Signalled versus unsignalled intravenous amphetamine: large differences in the acute psychomotor response and sensitization

Both the acute psychomotor response and the development of sensitization to amphetamine are attenuated if i.p. injections are given in the cage where animals live (HOME), relative to when injections are given in a novel (NOVEL), but otherwise physically identical cage. It was suggested that this effect of environment on sensitization may be due to the relative availability of cues predictive of drug administration in the two conditions. It was hypothesized, therefore, that removal of all environmental cues predictive of drug administration would attenuate the development of sensitization even further. This was accomplished by comparing the psychomotor activating effects (rotational behavior) of repeated unsignalled intravenous (i.v.) infusions of 1.0 mg/kg amphetamine given in a HOME environment with those of signalled i.v. infusions given in a NOVEL environment. It was found that signalled i.v. amphetamine administration (NOVEL) produced a large acute psychomotor response, and repeated administrations resulted in a significant increase in psychomotor response (i.e., sensitization). In contrast, the same treatment in the HOME condition produced only a very small acute response and no sensitization. Indeed, the magnitude of the psychomotor response to an amphetamine challenge varied approximately 23-fold as a function of past drug history and environmental condition. It is suggested that this paradigm provides a powerful new model to study how environmental factors modulate responsiveness to psychoactive drugs.

Fimbria-fornix lesions do not block sensitization to the psychomotor activating effects of amphetamine

The repeated, intermittent administration of amphetamine produces a long-lasting sensitization to its behavioral activating effects. Excitatory amino acid receptors in the striatum have been implicated in the development of amphetamine sensitization, and one source of excitatory amino acid input to the striatum is the hippocampus. The purpose of this experiment, therefore, was to determine if an intact hippocampal system is necessary for either the development or expression of sensitization to the psychomotor activating effects of amphetamine. Rats received either fimbria-fornix lesions or sham lesions and approximately 2 weeks later received 10 injections of 3.0 mg/kg d-amphetamine or saline (IP) every other day. Rotational behavior was quantified as an index of amphetamine's psychomotor stimulant effects. Animals with a fimbria-fornix lesion were hyperresponsive to an acute injection of amphetamine, but animals with a fimbria-fornix lesion and control animals did not differ in the development of sensitization (i.e., the rate of sensitization). Furthermore, both groups expressed comparable sensitization (relative to their respective saline-pretreated control groups) when given a challenge injection of amphetamine. These results suggest an intact hippocampal system is not necessary for the development or expression of amphetamine sensitization.

Sensitization of stress-induced feeding in rats repeatedly exposed to brief restraint: the role of corticosterone

Groups of male Wistar rats lived in cages capable of monitoring feeding and drinking continuously at 0.1-s intervals, 24 h per day. Intact animals were subjected to 20 min of restraint stress or to brief handling (Brief Pick-Up), daily or every third day, 6 h after the beginning of the 12-h light period. In both studies, food-intake increased in the first hour after restraint, peaking between 15 and 45 min. Smaller increases were seen following Brief Pick-Up. More interestingly, the amount of food eaten increased across test sessions, indicating sensitization of the response to stress. Drinking also increased following stress, occurring before feeding and diminishing after the first 15 min. In adrenalectomized animals implanted with slow-release pellets to replace basal diurnal levels of corticosterone (ADX animals), sensitization of the feeding response to restraint stress developed across test sessions, although in these animals, the acute increase in food-intake following restraint stress was attenuated. ADX animals subjected only to Brief Pick-Up showed no increases in food-intake. Daily injections of 3.0 mg/kg corticosterone given to such ADX animals were unable to mimic the effects of restraint on either food-intake or drinking, nor did they augment the effects of restraint in ADX animals. We conclude that sensitization to the effects of brief restraint stress on food-intake can occur independently of a stress-induced rise in plasma corticosterone.

Intra-VTA injections of the mu-opioid antagonist CTOP enhance locomotor activity

In this paper we report on the effects of microinjections of the mu-opioid antagonist CTOP (D-Pen-Cys-Tyr-D-Trp-Orn-Thr-Pen-Thr-NH2) into the ventral tegmental area (VTA) on activity and ingestive behavior in the rat. Intra-VTA CTOP (0.015, 0.15, and 1.5 nmol per side) dose-dependently increased activity, whereas it had no effect on feeding and drinking behavior. These results are consistent with previous reports that intra-VTA injections of CTOP enhance extracellular dopamine levels in the nucleus accumbens. Furthermore, we propose a model of VTA mu-opioid mechanisms that might account for these surprising effects of intra-VTA CTOP.

A computerized system for the continuous recording and analysis of feeding, drinking, diuresis, and locomotor activity

A system has been designed to study the intake of liquids and solid foods in rats that allows for the analysis of feeding and drinking episodes over time. In addition, it monitors locomotor activity and diuresis. This system is particularly useful for the study of the differential effects of drugs on various parameters of feeding and drinking. Because it allows for the monitoring of all behaviors for periods of 24 consecutive hours without disturbing the animals, it can be applied to the study of light/dark cycles of ingestive behavior. The apparatus consists of rat cages (equipped with photocells, bottles, electronic balances, and a funnel to collect urine), computer interfaces, an AT-compatible microcomputer for data collection, and a VAX system for analysis.

Influence of novel versus home environments on sensitization to the psychomotor stimulant effects of cocaine and amphetamine

The acute psychomotor response (rotational behavior in rats with a unilateral 6-OHDA lesion), and the development of sensitization, were studied in rats that received seven consecutive daily injections of amphetamine (Experiment 1) or cocaine (Experiment 2) either at home or in a 'novel' test environment. The home (HOME) and novel (NOVEL) cages were physically identical, but one group lived and was tested in these cages, whereas the rats in the other group were transported from the stainless steel hanging cages where they lived, to those NOVEl test cages, for each test session. In Exp. 1, the acute psychomotor response to 3.0 mg/kg of amphetamine i.p. and the development of sensitization (increase in the rotational response between the first and the the seventh test session) were greater in the NOVEL than in the HOME environment. In Expt. 2, there were no significant group differences in the acute response to 20 mg/kg of cocaine i.p., but the animals tested in the NOVEL environment showed greater sensitization than animals tested in the HOME environment. In addition, the animals pretreated with cocaine in the NOVEL environment, but not those pretreated with cocaine in the HOME environment, showed conditioned rotational behavior in response to an injection of saline. These data indicate that: (i) sensitization to the psychomotor activating effects of both amphetamine and cocaine is enhanced in a NOVEL environment; (ii) this phenomenon appears to the independent of the effects of the NOVEL environment on the acute response to these drugs; (iii) a robust conditioned psychomotor response to contextual cues develops only when cocaine treatments are given in the NOVEL test environment.

Circulating adrenal hormones are not necessary for the development of sensitization to the psychomotor activating effects of amphetamine

We reported previously that when amphetamine is given in NOVEL test cages both its acute psychomotor activating effects (rotational behaviour and locomotor activity) and the degree of sensitization are greater than when amphetamine is given in HOME cages that are physically identical to the NOVEL test cages. Since exposure to the NOVEL environment increases plasma corticosterone levels (Experiment 1) it is possible that the enhancement in the effects of amphetamine in the NOVEL condition is mediated by corticosterone. If this hypothesis is correct adrenalectomy (ADX) should abolish the difference between the HOME and NOVEL groups. This was tested in three independent experiments, in which the response (rotational behavior in Experiments 2 and 3; locomotor activity and rearing behavior in Experiment 4) to repeated injections of amphetamine was assessed in rats that underwent adrenalectomy (ADX) or a sham operation (SHAM). ADX animals received either no corticosterone replacement or one of two corticosterone replacement treatments. Adrenalectomy, with or without corticosterone replacement treatment, had no significant effect on the development of amphetamine sensitization, either in the HOME or the NOVEL environment. By contrast, the effects of adrenalectomy on the acute response to amphetamine varied depending on the behavioral measure and possibly on the dose of amphetamine (2.0 mg/kg, 3.0 mg/kg and 1.5 mg/kg IP, in Experiments 2, 3 and 4, respectively). We conclude that: (i) a stress-induced secretion of adrenal hormones is not responsible for the enhancement in sensitization to amphetamine seen in animals tested in a NOVEL environment; (ii) circulating adrenal hormones are not necessary for development of sensitization to the psychomotor activating effects of amphetamine.

The development of sensitization to the psychomotor stimulant effects of amphetamine is enhanced in a novel environment

Two experiments were designed to assess the effect of a "novel" environment on the development of sensitization to the psychomotor activating effects of d-amphetamine. In the first experiment, rats with a unilateral 6-hydroxydopamine lesion of the mesostriatal dopamine system received ten daily injections of amphetamine (2 mg/kg), either in their home cages or in novel test cages. The home and novel cages were physically identical (cylindrical transparent buckets), but one group lived and were tested in these cages, whereas the other group was transported from the stainless steel hanging cages where they lived to these novel test cages, for each test session. The first injection of amphetamine produced significantly more rotational behavior in animals tested in a novel environment than in animals tested at home. In addition, animals tested in a novel environment showed greater sensitization than animals tested at home, so the difference between the two groups was even more pronounced following the last injection. In a second experiment, locomotor activity was quantified in rats that received ten injections of either saline or 1.5 mg/kg amphetamine, in their home cages or in a physically identical novel environment. Again, there was a significantly greater locomotor response to the first injection of amphetamine, and greater sensitization, in animals tested in a novel environment than in animals tested at home. These data indicate that environmental factors can exert a large effect on the susceptibility to sensitization, and mechanisms by which this may occur are discussed.

Ventral tegmental area opioid mechanisms and modulation of ingestive behavior

In this paper we report on the effects of intra-VTA infusion of opioid agonists on rat ingestive behavior in a variety of experimental contexts. When the animals were tested outside of their home cages surrounded only by food-pellets (Experiment 1), the injection of the mu-opioid agonist DAMGO, but not the kappa-opioid agonist U-50,488H, into the ventral tegmental area facilitated food-related behaviors, decreasing the latency to feed and increasing the number of interactions with food. When, as in Experiment 2, gnawable objects and a drinking tube were also available, intra-VTA DAMGO gnawing and drinking behaviors, whereas the effects on feeding were negligible. These effects intra-VTA DAMGO increased were greatly enhanced in rats that underwent repeated treatments with amphetamine. On the other hand, when food-related behaviors were studied in a home-cage, where access to the food supply was achieved by entry into a tunnel, latency to feed and total food-intake were not enhanced in tests made during either the dark or the light phase (Experiment 3 and 4). This was true whether powdered standard lab chow or a highly palatable food was available. It appears that when a number of alternative incentive stimuli are available, increases in dopamine transmission such as that induced by intra-VTA DAMGO may ultimately have the effect of interfering with behavior normally directed primarily to one of these stimuli, by enhancing the salience of others. These effects bears some resemblance to the effects of tail-pinch and electrical brain stimulation of the medial forebrain bundle-lateral hypothalamic area on the responses to natural incentive stimuli.

Enhancement of the prophagic but not of the antidipsogenic effect of U-50, 488H after chronic amphetamine

Two groups of rats were treated with seven daily injections of either saline or d-amphetamine (3 mg/kg IP). On the 2 days following the last injection, rats were tested according to a counterbalanced experimental design, each animal receiving, immediately prior to the beginning of the dark phase, saline on one day and the highly selective kappa-opioid agonist trans- +/- 3,4-dichloro-N-methyl-N-[2-(1-pyrrolidinyl)cyclohexyl]-benzene- acetamide methanesulfonate hydrate [U-50,488H (U50)] on the other. A microcomputer-controlled data acquisition system was used for the structural analysis of the feeding and drinking responses to amphetamine and U50. U50 enhanced feeding and depressed drinking in the first hour. The increased food intake was probably the result of the effect of U50 on the development of satiation and duration of satiety. Chronic amphetamine potentiated the prophagic effect but not the antidipsogenic effect of U50. The structural analysis demonstrated that the characteristics of the prophagic effect of U50 were amplified but not changed.

Chronic stress induces strain-dependent sensitization to the behavioral effects of amphetamine in the mouse

Following 10 days of daily restraint stress, sensitization developed to the stimulatory effect of amphetamine on locomotion in DBA/2 but not in C57BL/6 mice tested 24 h after the last stressful experience regardless of their being naive or habituated to the test cages. Saline-injected C57BL/6 mice, however, showed an increase of locomotion 24 h after chronic stress treatment. Chronically stressed mice of the two strains did not exhibit any alteration of dopamine and metabolites (3-4-dihydroxphenylacetic acid, homovanillic acid, and 3-methoxytyramine) levels in the frontal cortex, caudatus putamen, or nucleus accumbens septi, thus ruling out that stress-induced alteration of basal dopamine metabolism affected the behavioral response to amphetamine challenging in DBA/2 mice. Ten daily amphetamine injections (5 mg/kg) did not significantly modify the behavioral response to amphetamine in either strain of mice tested 24 h after the end of the chronic treatment and did not increase locomotion in saline-injected C57BL/6 mice. Finally, chronically stressed hybrids B6D2F1 did not show sensitization to the locomotor effects of amphetamine, suggesting a dominant mode of inheritance in the response to chronic stress of the C57BL/6 strain.

The kappa-opioid U-50,488H suppresses the initiation of nocturnal spontaneous drinking in normally hydrated rats

The effect of a systemic (IP) treatment with 1.0, 3.0 and 9.0 mg/kg U-50,488H (U50), a highly selective kappa-agonist, on spontaneous, nocturnal ingestive behavior of the rat was studied using a microcomputer controlled data acquisition system. The latency to initiate drinking was increased and drinking behavior was suppressed in the first hour after injection in a dose-dependent manner. The consummatory indices of drinking were not affected. After this period of adipsia, a phase of polydipsia, that was probably due to the diuretic effect of U50, was evident. This prophagic effect of U50 was evident only at the dose of 3 mg/kg and was accompanied by an increased duration of feeding episodes but not by a reduced latency to feed. These results suggest that kappa-receptors play a pivotal role in modulating spontaneous drinking in the normally hydrated rat and that this control is mainly exerted on the motivational aspect of drinking.

Prepartal chronic stress increases anxiety and decreases aggression in lactating female mice

The effects of two types of prepartal chronic stress on maternal behavior, anxiety, and maternal aggression during lactation were assessed in female outbred Swiss mice. Two groups (n = 18 each) were subjected to 10 consecutive daily sessions of restraint stress (RS) or novel environment stress (NES) from Day 4 to Day 14 of pregnancy. A third group (n = 18) was left undisturbed during pregnancy (controls, C group). All females underwent a maternal behavior test (10-min observation after separation and reunion with the pups) on Postpartum Day (PD) 1, an anxiety test (a light-dark conflict test) on PD 6, and a maternal aggression test (5-min exposure to an unfamiliar adult male) on PD 7. NES and RS groups tended to show higher amounts of maternal care. Anxiety increased in the stressed females compared with controls, whereas the opposite was true for maternal aggression. In the RS group, anxiety was negatively correlated with maternal aggression. These results suggest that chronic stress may have produced neuronal and endocrine alterations in the dams, which may have led to increased avoidance of aversive stimuli. The results also support the hypothesis that, in lactating mice, anxiety is inversely related to the probability of displaying intense forms of aggression.

Reduction of oxotremorine-induced analgesia after chronic but not acute restraint stress

The analgesic response (tail-flick latency) induced by the muscarinic cholinergic agonist oxotremorine was investigated in DBA/2 mice exposed to acute (a single 2 h session) and chronic (2 h once daily for 10 days) restraint stress. While a single exposure to stress did not influence the antinociceptive effects of the cholinergic agonist, chronic stress induced a clear-cut reduction of the oxotremorine-induced analgesia. The results show an involvement of cholinergic mechanisms in the adaptive modulation of nociception after chronic stressful events.

Effects of acute and chronic stress and of genotype on oxotremorine-induced locomotor depression of mice

The locomotor behavior of unstressed and stressed mice of two inbred strains, DBA/2 and C57/BL6, was investigated. Animals were tested in a toggle-floor box apparatus, 30 min after saline or oxotremorine treatment (ip). A dose of oxotremorine that did not depress the activity of naïve mice (0.01 mg/kg) was chosen. Stressed mice were injected 24 h after either a single 2-h stress session (acute stress) or the last of 14 daily stress sessions of tube restraining (chronic stress). Acute stress did not modify the depressant effect of oxotremorine on locomotor behavior in either strain. On the contrary, chronic stress induced a clear sensitization of DBA but not C57 mice to the depressant effect of oxotremorine. These findings show that chronic stress may result in modifications of the cholinergic function, and its behavioral correlates, and that these changes are modulated by the genetic makeup.

Prepartal chronic stress increases anxiety and decreases aggression in lactating female mice

The effects of two types of prepartal chronic stress on maternal behavior, anxiety, and maternal aggression during lactation were assessed in female outbred Swiss mice. Two groups (n = 18 each) were subjected to 10 consecutive daily sessions of restraint stress (RS) or novel environment stress (NES) from Day 4 to Day 14 of pregnancy. A third group (n = 18) was left undisturbed during pregnancy (controls, C group). All females underwent a maternal behavior test (10-min observation after separation and reunion with the pups) on Postpartum Day (PD) 1, an anxiety test (a light-dark conflict test) on PD 6, and a maternal aggression test (5-min exposure to an unfamiliar adult male) on PD 7. NES and RS groups tended to show higher amounts of maternal care. Anxiety increased in the stressed females compared with controls, whereas the opposite was true for maternal aggression. In the RS group, anxiety was negatively correlated with maternal aggression. These results suggest that chronic stress may have produced neuronal and endocrine alterations in the dams, which may have led to increased avoidance of aversive stimuli. The results also support the hypothesis that, in lactating mice, anxiety is inversely related to the probability of displaying intense forms of aggression.