Theodore J. Baird

Phase-response curve for ethanol : Alterations in circadian rhythms of temperature and activity in rats

Circadian rhythms of core body temperature and general activity in Sprague-Dawley rats were monitored for 21 days using remote radiotelemetry to examine acute and sustained effects of 0 (saline) 1.0, and 2.0 g/kg ethanol injections administered at four different times of day. Ethanol produced dose-dependent and statistically significant hypothermia and hypoactivity when injected at 0100, 0700, 1300, and 1900 h; however, the magnitude of the hypothermic effect was greatest at the 1900-h injection time. Cosinor analyses revealed persistent alterations in both activity and temperature rhythms, which lasted for at least 48 h postinjection. Ethanol significantly shortened the period of activity rhythms when injected in either 1.0 or 2.0 g/kg doses at 0700 and 1300 h, and produced similar period-shortening effects on temperature rhythms at 1300 and 1900 h. The acrophase of the activity rhythm was significantly phase delayed by 1.0 g/kg ethanol at 0700 h, while the acrophase of temperature was significantly phase advanced by 2.0 g/kg ethanol at 0100 h, but significantly phase delayed by the same dose administered at 1300 h. A statistically significant and dose-dependent reduction in the amplitude of the body temperature rhythm was observed at the 1900-h administration time. There were no differences in the MESOR (Midline Estimating Statistic of Rhythm; i.e., rhythm-adjusted mean value) of either temperature or activity circadian rhythms as a function of ethanol treatment at any dose.

A catalytic antibody against cocaine attenuates cocaine's cardiovascular effects in mice: a dose and time course analysis

The murine monoclonal antibody 15A10 (mAb 15A10), elicited by a transition-state analog for cocaine hydrolysis, has previously been shown to metabolize cocaine in vitro and in vivo. The present experiments were designed to evaluate further the in vivo effectiveness of mAb 15A10 in blocking cardiovascular effects of acute cocaine administration. Balb/c mice were implanted with a femoral artery catheter utilized for mean arterial pressure (MAP) monitoring, and administered intravenous (i.v.) pretreatments of either mAb 15A10 (10, 32, 100 and 300 mg/kg) or vehicle prior to cocaine injection (100 mg/kg, i.p.). A time course analysis for mAb 15A10s effect was also conducted, for which either vehicle or 100 mg/kg mAb 15A10 was infused 1, 3, 10 and 30 days prior to cocaine treatment. During the cardiovascular recording sessions, mice were awake and freely moving within a limited area. Increases in MAP (approximately 25 mm Hg) following cocaine injection were dose-dependently attenuated by mAb 15A10. The antibody-attenuated cocaine-induced increases in MAP at 1- and 3-day pretreatment times, and reduced mortality at some of the time points studied. With 100 mg/kg antibody, plasma cocaine levels were significantly decreased early in the recording session, whereas levels of ecgonine methyl ester increased significantly. Although 10-fold greater quantities of antibody are required to observe significant effects in mouse, compared to our previous studies in rats, the present mouse model provides a convenient paradigm for investigating catalytic and non-catalytic antibodies.

Reinforcing Effects of Caffeine, Ephedrine, and Their Binary Combination in Rats

The reinforcing effects of caffeine, ephedrine, and caffeine + ephedrine combinations were tested in rats maintained to self-administer 0.5 mg/kg/injection of cocaine in daily 4 h limited access periods. The dose-response relationship for cocaine demonstrated a a typical inverted U-shaped function. The dose-dependent administration of cocaine was stable over the 3-day substitution epochs. Similar to earlier reports, neither caffeine nor ephedrine engendered stable patterns of self-injections. Combinations of caffeine + ephedrine produced biphasic patterns of administration only on the first day of substitution. Days 2 and 3 of the caffeine-ephedrine substitution periods engendered variable and inconsistent reinforcer deliveries that did not significantly differ from saline substitution tests. These reduced patterns of self-administered caffeine-ephedrine combinations were not attributed to behavioral toxicity. Progressive-ratio tests demonstrated rank ordered break points of: food > cocaine > caffeine ephedrine combination = caffeine = ephedrine = saline. Caffeine-ephedrine pretreatments failed to show any significant change in the administration of the maintenance dose of cocaine except at the highest combination dose tested. Although previous data from this laboratory demonstrated symmetrical crossgeneralization between the discriminative effects of caffeine-ephedrine combinations and cocaine, the present data suggest limited reinforcing effects of these combinations in rats.

Genetic selection of alcohol preference can be countered by conditioning processes.

Twenty-four P rats and 24 NP rats were conditioned to consume 10% w/v alcohol in daily 0.5-h limited access periods using a modified version of Samsons sucrose fading procedure. Both P and NP rats demonstrated a strikingly similar day-to-day pattern of alcohol intakes. For the most part, P rats drank more than NP rats, but by the middle of the fourth month of drinking, P and NP rats were drinking equivalent amounts of alcohol. Both P and NP rats consumed alcohol in amounts similar to two outbred strains of rats (Wistar and Sprague-Dawley) previously conditioned to drink alcohol in this laboratory.

Cross-generalization of an EtOH "hangover" cue to endogenously and exogenously induced stimuli.

Twenty male Sprague-Dawley rats were trained in a two-choice food-reinforced drug discrimination task (10 min sessions) using the state-dependent interoceptive stimulus attributes of ethanols (EtOH) delayed or rebound effects (EDE) versus normal basal homeostasis. Cross-generalization tests were conducted with 0.18 mg/kg naloxone injected after three days of three injections per day of either SAL or 10 mg/kg morphine. Naloxone failed to generalize to the EDE-state after chronic saline; however, the precipitated morphine withdrawal state produced complete generalization to the EDE training cue. Daily tests were conducted after 8 h photoperiod phase-shifts. An 8 h phase-advance, equivalent to a west-to-east intercontinental night-time flight in humans, produced a biphasic, graded, increase in EDE-appropriate responding, which peaked on the second day after the phase-advance and recovered by the fourth day. The 8 h phase-delays failed to engender significant EDE-appropriate responding. These data provide evidence for the subjective similarity between EtOH hangover, opiate withdrawal states, and the physiological disruption induced by circadian phase-advances.

Physiological and Subjective Effects of Acute Cocaine Withdrawal (Crash) in Rats

The physiological and subjective effects of high acute doses of cocaine and the subsequent homeostatic acute withdrawal syndrome were measured in rats. Radiotelemetry recordings of body temperature and activity were monitored in rats for 48 h after 32 mg/kg cocaine (COC) and saline (SAL) were administered by both intraperitoneal and subcutaneous (s.c.) routes. COC initially produced hypothermia and hyperactivity, followed by a prolonged hyperthermic and hypoactive rebound that seemed to peak around 12 h after injections. The s.c. route of administration produced the greatest rebound effect. Eight additional rats were monitored for EEG activity by telemetry for 48 h after SC administration of SAL or 32 mg/kg COC. COC produced an initial decrease in alpha and beta wavelength bands, with a trend toward increases in alpha and beta power demonstrated from the 10th through 14th h after injections. Using a three-choice haloperidol (HDL), saline, and COC drug discrimination task, we demonstrated a COC-like subjective state produced during the 10th through 12th h after a 32-mg/kg s.c. COC injection with no HDL-like responding engendered during any tested period of the acute or rebound effects of COC. These data provide evidence for an acute COC withdrawal syndrome (crash) in rats occurring 10-14 h after a high-dose COC treatment.

The paradoxical hedonic valence of acute ethanol withdrawal (hangover) states in rats: Place and taste conditioning

The hedonic valence of EtOHs delayed effects, usually referred to as hangover, was assessed 18 h after a 4 g/kg injection using both place and taste learning tasks. In the place conditioning task two CS-,CS+ intervals were used (48 h and 144 h); within each treatment interval, experimentally induced hangover was paired with the initially nonpreferred conditioning compartment for half of the experimental group (N = 10 rats) and with the initially preferred conditioning compartment for the half (N = 10 rats). Saline injections were paired with placement in the alternate conditioning compartment. A third group (N = 10 rats) was conditioned with milliliter equivalent volumes of saline on both sides. A conditioned place preference was conditioned with the hangover state-induced interoceptive stimuli. Attempts were made to taste condition 24 rats with the interoceptive stimulus attributes of hangover. Experimentally induced hangover was associated with an adipsogenic state, defined as a significant decline in voluntary intake of both saccharin and water, which prevented taste conditioning.

The stimulus properties of two common over-the-counter drug mixtures : dextromethorphan + ephedrine and dextromethorphan + diphenhydramine

Two groups of rats were trained in a two-choice drug discrimination procedure under a fixed-ratio 10 schedule of food reinforcement. One group of rats (n=12) was trained to discriminate the presence and absence of a drug mixture containing 10 mg/kg dextromethorphan + 10 mg/kg diphenhydramine. The other group of rats (n=12) was trained to discriminate the presence and absence of another drug mixture containing 10 mg/kg dextromethorphan + 10 mg/kg ephedrine. Cross-generalization tests conducted with each of the stimulus elements demonstrated that (1) the drug mixtures were not perceived as new entities distinct from their component elements and (2) the stimulus element saliency may be a factor determining the nature of discriminative control by drug mixtures. Cross-generalization tests conducted with the psychomotor stimulants, cocaine and amphetamine, engendered complete generalization to the training cues in both groups, whereas, pentobarbital engendered predominantly saline- or default-lever responding. These data suggest a potential abuse liability for both of these common over-the-counter drug mixtures and cautions against the use of such combinations in pediatric patients.

Cumulative vs. acute dose-response procedures produce differential BAC and behavioral functions for ethanol.

The discriminative stimulus attributes of ethanol (ETOH) were characterized in rats trained to discriminate between 1.25 g/kg ETOH and saline. The ETOH generalization functions were assessed using both acute and cumulative dosing procedures. The cumulative procedures differed in the individual incremented doses used to generate the functions. Acute dosing procedures produced discriminative functions that were significantly different from cumulative dose-response curves (DRCs). Similar cumulative DRCs were generated within each cumulative dosing procedure, whereas significant differences were produced between the two dosing incremented procedures. When blood alcohol concentrations (BACs) were quantified, a cumulative testing procedure produced significantly lower BACs than acute testing procedures at every dose above the initial or starting dose. Interestingly, response rate functions did not differ within or between cumulative and acute procedures. These data may suggest that differential ETOH dosing procedures may differentially influence the behavioral choice and BAC functions in rats, and cautions against the use of cumulative procedures to assess shifts in DRCs during chronic treatments without a concomitant assessment of BACs.

State-dependent stimulus control: cuing attributes of acute cocaine rebound in rats.

Sprague-Dawley (Rattus norvegicus) rats were trained in a drug discrimination task using the state-dependent interoceptive stimulus attributes of cocaines delayed or rebound effects (CDE) versus normal basal homeostasis. Rats were injected with either 32 mg/kg cocaine or equivalent volumes of saline (SAL), subcutaneously, 13 hr before the sessions. Rats demonstrated > 90% discriminative accuracy. Test sessions showed a time-dependent acute cocaine isodirectional rebound state that engendered a shift from predominantly SAL- to CDE-appropriate responding approximately 7 hr after the high training dose injection and lasted for approximately 10 hr (17 hr postinjection). The delayed or rebound state was dose dependent and engendered only a biphasic partial generalization with acute cocaine injections. There were no detectable levels of cocaine or any of its behaviorally active metabolites at the 13-hr postinjection interval. Tests conducted with various doses of lidocaine, chlordiazepoxide, N-methyl-d-aspartic acid, ketamine, and buspirone engendered SAL- or default-appropriate responding. The anxiogenic drug, pentylenetetrazole, produced partial generalization to the cocaine rebound cue.