Effect of serotonin (5-HT)1B receptor ligands on cocaine sensitization in rats

Recent studies have shown that antagonists of serotonin (5-HT)1B receptors attenuate cocaine-induced locomotor hyperactivity, whereas agonists enhance reinforcing and discriminative stimulus effects of the psychostimulant. The present study was designed to determine how 5-HT1B receptor ligands affected the development or the expression phase of sensitization to the cocaine-induced locomotor response in rats. In Experiment 1, rats were treated repeatedly (for 5 days) with cocaine (10 mg/kg) in combination with either saline, GR 127935 (5-HT1B antagonist), CP 94,253 (5-HT1B agonist) or GR 127935 + CP 94,253. On day 10, they received a challenge dose of cocaine (10 mg/kg). In Experiment 2, animals received either saline or cocaine (10 mg/kg) for 5 days, and were then challenged with cocaine (10 mg/kg) in combination with saline, GR 127935, CP 94,253 or GR 127935 + CP 94,253, on day 10. In Experiment 3, rats received either saline, cocaine or CP 94,253 for 5 days; on day 10 they received challenge doses of CP 94,253 or cocaine. In rats treated repeatedly with cocaine, the locomotor hyperactivity induced by a challenge dose of the psychostimulant was about twice as high as that observed after its first administration. The effect evoked by cocaine challenge was further increased in animals treated repeatedly with CP 94,253 + cocaine, but not with GR 127935 + CP 94,253 + cocaine. No difference was observed in the response to cocaine challenge in rats treated repeatedly with cocaine or GR 127935 + cocaine (Experiment 1). In animals treated repeatedly with the psychostimulant, the behavioral response to a challenge dose of cocaine was dose-dependently increased when that drug was combined with CP 94,253, but not with GR 127935 + CP 94,253. No difference was observed in the locomotor response of rats challenged with cocaine or GR 127935 + cocaine (Experiment 2). When rats were treated repeatedly with cocaine, a challenge dose of CP 94,253 produced an about threefold increase in the locomotor effect compared to the animals treated likewise with saline (Experiment 3). Our results indicate that 5-HT1B receptors are involved in neither the development nor the expression of sensitization to cocaine-induced locomotor hyperactivity. On the other hand, they also show that pharmacological activation of 5-HT1B receptors enhances both phases of this phenomenon, and that repeated administration of cocaine leads to an increased functional reactivity of these receptors.     

Transient behavioral sensitization to nicotine becomes long-lasting with monoamine oxidases inhibitors

Drugs of abuse, such as D-amphetamine or nicotine, are generally considered as acting through an increased release of dopamine in a subcortical structure, the nucleus accumbens, thus inducing locomotor hyperactivity in rats. Following repeated treatments, the same drugs induce a progressive increase in locomotor response called behavioral sensitization. This process has been suggested to play a role in the acquisition and maintenance of addictive behaviors. Here we show that whereas behavioral sensitization to D-amphetamine (0.5 and 0.75 mg/kg) stays constant following three consecutive periods of withdrawal (15, 30 and 30 days), the same experimental conditions completely abolish behavioral sensitization to 0.3 and 0.5 mg/kg nicotine. Indeed, following these periods of withdrawal, locomotor responses to nicotine are identical to those obtained at the first nicotine injection or after repeated saline injections. However, when a monoamine oxidases inhibitor (MAOI), tranylcypromine (3 mg/kg) or pargyline (30 mg/kg), is co-injected with nicotine, behavioral sensitization is maintained despite submission of the animals to the same withdrawal experimental design. Since tobacco smoke is known to contain many compounds including MAOIs, our data suggest that addictive properties of tobacco may not be limited to nicotine. We propose that MAOIs potentiate effects of nicotine on monoamines release.     

Context-dependent cocaine sensitization: differential effect of haloperidol on development versus expression

Repeated, intermittent administration of psychomotor stimulants has been shown to produce increasing effects (behavioral sensitization) in many species of animals. In a novel two-day sensitization paradigm, rats that received a single high dose of cocaine (40 mg/kg) compared with saline on day 1 showed an increased locomotor response to a challenge dose (10 mg/kg) on day 2. This effect is conditioned or context-dependent; i.e., it is only observed if the rats received cocaine in an environment similar to the test environment. If the cocaine-induced hyperactivity on day 1 is prevented with pharmacological agents such as haloperidol and diazepam, sensitization on day 2 does not occur. Furthermore, although moderate (0.2 mg/kg) and high doses (0.5 mg/kg) of haloperidol (day 1) prevented the development of sensitization to cocaine, they were ineffective when given prior to the day 2 challenge dose in preventing the expression of sensitization. Thus, this type of cocaine sensitization appears to involve conditioning, show stimulus generalization, and offer a possible model for clinical neuroleptic nonresponsiveness once stimulant-induced pathological behavior has been induced.     

Monoamine oxidase inhibitors allow locomotor and rewarding responses to nicotine.

Although nicotine is generally considered to be the main compound responsible for the addictive properties of tobacco, experimental data indicate that nicotine does not exhibit all the characteristics of other abused substances, such as psychostimulants and opiates. For example, nicotine is only a weak locomotor enhancer in rats and generally fails to induce a locomotor response in mice. This observation contradicts the general consensus that all drugs of abuse release dopamine in the nucleus accumbens, a subcortical structure, and thus increase locomotor activity in rodents. Because tobacco smoke contains monoamine oxidase inhibitors (MAOIs) and decreases MAO activity in smokers, we have combined MAOIs with nicotine to determine whether it is possible to obtain a locomotor response to nicotine in C57Bl6 mice. Among 15 individual or combined MAOIs, including harmane, norharmane, moclobemide, selegiline, pargyline, clorgyline, tranylcypromine and phenelzine, only irreversible inhibitors of both MAO-A and -B (tranylcypromine, phenelzine, and clorgyline+selegiline) allowed a locomotor response to nicotine. The locomotor stimulant interaction of tranylcypromine and nicotine was absent in beta2-nicotinic acetylcholine receptor subunit knockout mice. Finally, it was found that, whereas na?ve rats did not readily self-administer nicotine (10 microg/kg/injection), a robust self-administration of nicotine occurred when animals were pretreated with tranylcypromine (3 mg/kg). Our data suggest that MAOIs contained in tobacco and tobacco smoke act in synergy with nicotine to enhance its rewarding effects.     

Mu-opioid receptors are not involved in acute cocaine-induced locomotor activity nor in development of cocaine-induced behavioral sensitization in mice.

Although mu-opioid receptors have been extensively investigated for their role in drug reinforcement, little is known about the contribution of these receptors to the acute and sensitized locomotor response to cocaine. In this study mu-opioid receptor involvement in acute cocaine-induced locomotor activity and in the development of cocaine-induced behavioral sensitization was evaluated using mu-opioid receptor knockout mice and chronic naltrexone (NTX) pretreatment as models. In addition, co-administration of the specific mu-opioid receptor antagonist CTOP with repeated saline or cocaine injections was used to establish the involvement of mu-opioid receptors in sensitization to the locomotor stimulant effects of cocaine. The acute locomotor response to cocaine (3, 10, 20, or 30 mg/kg i.p.) of mu-opioid receptor knockout or chronic NTX pretreated mice was not different from the cocaine response of their respective controls. With respect to cocaine-induced behavioral sensitization, induced by daily injections of 20 mg/kg cocaine for 11 subsequent days, mu-opioid receptor knockout mice developed behavioral sensitization to the locomotor stimulant effects of cocaine (challenge 10 mg/kg i.p.) comparable to wild-type littermates and the mu-opioid receptor antagonist CTOP did not affect cocaine-induced sensitization either. However, mice that were pretreated with NTX exhibited augmented cocaine-induced behavioral sensitization relative to placebo pretreated controls, which may be ascribed to increased delta-opioid receptor levels as has been described for chronic NTX pretreated mice. The present findings suggest that mu-opioid receptors are not required for the acute locomotor response to cocaine nor are they essential for the development of cocaine-induced behavioral sensitization.     

Chronic treatment with monoamine oxidase-B inhibitors decreases cocaine reward in mice

Rationale and objective

Whether monoamine oxidase inhibitors (MAOIs) can be used to suppress the reinforcing effect of cocaine remains unknown. This study was undertaken to examine effects of a long-term dosing regimen with selective MAOIs on cocaine and food reward.

Materials and methods

Since single dose of clorgyline (2 mg/kg), deprenyl (1 mg/kg), and pargyline (10 mg/kg) did not acutely affect mouse locomotor activity, these doses were chosen to treat the male C57BL/6j mice on a daily basis.

Results

Fourteen consecutive days of pretreatments with clorgyline, deprenyl, or pargyline (one injection per day) did not affect natural reward-supported operant behavior, since acquisition of the lever pressing responses for food pellets under an FR-1 protocol did not differ among these drug- and saline-treated mice. Likewise, 24 consecutive days of pretreatments with clorgyline did not alter acquisition of the cocaine (0.3 mg/kg per infusion)-supported operant responses under an FR-1 protocol. In contrast, 24 days of pretreatments with deprenyl and pargyline abolished the cocaine-supported operant responses under a similar protocol. Twenty-four days of clorgyline treatment enhanced serotonin contents in striatum, nucleus accumbens, and frontal cortex. Frontal cortical 3,4-dihydroxyphenylacetic acid and 5-hydroxyindoleacidic acid concentrations were decreased following 24 days of pretreatments with deprenyl and pargyline. These changes were not evident in mice pretreated with clorgyline.

Conclusions

We suggest that long-term treatments with MAO-B inhibitors may decrease cocaine-supported operant responses in cocaine-naïve mice by selectively decreasing frontal cortical metabolism of dopamine and serotonin.

     

Alterations in the level of OFQ/N-IR in rat brain regions by cocaine

We have previously shown that administration of orphanin FQ/nociceptin (OFQ/N), the endogenous ligand of the opioid receptor-like (ORL-1) receptor, into the lateral ventricles or VTA blocked cocaine sensitization. In the present study, we determined the effect of acute and chronic cocaine treatment on the level of endogenous OFQ/N in rat brain regions. Male Sprague Dawley rats were tested for motor activity in response to saline or cocaine (20 mg/kg) injection once daily for three consecutive days. To determine the effect of single or repeated cocaine administration on the level of OFQ/N, rats were sacrificed 1 h following saline or cocaine injection either on day 1 or 3, respectively. Additional groups of rats were treated similarly with saline or cocaine on days 1-3 and sacrificed or tested for locomotor sensitization on day 8. Consistent with previous studies, repeated cocaine administration induced locomotor sensitization to a challenge dose of cocaine (7.5 mg/kg) given on day 8. Measurements of tissue content of OFQ/N-IR using radioimmunoassay indicated that the rat hypothalamus and striatum, respectively, contained the highest and lowest levels of the peptide among the brain regions tested. Acute cocaine decreased the level of OFQ-IR in the rat midbrain and to a lesser extent in the striatum. On the other hand, the level of OFQ/N was higher in rats treated with cocaine on days 1-3 and sacrificed on day 8. These findings suggest that endogenous OFQ/N may be involved in the actions of cocaine and possibly in cocaine-induced motor stimulation and locomotor sensitization.     

Evidence of cross-tolerance between behavioural effects of nicotine and cocaine in mice

Rationale. Studies have reported that chronic exposure to nicotine does not alter the effects of cocaine on locomotor activity, and vice versa. However, the apparent lack of effect of one drug on the behavioural response to the other may be due to an exclusive focus on locomotor activity as the target behaviour. Objective. To test whether repeated pretreatment with nicotine causes tolerance or sensitization to cocaine's effects on diverse behaviours: locomotion, rearing, grooming, and immobility. Similarly, the effects of repeated cocaine treatment on the acute response to nicotine were also tested. Methods. Mice were pretreated with 14 injections of nicotine (0.3 mg/kg), cocaine (5 mg/kg) or saline, the injections being given once daily, except for three breaks of two days each. Two days after the final pretreatment injection, mice were given a challenge injection of saline, cocaine (3 or 5 mg/kg) or nicotine (0.3 or 1 mg/kg), and observed in a large test cage for 40 min using a time-sampling procedure. Results. Repeated administration of either drug produced some tolerance to subsequent challenge with the same dose of the drug. Prior nicotine exposure significantly attenuated cocaine-induced decreases in grooming and increases in rearing, but did not significantly affect other behaviours. In contrast, prior cocaine exposure failed to alter nicotine's effects on any behaviour. Conclusions. Cross-tolerance between nicotine and cocaine (but not vice-versa) can be demonstrated if several behaviours are observed; measures of locomotor activity are less sensitive to the effect. The asymmetrical pattern of cross-tolerance may be due to differential inhibition of dopamine uptake by the two drugs. Electronic Publication     

Monoamine oxidase inhibitor-induced blockade of locomotor sensitization to quinpirole: role of striatal dopamine uptake inhibition

Previous studies have shown that the monoamine oxidase inhibitor (MAOI) clorgyline, blocks locomotor sensitization to the D₂/D₃ dopamine agonist quinpirole and sensitizes self-directed mouthing behavior in rats by a mechanism independent of MAO inhibition. However, clorgyline is also an inhibitor of striatal dopamine uptake, and this mechanism could account for the effect of clorgyline on quinpirole sensitization. To investigate this possibility, the effects of clorgyline and pargyline were examined. Of these two MAOIs, only clorgyline inhibits dopamine uptake in the striatum. Rats received subcutaneous injections of clorgyline (1 mg/kg), pargyline (10 mg/kg) or vehicle 90 min prior to each injection of quinpirole (0.5 mg/kg, s.c., ×8, twice weekly) or saline. Clorgyline and pargyline blocked the development of quinpirole-induced locomotor sensitization and sensitized self-directed mouthing behaviors in quinpirole rats. Thus, it is unlikely that clorgyline blocks locomotor sensitization to quinpirole via an inhibition of striatal dopamine uptake. Both MAOIs increased dopamine metabolism in the striatum, showed opposite effects in the prefrontal cortex, and eliminated the correlation between prefrontal dopamine and striatal DOPAC content found in quinpirole sensitized rats. We suggest that clorgyline and pargyline may affect the behavioral and neurochemical response to quinpirole via a previously reported MAOI-displaceable quinpirole binding site, a site which we hypothesize serves as a ‘switch’ to select what motor output becomes sensitized to repeated injections of quinpirole.     

Prenatal and postnatal cocaine exposure enhances the induction and expression of locomotor sensitization to cocaine in rats

Prenatal and postnatal exposure to cocaine can affect the development and function of the central nervous system in offspring. It also produces changes in cocaine-induced dopamine release and increases cocaine self-administration and cocaine-induced conditioned place preference. Further, prenatal cocaine exposure involves greater risk for development of a substance use disorder in adolescents. Therefore, the objective of this study was to determine the effect of prenatal and postnatal cocaine exposure on locomotor sensitization in rats. A group of pregnant female Wistar rats were administered daily from day GD0 to GD21 with cocaine (cocaine pre-exposure group) and another group pregnant female rats were administered daily with saline (saline pre-exposure group). During lactation (PND0 to PND21) pregnant rats also received cocaine administration or saline, respectively. Of the litters resulting of the cocaine pre-exposed and saline pre-exposed pregnant female groups, only the male rats were used for the recording of the locomotor activity induced by different doses of cocaine (1, 5, 10, 20 and 40 mg/Kg/day) during the induction and expression of locomotor sensitization at different postnatal ages (30, 60, 90 and 120 days), representative of adolescence and adult ages. The study found that prenatal and postnatal cocaine exposure enhanced locomotor activity and locomotor sensitization, and such increase was dose- and age-dependent. This suggests that prenatal and postnatal cocaine exposure can result in increased vulnerability to cocaine abuse in young and adult humans.     

The monoamine oxidase inhibitor phenelzine enhances the discriminative stimulus effect of nicotine in rats

In addition to delivering nicotine, tobacco smoke also inhibits monoamine oxidase (MAO). Although MAO inhibitors (MAOIs) can increase nicotine self-administration in rodents, the effects of MAOIs on the discriminative stimulus effect of nicotine are not known. This study examined the effects of three MAOIs (phenelzine, clorgyline and pargyline) with varying selectivity for MAOA and MAOB in the nicotine drug discrimination procedure in rats. Adult male Sprague-Dawley rats were trained to discriminate nicotine (0.3 mg/kg, subcutaneously) from saline in a standard, two-lever food-reinforced operant task. Once the discrimination was acquired, the ability of each MAOI to substitute for or alter the discriminative stimulus effect of nicotine was determined. In substitution tests, nicotine (0.03-0.3 mg/kg) produced full, dose-dependent substitution. Although the selective MAOA inhibitor clorgyline (3-56 mg/kg) and the selective MAOB inhibitor pargyline (3-56 mg/kg) did not elicit any nicotine-appropriate responding, partial substitution was obtained with the nonselective MAO inhibitor phenelzine (1-17 mg/kg). Phenelzine (10 mg/kg) also enhanced the discriminative stimulus effect of a low dose of nicotine (0.056 mg/kg) and prolonged the time course effect of the nicotine-training dose. These findings indicate that concomitant inhibition of MAOA and MAOB can enhance the discriminative stimulus effect of nicotine in rats.     

Inhibition of MAO‐A Activity Enhances Behavioural Activity of Rats Assessed Using Water Maze and Open Arena Tasks

Abstract: To determine if the inhibition of MAO‐A and/or MAO‐B activities can influence cognitive processes in adult rats, we analysed whether chronic treatment with clorgyline, l‐deprenyl and pargyline could modify the performance of adult rats in a modified version of the water maze task. The effects of these treatments on locomotor activity and enzyme activities were also assessed. Rats were treated for 24 days with clorgyline (0.2 mg/kg), l‐deprenyl (0.25 mg/kg) and pargyline (1 or 10 mg/kg). The treatments were started two weeks before the water maze experiment and continued until the end of testing. The rats were trained to find a submerged platform (6 days:1 trial/day; 7 th day: probe trial). Over the next three days, locomotor activity was assessed in an open arena. Treatments with clorgyline (MAO‐A inhibitor), l‐deprenyl (MAO‐B inhibitor) and pargyline (non‐selective MAO inhibitor) did not improve the finding of the hidden platform, when compared to treatment with saline, but significantly increased the swimming speed of the rats. The different treatments, when compared to saline, failed to modify the distance covered and the number of groomings performed in the open arena. However, clorgyline and pargyline, 10 mg/kg, increased the number of faecal boli and clorgyline enhanced the number of rearings made when compared to saline, l‐deprenyl and pargyline, 10 mg/kg. These results indicate that near total inhibition of MAO‐A by clorgyline and pargyline as assessed by MAO activity measurement induces an increase in locomotor activity but that inhibition of MAO‐A or MAO‐B, either alone or combined, does not facilitate spatial learning in adult rats.     

Accentuated behavioral sensitization to nicotine in the neonatal ventral hippocampal lesion model of schizophrenia

The prevalence of smoking in schizophrenia patients far exceeds that in the general population. Increased vulnerability to nicotine and other drug addictions in schizophrenia may reflect the impact of developmental limbic abnormalities on cortical-striatal mediation of behavioral changes associated with drug use. Rats with neonatal ventral hippocampal lesions (NVHLs), a neurodevelopmental model of schizophrenia, have previously been shown to exhibit altered patterns of behavioral sensitization to both cocaine and ethanol. This study explored nicotine sensitization in NVHLs by testing locomotor activity of NVHL vs. SHAM-operated controls over 3 weeks in response to nicotine (0.5 mg/kg) or saline injections (s.c.) followed by a nicotine challenge delivered to all rats 2 weeks later. At the beginning of the initial injection series, post-injection locomotor activation was indistinguishable among all treatment groups. However, nicotine but not saline injections produced a progressive sensitization effect that was greater in NVHLs compared to SHAMs. In the challenge session, rats with previous nicotine history showed enhanced locomotor activation to nicotine when compared to drug na?ve rats, with NVHL-nicotine rats showing the greatest degree of activity overall. These results demonstrate that NVHLs exhibit altered short- and long-term sensitization profiles to nicotine, similar to altered long-term sensitization profiles produced by cocaine and ethanol. Collectively, these findings suggest the neurodevelopmental underpinnings of schizophrenia produce enhanced behavioral sensitization to addictive drugs as an involuntary and progressive neurobehavioral process, independent of the acute psychoactive properties uniquely attributed to nicotine, cocaine, or alcohol.     

A switch mechanism between locomotion and mouthing implicated in sensitization to quinpirole in rats

Rationale: Chronic treatment with the monoamine oxidase inhibitor (MAOI) clorgyline, blocks locomotor sensitization to the D2/D3 dopamine agonist quinpirole. It is unknown whether this blockade occurs via inhibition of the MAO enzyme or by another mechanism. Objectives: While clorgyline and moclobemide are equally effective MAOIs, only clorgyline has a high affinity for the MAOI-displaceable quinpirole binding site (MQB). This study compares the effects of both drugs on quinpirole sensitization. Methods: To examine development of sensitization, rats received clorgyline (1 mg/kg/day), moclobemide (5 mg/kg/day), or vehicle via osmotic mini-pumps and were injected with quinpirole (0.5 mg/kg, s.c.) or saline every 3 days; locomotor and mouthing activity was recorded for each of the eight injections. A similar protocol was used to examine the expression of sensitization in rats previously sensitized to quinpirole. Results: Clorgyline, but not moclobemide, blocked the development of locomotor sensitization to quinpirole. Clorgyline, but not moclobemide, blocked the sensitized locomotor response to quinpirole following the 25th day of treatment. Mouthing showed sensitization in quinpirole-treated rats co-treated with clorgyline, but not moclobemide; this sensitized mouthing was predominantly directed towards self. Clorgyline and moclobemide equally inhibited MAO-A and had equal effects on tissue concentrations of dopamine, 3,4- dihydroxyphenylacetic acid, and serotonin in the striatum. Conclusions: Clorgyline (1) inhibits the development and the maintenance of locomotor sensitization to quinpirole by a mechanism that does not involve MAO and (2) changes the sensitized response to quinpirole from locomotion to mouthing. We suggest that clorgyline affects the response to quinpirole via MQB and that this site acts as a switch that selects the motor pathway for sensitization to quinpirole. Received: 9 August 1999 / Accepted: 18 November 1999     

Non reciprocal cross-sensitization between cocaine and BTCP on locomotor activity in the rat

Measurement of locomotor sensitization was employed to characterize the effect of intermittent treatment with N-[1-(2-benzo[b]thiophenyl)cyclohexyl]piperidine (BTCP) and cocaine in the rat. Like cocaine, BTCP possesses high affinity for the dopamine transporter and inhibits dopamine reuptake. Although both drugs exhibit similar behavioral and neurochemical profiles with acute administration, there is tentative evidence to suggest that following chronic treatment BTCP does not induce neurochemical sensitization, and can attenuate cocaine-induced neurochemical sensitization in the striatum. Male Wistar rats were randomly divided into five groups after determining baseline locomotor activity. Three groups were treated with either saline (saline/saline), cocaine (20 mg/kg; cocaine/cocaine), or BTCP (10 mg/kg; BTCP/BTCP) for 10 days. The remaining two groups were treated with cocaine (20 mg/kg) or BTCP (10 mg/kg) for 3 days, followed by administration of BTCP (10 mg/kg; cocaine/BTCP) or cocaine (20 mg/kg; BTCP/cocaine) for 7 days. Locomotor sensitization was observed in all groups. However, although cross-sensitization on the day of substitution (day 4) was found in the BTCP/cocaine group, cross-sensitization was not observed in the cocaine/BTCP group. These results suggest that although the locomotor-activating effects of BTCP and cocaine are similar, the two drugs do not act identically, and different neural mechanisms may underlie BTCP and cocaineinduced sensitization.     

Effects of the H3-receptor inverse agonist thioperamide on the psychomotor effects induced by acutely and repeatedly given cocaine in C57BL/6J mice

Previous studies have shown that histamine H(3) blockers potentiate the psychomotor and rewarding effects of cocaine. The present study examined the influence of thioperamide, an inverse H(3) receptor agonist, on the development of psychomotor sensitization and stereotyped activity induced by acute or intermittent cocaine in C57BL/6J mice. In the first experiment, mice were injected i.p. with saline, 10 or 20 mg/kg thioperamide and saline or 8 mg/kg cocaine, 10 min apart, before being tested for their locomotor activity (providing data on the acute effects of thioperamide on cocaine-induced activity). Subsequently, mice were treated in the same manner every other day over six additional sessions. Sensitization was assessed by the responsiveness to a cocaine challenge (8 mg/kg, i.p.) given 2 and 14 days following the intermittent treatment. In experiments 2 and 3, we tested the effects of thioperamide (10 or 20 mg/kg, i.p.) on gnawing and sniffing induced or affected by relatively high doses of cocaine (24 or 32 mg/kg, s.c.), the drugs being given 10 min apart. In the first experiment, both doses of thioperamide amplified cocaine-induced psychomotor hyperactivity almost on all experimental sessions. However, the histamine inverse agonist did not affect the induction of a psychomotor sensitization. All cocaine-treated mice showed similar levels of sensitized activity 2 and 14 days after the intermittent treatments, whether they received thioperamide or not. The second and the third experiments showed that thioperamide did not affect gnawing and sniffing induced by cocaine. Taken together, these results indicate that H(3) receptors clearly contribute to the neurobiological mechanisms of the locomotor component of cocaine-induced psychomotor activation, but less likely to those underlying the development of cocaine behavioral sensitization or the expression of cocaine-induced oro-facial stereotypies.     

Cocaine-induced behavioral sensitization in the young rat

Rationale: Repeated psychostimulant treatment has been shown to sensitize the locomotor activity of young rats, but there is conflicting evidence suggesting that this sensitized response will persist across only a few drug abstinence days. Objective: The purpose of the present study was to determine whether: (a) young rats are capable of expressing a sensitized locomotor response after an extended drug abstinence period, and (b) the longevity of the sensitized response is critically affected by either the number of drug pretreatment days or environmental conditioning factors. Methods: Young rats were pretreated with saline or cocaine (15 mg/kg or 30 mg/kg, i.p.) for either five or ten consecutive days [i.e., on postnatal days (PD) 16–20 or PD 11–20]. After each daily injection, rats were placed in activity chambers, and locomotion was measured for 30 min. To assess environmental conditioning factors, some rats were injected with saline prior to being placed in the activity chambers and then injected with cocaine prior to being returned to the home cage. After one or seven abstinence days (i.e., on PD 22 or PD 28), rats received a challenge injection of saline or cocaine (15 mg/kg) in the activity chamber and locomotion was assessed. Results: Young rats exhibit cocaine-induced locomotor sensitization after either a short (1-day) or long (7-day) drug abstinence period. When a long abstinence period was used, locomotor sensitization was only apparent when cocaine pretreatment lasted for 10 days. Conditioning factors were also important for determining whether locomotor sensitization was expressed, because young rats pretreated with cocaine in the home cage did not show a sensitized locomotor response after seven abstinence days. Conclusions: Young rats are capable of showing cocaine-induced locomotor sensitization after an extended abstinence period. Both the number of drug pretreatment days and the environmental context in which cocaine was given (i.e., the activity chamber or home cage) influenced the longevity of cocaine-induced locomotor sensitization. Received: 30 August 1999 / Accepted: 21 December 1999     

Prenatal cocaine exposure attenuates cocaine-induced odor preference in infant rats.

In order to further examine whether prenatal cocaine exposure alters the later reward efficacy of cocaine, exposed offspring were tested for cocaine-induced odor preference early in life. Test offspring were derived from Sprague-Dawley dams that received daily SC injections of 40 mg/kg/3 cc cocaine hydrochloride (C40) from gestational day 8-20, nutritional control dams receiving daily SC saline injections (NC), and nontreated control dams (LC). At testing on postnatal day 8 (P8), both LC and NC offspring were observed to exhibit a preference for the odor that had been paired on P7 with 2.0, 5.0, or 10.0 mg/kg cocaine. In contrast, C40 offspring exhibited a significant odor preference only when the odor had been previously paired with 5.0 or 10.0 mg/kg cocaine. These results, combined with previous work from our laboratory showing that adult offspring exposed gestationally to cocaine did not exhibit a cocaine-induced conditioned place preference, provide evidence that offspring exposed prenatally to cocaine are less likely to develop a preference for stimuli associated with cocaine. Further studies are needed to determine whether these alterations in cocaine preference reflect a learning deficit, pharmacokinetics factors, or an attenuation in the rewarding properties of cocaine.     

Resistance of neuronal nitric oxide synthase-deficient mice to cocaine-induced locomotor sensitization

 In brain, nitric oxide (NO) is considered as a retrograde messenger involved in synaptic plasticity. The present study was undertaken to investigate whether mice lacking the neuronal nitric oxide synthase (nNOS) gene are protected from cocaine-induced behavioral sensitization. Mice were administered, IP, either saline or cocaine (15 mg/kg) for 5 days. Sensitization was determined as an increase in cocaine-induced locomotor activity on day 5 compared with day 1 and an amplified response of cocaine-experienced mice to a challenge cocaine injection given after a 10-day drug free period (e.g., on day 15). To investigate the development of a context-dependent locomotion (conditioning), the responses of cocaine- and saline-experienced mice to a saline injection were determined on day 17. Male homozygote nNOS(–/–) mice were sensitive to the acute effect of cocaine (15 mg/kg) on day 1; however, they developed neither a sensitized response to cocaine (on day 5 and 15) nor a conditioned locomotion. Female homozygote nNOS(–/–) mice neither were responsive to 15 mg/kg cocaine on day 1, 5 and 15, nor did they develop a conditioned locomotion. In contrast, the same cocaine regimen delivered to male and female heterozygote nNOS(+/–) mice, and wild type mice (B6 J/sv129, C57BL/6 and sv129) resulted in sensitization to cocaine-induced locomotor activity and context-dependent locomotion. Investigation of [³H]cocaine disposition in the striatum and frontal cortex of the mice revealed neither gender nor strain differences in the drug disposition. Also, no major difference in striatal dopaminergic markers between homozygote nNOS(–/–) and wild type mice was observed. The most significant distinction, however, was the finding that nNOS(–/–) mice are completely deficient in striatal nNOS binding sites. Taken together, our results suggest that the resistance of homozygote nNOS(–/–) mice to cocaine-induced behavioral sensitization is primarily due to the deletion of the nNOS gene. Considering the role of NO in synaptic plasticity, it is conceivable that reduced brain NOS activity blunts the processes that underlie the development of sensitization to cocaine. Received: 18 March 1998 / Final version: 9 May 1998     

Cocaine-induced behavioral sensitization in preweanling and adult rats: effects of a single drug–environment pairing

Rationale Adult rats typically exhibit more robust behavioral sensitization than do preweanling rats. A possible explanation for this age-dependent difference is that environmental context may have relatively less impact on the psychostimulant-induced behaviors of preweanling rats. Objective The purpose of this study was to assess the importance of environmental context for the development of cocaine-induced sensitization in preweanling and adult rats. Materials and methods On postnatal day (PD) 19 or PD 79, rats in the context-dependent condition were injected with 30 mg/kg cocaine immediately before being placed in a novel test chamber for 30 min. The same rats were then injected with saline 30 min after being returned to the home cage. Rats in the context-independent condition were injected with saline before being placed in the novel chamber and cocaine in the home age. Control rats were injected with saline at both time points. One day later, adult and preweanling rats were challenged with saline or 10 mg/kg cocaine (experiment 1), or preweanling rats were challenged with 5, 20, or 30 mg/kg cocaine (experiment 2). After being injected, rats were placed in the test chamber, and behavior was measured for 60 min. Results Adult rats showed context-dependent locomotor sensitization and conditioned activity, with females exhibiting more locomotor activity than males. Preweanling rats did not exhibit conditioned activity, but they showed robust context-dependent and context-independent sensitization when challenged with 10–30 mg/kg cocaine. Conclusions Context did not influence the expression of behavioral sensitization in preweanling rats, suggesting that deficits in associative or memory processes may be responsible for age-dependent differences in behavioral sensitization and conditioned activity.