Long-lasting changes in morphine-induced locomotor sensitization and tolerance in Long-Evans mother rats as a result of periodic postpartum separation from the litter: a novel model of increased vulnerability to drug abuse?

Daily postpartum separations from the litter produce enduring changes in anxiety and sensitivity to the antinociceptive effects of morphine in Long-Evans dams. We tested whether postpartum experience alters sensitivity to the effects of morphine on locomotor activity. Dams were tested 4-6 weeks after their pups were weaned, and had one of the following backgrounds: daily separation from the litter on postpartum days 2-14 for either 3 h (prolonged separation-LS) or 15 min (brief separation-BS), or no separation (nonhandled control-NH). After 2 consecutive days (B1-2) of baseline activity measurements, subjects were tested daily after s.c. injections of either morphine (10 mg/kg) or saline for 7 days and again on day 10. Beginning 5 days later, saline and 1.0-10 mg/kg of morphine were tested in all dams. On B1, LS and BS dams habituated slower than NH controls, yielding higher horizontal counts. LS dams failed to habituate across baseline days and were more active than other dams on B2. Sensitization, a progressive increase in horizontal activity, was more rapid and robust in LS and BS dams compared to NH animals. LS was the only group that developed tolerance to morphine-induced decreases in vertical activity. In LS dams with the history of morphine treatment, injection of saline resulted in higher horizontal activity and center time compared to saline-treated counterparts, indicative of conditioning. Among animals with a history of saline treatment, LS dams were more sensitive to morphine challenges than BS and NH dams. As a result of the robust and long-lasting increases in the ability of morphine to induce behavioral sensitization in litter-separated dams, periodic postpartum separation may represent a new animal model of increased vulnerability to substance abuse.     

Early neonatal experience of Long-Evans rats results in long-lasting changes in morphine tolerance and dependence

RATIONALE: Daily, 3-h separations from the dam on postnatal days 2-14 produce long-lasting changes in behavioral and neuroendocrine responses to stressors and sensitivity to acute morphine in Long-Evans rats. OBJECTIVE: We tested whether offspring that were separated from their dam for 3 h daily (MS) on postnatal days 2-14 exhibit altered sensitivity to chronic morphine, compared to animals that experienced only brief (15 min) separations (H) from the dam or that were left undisturbed (NH) during the same period. METHODS: Subjects received 1 week SC infusion of either morphine, or saline via osmotic pumps. Twenty-hours after pump removal, the global opioid withdrawal scores were recorded. Four hours later, animals were tested for antinociception (tail-flick and hot-plate tests) during cumulative morphine administration. RESULTS: MS males and MS females undergoing withdrawal from chronic morphine had higher global withdrawal scores compared to NH controls. MS males (but not MS females) were less sensitive to the antinociceptive effects of morphine compared to H and NH controls, primarily in the hot-plate test, regardless of whether they had received a saline or a morphine infusion. MS males consistently exhibited significant morphine tolerance, whereas control males failed to exhibit tolerance either in the hot-plate test (NH group) or in both antinociception assays (H group). In contrast, tolerance was exhibited by all females in both tests for antinociception. CONCLUSIONS: These data indicate that repeated neonatal maternal separation alters sensitivity to chronic morphine administration in a sex-dependent manner.     

Periodic postpartum separation from the offspring results in long-lasting changes in anxiety-related behaviors and sensitivity to morphine in Long-Evans mother rats

RATIONALE: According to recent studies daily, 3-h separations from the dam on postnatal days 2-14 produce long-lasting changes in responses to stressors and sensitivity to morphine in Long-Evans offspring. It has not been investigated whether daily dam-litter separations can have long-lasting effects also on the mother beyond weaning of the pups. OBJECTIVE: We tested whether dams that were separated from their litter for 3 h daily (LS) on postpartum days 2-14, like their offspring, exhibit altered anxiety-like behaviors and sensitivity to morphine, compared to dams that experienced only brief (15-min) separations (BS) from the litter or that were left undisturbed (NH) during the same period. METHODS: Four to six weeks after weaning, subjects were tested on the elevated plus-maze, in a novel locomotor activity arena, or were exposed to loud auditory stimuli. Sensitivity to morphine was assessed using hot-plate and tail-flick tests. RESULTS: LS dams spent significantly more time in the open arms of the plus-maze and in the center of the locomotor activity arena, and were more likely to emit ultrasonic vocalizations in response to auditory startle stimuli compared to NH dams. Furthermore, LS dams were less sensitive to morphine, primarily in the tail-flick test. Dams that experienced brief litter separations (BS), like LS dams, exhibited altered performance on the plus-maze and elevated ultrasonic vocalizations. However, BS dams were similar to NH controls in locomotor activity and sensitivity to morphine. CONCLUSIONS: Multiple postpartum separations from the offspring alter the behavior of Long-Evans dams in novel/aversive environments and affect their sensitivity to the antinociceptive effects of morphine.     

Sensitization to morphine withdrawal in guinea-pigs

The aim of this study was to determine whether sensitization occurred to morphine withdrawal. Guinea-pigs were treated twice daily with increasing doses of morphine (10-100 mg/kg s.c.) for 3 days followed by injection of morphine 100 mg/kg on the fourth day. Sixty min after the last morphine injection, animals were withdrawn from morphine with naltrexone, 15 mg/kg s.c., and locomotor activity and all other behaviours scored over 90 min. Animals were then rested for 3 days. This procedure was repeated twice over the next 2 weeks. Control animals were treated with saline for the first two treatment cycles. Guinea-pigs subjected to three cycles of morphine withdrawal showed a significant increase in the total number of withdrawal behaviour counts over the 90-min observation period following the third cycle of withdrawal compared with the first and second withdrawal cycles. However, locomotor activity, a major sign of morphine withdrawal in guinea-pigs, was not significantly increased. Fos-LI was markedly increased in the repeatedly withdrawn animals in several brain regions, including amygdala, dorsal striatum, thalamus, ventral tegmental area, and ventrolateral periaqueductal gray area. It is concluded that sensitization to morphine withdrawal occurs in guinea-pigs.     

Sensitization to daily morphine injections in rats with unilateral lesions of the substantia nigra.

Morphine indirectly enhances dopaminergic activity in the nigrostriatal system, and repeated administration of morphine progressively increases the locomotor activity of rats. We used the rotational behavior model to determine if daily morphine produces an increase in turning and produces cross-sensitization to d-amphetamine and cocaine. Rats with unilateral nigrostriatal lesions received daily injections of saline or morphine (10 mg/kg). Repeated morphine administration produced a progressive increase in turning over 13 days. Next, a morphine dose-response curve (1.0-30 mg/kg) was determined. Both the saline and morphine-treated groups showed dose-dependent increases in turning, but, the peak effect in the morphine group was higher than that in the saline group, indicating sensitization to morphine. The morphine-treated group did not show cross-sensitization to either d-amphetamine (0.1-3 mg/kg) or cocaine (1.0-30 mg/kg); in fact, it showed less cocaine-induced turning than the saline group. Seventy-one days after saline or morphine injections began, the morphine group was still significantly more sensitive to turning induced by 10 mg/kg morphine than the saline group was (200 vs. 750). Therefore, repeated daily injections of morphine produce a progressive sensitization to turning induced by morphine in the absence of cross-sensitization to turning induced by psychomotor stimulants.     

Nicotine sensitization in adult male and female rats quinpirole-primed as neonates

RATIONALE: Increases in dopamine D2-like receptor function are common in several psychological disorders that demonstrate a four to five fold increase in nicotine abuse compared to the general population. OBJECTIVE: The objective of this study was to analyze the interaction of sex differences and sensitization to nicotine in rats D2 receptor primed as neonates. MATERIALS AND METHODS: A total of 32 male and 32 female Sprague-Dawley rats derived from eight litters were ontogenetically treated with quinpirole (1 mg/kg) or saline from postnatal days (P) 1-21 and raised to adulthood. At P60, all animals were given an acute injection of quinpirole HCl (100 microg/kg) and yawns were counted for 1 h. Yawning has been shown to be a behavioral event mediated by D2-like receptors. Beginning on P61-65, animals were habituated to a locomotor arena and subsequently administered either nicotine (0.5 mg/kg free base) or saline (intraperitoneal) every second day for 3 weeks. Approximately 15 min after each injection, animals were placed into the arena and horizontal activity and vertical rears were recorded. RESULTS: A robust increase of yawning was observed at P60 in D2 primed as compared to saline controls. Priming of D2-like receptors increased the locomotor response to nicotine in horizontal activity in both males and females, but females demonstrated a more robust hypoactive locomotor response to initial nicotine treatment when compared to saline-treated females. Nicotine also produced a significant decrease of vertical rearing in both males and females. CONCLUSIONS: It appears that D2 receptor priming enhances sensitization to nicotine in adult rats, and females may be more behaviorally sensitive to nicotine than males.     

Repeated alcohol: behavioral sensitization and alcohol-heightened aggression in mice

RATIONALE: Repeated administration of psychomotor stimulants or opiates can induce behavioral sensitization, typically detected as progressive and long-lasting increases in the motor-activating effects of these drugs. This phenomenon may be relevant to seizure susceptibility, drug self-administration, and sexual behavior. Repeated administration of alcohol can also induce behavioral sensitization and may have consequences on how alcohol affects aggressive behavior. OBJECTIVES: To (1) determine the enduring nature of locomotor sensitization to alcohol; (2) examine subsequent changes to morphine and amphetamine effects on locomotor behavior; and (3) test whether behavioral sensitization to alcohol or morphine is relevant to alcohol-heightened aggression. METHODS AND RESULTS: In the first experiment, male CFW mice were given ten injections of alcohol (2.4 g/kg/day), morphine (30.0 mg/kg/day), or saline. Video tracking confirmed locomotor sensitization--an approximate 200% increase in the motor-stimulating effects of these drugs. Challenges with 2.0 g/kg alcohol revealed that locomotor sensitization to alcohol persisted for at least 2 months. Alcohol-sensitized mice showed evidence of cross-tolerance to the sedative effects of morphine (5 mg/kg) but showed no evidence of cross-sensitization to the stimulant effects of 30.0 mg/kg morphine or 1.0 mg/kg amphetamine. In the second experiment, under conditions resulting in species-typical aggressive behavior against a male intruder, there were no differences in the aggressive behavior relative to saline control mice following alcohol or morphine sensitization. However, in the mice sensitized to alcohol, but not to morphine, there was a vertical shift in the dose-effect curve for moderate doses of alcohol (0.6-1.7 g/kg, p.o.). In addition, twice as many alcohol-sensitized mice consistently showed alcohol-heightened aggression when compared with the saline control mice (74% vs 37%, respectively). CONCLUSIONS: Repeated administration of alcohol can sensitize locomotor stimulation and may also render mice more vulnerable to increased aggression after alcohol. Moreover, the results suggest that at least some of the neuroadaptations caused by repeated administration of alcohol are relevant to alcohol-heightened aggression.     

5-羟色胺酸对吗啡诱导小鼠行为敏化的影响

研究中枢5-羟色胺能系统对吗啡诱导小鼠行为敏化的介导作用。选用雄性昆明小鼠，每天2次注射生理盐水或吗啡10mg／kg，连续3天。停药5天后，于第9天，进行吗啡激发试验，测定小鼠的自主活动60min，观察行为敏化效应。此外，选用5-羟色胺前体物质5-羟色氨酸作为工具药，分别在吗啡处理阶段（形成期），吗啡停药阶段（转换期）以及吗啡激发试验前腹腔注射20-80mg／kg5-羟色氨酸。激发试验给予吗啡后，立即测定小鼠的自主活动。实验第9天激发试验数据表明，每天2次反复给予吗啡的小鼠，其自主活动明显高于生理盐水对照组，说明小鼠对吗啡产生了行为敏化效应。5-羟色氨酸可以选择性抑制吗啡对小鼠行为敏化的诱导作用，其抑制作用呈剂量依赖性。然而，5-羟色氨酸对小鼠吗啡行为敏化的转换和表达无明显药理作用。因此，中枢5-羟色胺能系统的功能水平上调可能对吗啡诱导小鼠行为敏化效应具有一定的抑制作用。     

Predisposing effects of neonatal visceral pain on abuse-related effects of morphine in adult male Sprague Dawley rats

Rationale

Adverse early life experiences are risk factors for drug abuse and addiction. Changes in brain opioid systems have been demonstrated in response to neonatal visceral pain (NVP), but the impact of these changes on abuse-related effects of morphine are unknown. The NVP procedure used models chronic visceral hyperalgesia persisting across development.

Objectives

Intravenous self-administration, drug discrimination, and locomotor activity were used to compare the abuse-related effects of morphine in NVP and control rats.

Methods

Rats self-administered 0.3 mg/kg/inj morphine under an FR1 schedule, and dose–effect functions for morphine were then established. Separate rats were trained to discriminate 3.2 mg/kg morphine from saline under an FR20 schedule, and morphine dose–effect functions were then determined in the absence and presence of 0.1 mg/kg naltrexone. A third group of rats was tested with a range of morphine doses in an assay of locomotor activity, then injected daily with 10 mg/kg morphine to assess locomotor sensitization.

Results

NVP rats self-administered more morphine than controls at reinforcing doses. Discriminative stimulus effects of morphine were similar between groups, but in the presence of naltrexone, the ED₅₀ for morphine was more than 12× greater in control rats than in NVP animals. Morphine did not stimulate locomotor activity at any tested dose in NVP rats, although significant effects were observed in controls. Finally, significant locomotor sensitization was observed only in NVP rats.

Conclusions

NVP-induced changes in brain opioid systems have persistent pharmacological consequences into adulthood and may increase sensitivity to abuse-related effects of opioids across development.     

Stress-induced cross-sensitization to cocaine: effect of adrenalectomy and corticosterone after short- and long-term withdrawal

 We have recently shown that adrenalectomy (ADX) in rats blocks the appearance of cocaine-induced sensitization when this behavioral response is tested at early withdrawal times (1–2 days), but not after later withdrawal from cocaine (12 days). To determine if a similar phenomenon occurred with stress-induced sensitization, male Sprague-Dawley rats were given a sham ADX, ADX surgery, or ADX plus SC implanted corticosterone (CORT) pellets (CORT 12.5% pellets or CORT 50% pellets). A fifth group was given ADX surgery, but CORT 50% pellets were implanted after repeated stress treatment. One week after surgery, each group was divided into two additional groups, naive and stress. Naive animals remained unhandled, while stress rats were given a variety of daily stressors administered twice per day for 6 consecutive days. One day after the last stress, rats were given a saline injection followed by a cocaine injection (15 mg/kg, IP) the next day, and locomotor activity was monitored (early withdrawal). Two weeks after the last stress, the locomotor responses to an additional saline and cocaine injection were monitored (late withdrawal). At early withdrawal, no significant sensitization occurred for horizontal activity, but cross-sensitization was demonstrated for vertical activity. At late withdrawal, sham controls showed a stress-induced elevation in horizontal activity, with only a trend toward increased vertical activity. Animals given ADX surgery or ADX and CORT 12.5% pellets did not demonstrate sensitization to repeated stress, while CORT 50% pellets in ADX rats restored the sensitized horizontal response to cocaine challenge at late withdrawal. In contrast, stress-pretreated rats which were given CORT 50% pellets during the 2-week withdrawal period after the stress showed a marked decrease in horizontal activity in response to cocaine challenge at late withdrawal. The results provide evidence for a necessary role for adrenal hormones in long term, but not short-term, stress-induced cross-sensitization. Together with our previous study on the role of CORT in cocaine-induced sensitization, the results indicate that CORT is not the common factor mediating the long-term sensitization to cocaine and stress. Received: 10 April 1997 / Final version: 19 August 1997     

Role of nitric oxide in the acquisition and expression of apomorphine- or morphine-induced locomotor sensitization

In the present study, the effects of L-arginine, a nitric oxide (NO) precursor, and N(G)-nitro-L-arginine methyl ester (L-NAME), a nitric oxide synthase (NOS) inhibitor, on apomorphine- or morphine-induced locomotor sensitization in male albino mice were investigated. Our data showed that subcutaneous (s.c.) injection of apomorphine (2-10 mg/kg) or morphine sulphate (5-50 mg/kg) significantly increased locomotor behaviour in a dose-dependent manner. Intraperitoneal (i.p.) administration of L-arginine (100 mg/kg) increased locomotor activity, whereas L-NAME (20 mg/kg) decreased it. L-Arginine and L-NAME increased and decreased apomorphine- or morphine-induced locomotions, respectively. The locomotor behavioural response was enhanced in mice pretreated with apomorphine (2 mg/kg, daily x3 days) or morphine (10 mg/kg, daily x3 days) alone, indicating that sensitization had developed. Administration of L-arginine 30 min before each of three daily doses of apomorphine or morphine increased the development of sensitization, while administration of L-NAME 30 min before each of three daily doses of apomorphine or morphine decreased the acquisition of sensitization induced by apomorphine or morphine. Administration of L-arginine significantly increased and L-NAME significantly and dose-dependently decreased the expression of both apomorphine- and morphine-induced sensitization. The results indicate that NO may be involved in the acquisition and expression of apomorphine- or morphine-induced sensitization.     

诺米芬新对慢性吗啡处理后小鸡自发活动量的影响

目的 :探求吗啡对刚出生的小鸡自发活动量的影响以及行为敏感化的多巴胺神经机制。方法 :连续 7d每天给予小鸡ip不同剂量的吗啡 (5、10、2 0mg·kg- 1 ) ,观察其行为敏感化效应 ,撤药 3d后观察多巴胺转运体阻断剂诺米芬新 (0 5、1mg·kg- 1 )的干预效果。结果 :反复给药后 ,5mg·kg- 1 吗啡显著增加小鸡的自发活动量 (P <0 0 5 ,P <0 0 1) ,而且其自发活动量随给药次数的增多而不断增高 ;2 0mg·kg- 1 吗啡则明显降低小鸡的自发活动量 (P <0 0 5 )。诺米芬新呈剂量依赖性增加 5mg·kg- 1 组小鸡的自发性活动量 (P <0 0 5 )。结论 :反复小剂量吗啡处理能够导致鸟类行为敏感化效应 ,多巴胺可能在其中起重要作用。     

Individual differences in locomotor reactivity to a novel environment and sensitivity to opioid drugs in the rat. I. Expression of morphine-induced locomotor sensitization

Rationale Vulnerability for development of substance abuse is often associated with a sensation-seeking or thrill-seeking phenotype. In an animal model, rats more reactive in a novel environment (high responders, HR) are more sensitive to stimulant/reinforcing effects of amphetamine and are more likely to self-administer this drug, than are less reactive animals (low responders, LR).Objective We tested whether HR and LR also differ in sensitivity to effects of morphine on locomotor activity.Methods Male Sprague–Dawley rats were categorized as HR or LR based on motor responses to novelty (sorting day; S). After 1 day (B) of baseline activity measurements, subjects were tested daily after SC injections of either morphine (10 mg/kg) or saline for 7 days and again on day 10. Beginning 5 days later, four daily injections of saline and 1.0–10 mg/kg morphine were tested in all animals.Results LR and HR were similar in the onset and overall magnitude of sensitization and tolerance following daily morphine administration. HR were more sensitive than LR to locomotor stimulant effects of acute morphine. However, LR had more robust and persistent context-specific increases in activity due to conditioning than did HR, and expression of sensitization was apparent in all behavioral variables.Conclusions These results provide further evidence that phenotypic differences between HR and LR may, in part, be associated with differences in the endogenous opioid systems. Differences in sensitivity to acute versus repeated morphine suggest that at least in relation to opioid drugs, these phenotypes may reflect different aspects of drug vulnerability rather than simply the presence or absence of it.     

Differential effects of adult and perinatal lead exposure on morphine-induced locomotor activity in rats

The effects of adult and perinatal lead treatment on the development of locomotor sensitization produced with repeated morphine administration was investigated. In Experiment 1, adult male rats received a diet containing 250 ppm lead acetate or a control diet for 43 days. Animals then received 10 mg/kg morphine sulfate or water vehicle (ip) and locomotor activity was monitored for 14 consecutive days. While both control and lead-exposed animals demonstrated a locomotor sensitization to morphine, the magnitude of the increased locomotor response was reduced in lead-treated animals. Subsequent analysis of blood-lead in the adult lead-exposed animals indicated residue levels ranging between 20 and 30 microg/dl. In Experiment 2, adult female rats were treated daily with 0, 8, or 16 mg lead via gavage for 30 days before breeding with non-exposed males. Lead exposure in dams continued through gestation and until pups were weaned at postnatal day (PND) 21. At PND 60, male offspring received morphine or vehicle challenges identical to those described in Experiment 1. Animals perinatally exposed to dams receiving 16 mg lead daily demonstrated an enhanced behavioral response to morphine relative to control animals. Analysis of offspring blood indicated lead levels below detectable limits (<1 microg/dl) for all animals. The results suggest exposure to lead at environmentally relevant levels produces long-lasting changes in drug-induced behavior, and the developmental period in which lead exposure occurs is a significant contributor to the manifestation of these effects.     

Motor and locomotor responses to systemic amphetamine in three lines of selectively bred Long-Evans rats

The goal of the study was to measure spontaneous and amphetamine-induced motor and locomotor activity in three selectively bred lines of male Long-Evans rats. The number of 50 kHz ultrasonic vocalizations (USVs) emitted in response to heterospecific play with human hand (“tickling”) had been measured daily in these lines of rats from 21 to 24 days of age, as a criterion for dividing them into high vocalizing line, low vocalizing line, and random breeding and testing lines. This study sought to determine whether selection of rats based on their affective social-vocalizations also had effects on their locomotor performance and sensitivity to amphetamine. In this study adult animals from the 25th generation (with no further selection) were tested. The results showed that rats, which were selectively bred to emit high numbers of 50 kHz vocalizations, also exhibited elevated levels of spontaneous locomotor activity. After systemic injection of d-amphetamine (1.5 mg/kg), the level of motor and locomotor activity significantly increased further in all the lines as compared to saline controls. The horizontal and vertical activities and the distance covered by rats of the high line, both at the baseline and after amphetamine challenge, were significantly higher than those of the low line animals in absolute scores but not as proportion of relevant saline controls. Since appetitive 50 kHz USVs and locomotor activity are both dependent on the activity of the dopamine system, it is concluded that selection of rats based on the expression of their positive emotional state is also selecting other features than vocalization, namely locomotor behavior. This may help explain why these animals are relatively resistant to depressogenic manipulations.     

Gestational exposure to nicotine and monoamine oxidase inhibitors influences cocaine-induced locomotion in adolescent rats

Rationale Many pregnant women continue to smoke, despite a strong association between maternal smoking and neurobehavioral deficits in the offspring. Although gestational nicotine (GN) treatment in rodents is used as the primary animal model of maternal smoking, tobacco smoke contains more than 4,000 constituents, including monoamine oxidase inhibitors (MAOIs). Objectives The aim of this study was to determine whether there are interactions between the effects of gestational exposure to nicotine and MAOIs on cocaine-induced locomotor sensitization in adolescent rats. Materials and methods Pregnant rats were implanted on day 4 of gestation with osmotic minipumps delivering saline, nicotine (3 mg/kg per day), the MAOIs clorgyline and deprenyl (1 and 0.25 mg/kg per day, respectively), or nicotine/clorgyline/deprenyl (GMN). Adolescent female offspring were tested for cocaine-induced locomotor sensitization. Animals were treated with saline or cocaine (5 or 15 mg/kg, intraperitoneally) daily from postnatal (P) days 32–36 and challenged with cocaine (15 mg/kg) on P51 (day 20). Results Group differences were observed in chronic but not acute effects of cocaine. Whereas gestational MAOI treatment, with or without nicotine, increased ambulatory response to cocaine on day 5, the opposite was found for vertical activity. Different adaptive responses were observed on cocaine challenge day. GNM animals exhibited enhanced locomotor activity in the cocaine-associated environment before cocaine challenge on day 20. In contrast, only GN animals exhibited significant locomotor sensitization to the cocaine challenge. Conclusions Gestational nicotine and MAOIs both influence brain development. Such interactions may sensitize adolescents to drug abuse and should be considered in animal models of maternal smoking.     

Naloxone enhances the expression of morphine-induced conditioned place preference

The present study examined the effects of naloxone on acquisition and expression of morphine-induced conditioned place preference (CPP). Three groups of rats were given morphine (5 mg/kg, SC), both morphine and naloxone (1 mg/kg, SC), or saline paired with a distinctive environment. On alternating days they were given saline paired with another distinctive environment. After four exposures to each environment, the animals were given a preference test in which they had access to both environments simultaneously while under the influence of either naloxone (1 mg/kg, SC) or saline. Morphine-conditioned animals showed CPP evident as an increased amount of time spent in the drug-associated environment relative to saline controls. Rats given both naloxone and morphine during conditioning, and saline on the test day, did not show CPP. In contrast, morphine-conditioned animals given naloxone on the test day showed stronger CPP than morphine-conditioned animals given saline. These findings indicate that naloxone blocks the acquisition, but enhances the expression of morphine-induced CPP. In a separate experiment, the effects of naloxone on locomotor activity were determined during the CPP test. The results indicated that naloxone decreased locomotor activity. In morphine-conditioned animals only, naloxone also produced an increase in the amount of time per entry in the drug-associated environment. The results suggest that naloxone may enhance morphine-induced CPP by decreasing locomotor activity that may otherwise compete with expression of CPP.     

Time-dependent effects of repeated cocaine administration on dopamine transmission in the medial prefrontal cortex

The medial prefrontal cortex (mPFC) has been implicated in the development of behavioral sensitization, which is the progressive enhancement of locomotor activity that occurs with repeated administration of psychostimulants. Previous data suggest that mPFC dopamine (DA) transmission may be attenuated in cocaine-sensitized animals, but the onset and duration of this effect have not been investigated. After recovery from stereotaxic surgeries, animals were given four daily injections of saline (1 ml/kg, i.p.) or cocaine (15 mg/kg, i.p.) and were subsequently challenged with saline or cocaine after 1, 7 or 30 d of withdrawal, on which days in vivo microdialysis of the mPFC was conducted simultaneously with monitoring of locomotor activity. Compared to acutely administered controls, the results in cocaine-pretreated animals were as follows: 1d of withdrawal was associated with a significant attenuation in cocaine-induced locomotion and mPFC DA overflow; after 7d, behavioral sensitization was accompanied by a significant attenuation in cocaine-induced elevations in mPFC DA levels; 30 d of withdrawal led to the expression of sensitized behaviors paralleled by an augmentation in cocaine-induced mPFC DA. These data suggest that repeated cocaine produces temporally distinct behavioral effects associated with alterations in mPFC DA responsiveness to cocaine that may be involved in the development of behavioral sensitization.     

Amphetamine locomotor sensitization and conditioned place preference in adolescent male and female rats neonatally treated with quinpirole

Neonatal quinpirole treatment has been shown to produce an increase in dopamine D2-like receptor sensitivity that persists throughout the subject's lifetime. The objective was to analyze the effects of neonatal quinpirole treatment on effects of amphetamine in adolescent rats using locomotor sensitization and conditioned place preference procedures. Sprague-Dawley rats were treated with quinpirole (1 mg/kg) or saline from postnatal days (P)1 to P11 and raised to adolescence. For locomotor sensitization, subjects were given amphetamine (1 mg/kg) or saline every second day from P35 to P47 and were placed into a locomotor arena. In female rats, neonatal quinpirole treatment enhanced amphetamine locomotor sensitization compared with quinpirole-free controls sensitized to amphetamine. Male rats demonstrated sensitization to amphetamine, although this was muted compared with female rats, and were unaffected by neonatal quinpirole. For conditioned place preference, subjects were conditioned for 8 consecutive days (P32-39) with amphetamine (1 mg/kg) or saline and a drug-free preference test was conducted at P40. Rats treated with neonatal quinpirole enhanced time spent in the amphetamine-paired context compared with quinpirole-free controls conditioned with amphetamine, but only female controls conditioned with amphetamine spent more time in the drug-paired context compared with saline-treated controls. Increased D?-like receptor sensitivity appears to have enhanced the behavioral effects of amphetamine, but these effects were more prevalent in adolescent female rats compared with male rats.     

Amphetamine treatment during the preweanling period produces enduring changes in striatal protein kinase A activity

The purpose of this study was to determine whether chronic exposure to amphetamine during the preweanling period causes enduring changes in behavioral and neuronal functioning. In two experiments rats were injected with saline or amphetamine (2.5 or 5.0 mg/kg) on postnatal days (PD) 11-15. Rats then received a challenge injection of saline or 2.5 mg/kg amphetamine on PD 23 or PD 90 and locomotor activity was measured. After behavioral assessment, rats were killed, and their dorsal striata and nucleus accumbens were dissected and later assayed for protein kinase A (PKA) activity. Interestingly, amphetamine treatment during the preweanling period produced an enduring decline in dorsal striatal and accumbal PKA activity that was still apparent in adulthood. These reductions in PKA activity were not related to the occurrence of locomotor sensitization, because rats did not exhibit a sensitized locomotor response when challenged with amphetamine at PD 23 or PD 90.