level of excitation attributable to unconditioned neural change to determine the role of contextual input to be a modulator that enhances or inhibits sensitization.

Effects of chronic caffeine pre-exposure on conditioned and unconditioned psychomotor activity induced by nicotine and amphetamine in rats

Three experiments examined the effects of chronic pre-exposure to caffeine on the subsequent conditioned and unconditioned locomotor activating effects of nicotine or amphetamine in rats. Rats were given daily intraperitoneal injections of caffeine anhydrous (0, 10 or 30 mg/kg base) for 30 days. Conditioning (environment-drug pairings) began after the last day of caffeine pre-exposure. Pre-exposure to 30 mg/kg of caffeine enhanced the acute and chronic locomotor effects of amphetamine (0.5 mg/kg). A similar enhancement of activity was not seen with the high (0.421 mg/kg base) or low dose (0.175 mg/kg) of nicotine. In a drug-free test, the distinct environment paired with amphetamine and the high dose of nicotine evoked increases in activity relative to controls. Caffeine pre-exposure did not affect expression of this conditioned hyperactivity. These effects of caffeine pre-exposure on amphetamine-induced activity could not be attributed to non-specific effects of caffeine.

The contextual modulation of conditioned taste aversions by the physical environment and time of day is similar

In a pair of experiments, we have compared the ability of changes of place (Exp. 1) and changes of time of day (Exp. 2) to separately modulate learned saline-aversion memory phenomena in rats. Neither a spatial nor a temporal change disrupted latent inhibition using the present behavioral procedure. However, pre-exposure to the taste increased the contextual control of the learned aversion expression. The aversion reappeared in the place or at the time of conditioning after extinction in a different context. The results indicate that environmental and temporal contexts can independently, but similarly modulate taste aversion learning.

Apomorphine sensitization: evoking conditions, context dependence, effect persistence and conditioned nature

When repeatedly administered a dose of apomorphine (Apo), pigeons, much like rodents, show behavioural sensitization. In birds this sensitization expresses itself as an increasing pecking response to the drug and is found to be partially dependent on the environmental context in which Apo takes effect. In the first experiment we examined what effect different inter-Apo administration intervals have on the development of Apo sensitization and found that, with some smaller variations, intervals between 3 hours and 5 days all yielded comparable courses of sensitization. In the second experiment we examined how long pigeons had to be exposed to the same distinct cage to reveal a maximal context-dependent sensitization. Pigeons were therefore repeatedly injected with Apo and consistently placed in an experimental cage for different lengths of time (5 to 60 min; the overall drug effect lasted for about 1 h) before being returned to their standard home cages. Subsequent tests in the experimental cage and a standard cage showed that 20-min post-injection exposures were sufficient to yield a maximal response in the experimental cage. After training with 20- and 60-min exposures, the pigeons pecked about three times more in the experimental cage than in the standard cage. This confirmed the marked context dependency of the sensitization effect. In the third experiment, groups of pigeons were injected repeatedly with Apo and directly afterwards placed either consistently into the same experimental cage or into different experimental cages. The same-cage group evidenced a significantly much stronger sensitization than the different-cage group. A cage-habituation group served as a control for the possibility that the weaker sensitization of the different-cage group might be due to a cage novelty effect. This cage-habituation group was run under the same conditions as the different-cage group but with additional exposures to the crucial cage while injected with saline. This extra treatment did not augment the pecking response to Apo in that cage. In the fourth experiment we examined how long the sensitization to Apo lasts and found that, even after 2 years of drug abstinence, it only waned to 50% of the original asymptotic response. The overall results support the hypothesis that a very major part of the sensitization to Apo in pigeons is due to a conditioning to the environmental context and to the drug state itself.

A novel, associative process modulating photic resetting of the circadian clock

Appropriate timing of physiological and behavioral processes requires that the circadian clock be reset daily by salient cues in the environment, particularly light. It is known that the ability of light to reset the clock depends both on its intensity and on the circadian time when it is applied (Daan and Pittendrigh, 1976; Moore-Ede et al., 1982). Here we show that the ability of a weak light stimulus to reset the clock is dramatically enhanced when it is presented daily at the same circadian time. Equivalent daily presentations of this light stimulus, but at different circadian times each day, do not lead to such enhancement. These findings suggest that the ability of light to reset the clock can be modified through a novel, and previously unrecognized, conditioning-like associative process in which circadian time serves as the conditioned stimulus and light as the unconditioned stimulus. The idea that circadian time can serve as a conditioned stimulus to modulate the effectiveness of light provides a new perspective on the lasting impact that light schedules have on the circadian clock and, thus, may have implications for existing models of photic entrainment (Pittendrigh and Daan, 1976; Moore-Ede et al., 1982).