Pavlovian conditioning of morphine hyperthermia: assessment of interstimulus interval and CS-US overlap

Temporal Factors Modulate Haloperidol-Induced Conditioned Catalepsy

Repeated pairings of a neutral context and the effects of haloperidol give rise to conditioned catalepsy when the context is subsequently presented in a drug-free test. In order to confirm whether this response is based on Pavlovian processes, we conducted two experiments involving two manipulations that affect conditioning intensity in classical conditioning procedures: time of joint exposure to the conditioned and the unconditioned stimulus, and the length of the inter-stimulus interval (ISI). The results revealed that both an increase in the length of context-drug pairings during conditioning and a reduced ISI between drug administration and context exposure increased conditioned catalepsy. These results are discussed in terms of the temporal peculiarities of those procedures that involve drugs as the unconditioned stimulus along with the role of Pavlovian conditioning in context-dependent catalepsy.

Region-specific contribution of the ventral tegmental area to heroin-induced conditioned immunomodulation

Dopamine receptor stimulation is critical for heroin-conditioned immunomodulation; however, it is unclear whether the ventral tegmental area (VTA) contributes to this phenomenon. Hence, rats received repeated pairings of heroin with placement into a distinct environmental context. At test, they were re-exposed to the previously heroin-paired environment followed by systemic lipopolysaccharide treatment to induce an immune response. Bilateral GABA agonist-induced neural inactivation of the anterior, but not the posterior VTA, prior to context re-exposure inhibited the ability of the heroin-paired environment to suppress peripheral nitric oxide and tumor necrosis factor-α expression, suggesting a role for the anterior VTA in heroin-conditioned immunomodulation.

Rapid induction of Pavlovian approach to an ethanol-paired visual cue in mice

RATIONALE

Although many studies have shown Pavlovian conditioned approach to cues paired with natural reinforcers, it has been quite difficult to induce such behavior with drug reinforcers.

OBJECTIVES

This experiment tested a novel Pavlovian procedure for inducing approach to a conditioned stimulus (CS) paired with ethanol.

METHODS

Mice (NZB/B1NJ, DBA/2J) received intraperitoneal injections of ethanol (2 g/kg) immediately before 10-min exposure to a rectangular chamber that contained a distinctive visual cue (star) at one end (Paired group, CS+ trials). On alternate days, saline injection preceded apparatus exposure with no distinctive cues (CS- trials). Unpaired control mice received ethanol in the home cage 60-75 min after each CS+ trial.

RESULTS

NZB/B1NJ Paired group mice spent increasing amounts of time (>85% of the session) in proximity to the star, whereas Unpaired group mice did not. DBA/2J Paired group mice spent slightly more time on the star side than Unpaired group mice but did not show an acquisition curve. Postconditioning tests showed a strong preference for the star side in Paired groups from both strains after saline injection. However, only NZB/B1NJ mice showed a preference after ethanol.

CONCLUSIONS

This study provides the first unambiguous demonstration of Pavlovian conditioned approach to an ethanol-paired visual stimulus in the absence of any contingency between the animal's behavior and drug exposure. This effect, which is remarkable both in terms of its magnitude and the rapidity with which it was produced (within 2-3 trials), may be related to the cue-associated craving that accompanies alcohol and drug addiction.

Allopregnanolone does not influence ethanol-induced conditioned place preference in DBA/2J mice

RATIONALE

The neurosteroid allopregnanolone (ALLOP; 3alpha-hydroxy-5alpha-pregnan-20-one) produces behavioral and discriminative characteristics similar to that of ethanol (EtOH) and can modulate some of the behavioral and electrophysiological effects of EtOH.

OBJECTIVE

The present experiments investigated ALLOP modulation of the effects of EtOH in a place conditioning procedure in male DBA/2J mice.

METHODS

In a series of experiments examining different EtOH doses (1, 2 g/kg) and ALLOP administration times, ALLOP (0, 3.2, 10, 17 mg/kg, i.p.) was administered four times with EtOH prior to placement on a distinctive floor (CS+). On alternate days, vehicle was administered prior to a saline injection paired with the other floor stimulus (CS-). In a separate experiment, finasteride (0, 50, 100 mg/kg, i.p.), a 5alpha-reductase inhibitor that blocks ALLOP synthesis, was administered prior to both CS+ and CS- trials. In a final experiment, animals were place conditioned to EtOH alone, and ALLOP (0, 3.2, 10, 17 mg/kg, i.p.) was administered prior to the preference test only.

RESULTS

During conditioning, ALLOP increased and finasteride decreased EtOH-stimulated activity compared with vehicle pretreatment. Acquisition of 2 g/kg EtOH-induced conditioned place preference was observed in all mice, regardless of treatment with either ALLOP or finasteride. Similarly, ALLOP did not modulate the expression of EtOH-induced place preference. EtOH increased brain ALLOP levels compared with saline; however, ALLOP administration produced dose-dependent elevations in brain ALLOP levels that were not further augmented by EtOH (2 g/kg) administration.

CONCLUSIONS

These findings indicate that ALLOP does not modulate EtOH-induced place conditioning in male DBA/2J mice.

Intra-administration associations and withdrawal symptoms: morphine-elicited morphine withdrawal

On the basis of a conditioning analysis, some drug "withdrawal symptoms" are conditional responses elicited by stimuli paired with the drug effect. Prior demonstrations of conditional elicitation of withdrawal symptoms evaluated the role of environmental cues; however, pharmacological cues also typically signal a drug effect. Within each administration, early drug onset cues (DOCs) may become associated with the later, larger drug effect (intra-administration associations). This experiment evaluated the contribution of intra-administration associations to withdrawal symptoms. The results indicated that (a). 5 mg/kg morphine elicited behavioral and thermic withdrawal symptoms in rats previously injected on a number of occasions with 50 mg/kg morphine and that (b). DOC-elicited withdrawal symptoms are not a sensitized response to the opiate but rather an associative phenomenon.

8-OHDPAT effects upon cocaine unconditioned and conditioned behaviors: a role for drug stimulus effects

The effects of the 5-HT1A agonist, (+/-)-8-hydroxy-dipropylaminotetralin (8-OHDPAT) upon the unconditioned and conditioned behavior induced by cocaine were assessed in rats. Separate groups (n=7) received saline, cocaine (10 mg/kg), 8-OHDPAT (0.2 mg/kg), or 8-OHDPAT (0.2 mg/kg) plus cocaine (10 mg/kg) for eight treatment sessions (two per week) in which the rats were tested for 20 min in an open-field. On the eighth treatment session, cocaine enhanced locomotion and rearing but decreased grooming. 8-OHDPAT also decreased grooming and, when given in combination with cocaine, enhanced locomotion but attenuated cocaine-induced rearing. The two 8-OHDPAT groups differed substantially from each other and from the cocaine group in terms of locomotion during the drug treatment phase. Subsequently, all groups received a series of conditioning tests in which they received saline, 0.1, 0.2, or 0.4 mg/kg 8-OHDPAT prior to testing. Groups which had received either 8-OHDPAT or cocaine prior to the conditioning tests exhibited equivalent conditioned effects on the saline conditioning test. When conditioning tests were conducted with 8-OHDPAT, however, only the group which had previously received the combined 0.2 mg/kg 8-OHDPAT plus cocaine treatment exhibited a conditioned response and this effect only occurred at the 0.2 8-OHDPAT dose level. These observations indicate the important influence of the stimulus properties of drugs for the study of drug conditioning and for understanding drug interactions with cocaine.

Mechanisms and mediators of psychological stress-induced rise in core temperature

OBJECTIVE

Despite numerous case reports on "psychogenic fever," it remains uncertain how psychological stress raises core temperature and whether the rise in core temperature is a real fever or a hyperthermia. This article reviews studies on the psychological stress-induced rise in core temperature (PSRCT) in animals with the aim to facilitate studies on the mechanisms of so-called psychogenic fever in humans.

METHODS

To address this question, we reviewed the mechanisms and mediators of the PSRCT and classic conditioning of the fever response in animals.

RESULTS

The PSRCT is not due to the increased locomotor activity during stress, and the magnitude of the PSRCT is the same in warm and cold environments, indicating that it is a centrally regulated rise in temperature due to an elevated thermoregulatory "set point." The PSRCT caused by conventional psychological stress models, such as open-field stress, is attenuated by cyclooxygenase inhibitors, which block prostaglandin synthesis. On the other hand, the PSRCT elicited by an "anticipatory anxiety stress" is not inhibited by cyclooxygenase inhibitors but by benzodiazepines and serotonin Type 1A receptor agonists. The febrile response can be conditioned to neutral stimuli after paired presentation with unconditioned stimuli such as injection of lipopolysaccharide, a typical pyrogen.

CONCLUSIONS

Most findings indicate that the PSRCT is a fever, a rise in the thermoregulatory set point. The PSRCT may occur through prostaglandin E2-dependent mechanisms and prostaglandin E2-independent, 5-HT-mediated mechanisms. The febrile response can be conditioned. Thus, these mechanisms might be involved in psychogenic fever in humans.