Effects of smoking on acoustic startle and prepulse inhibition in humans.

RATIONALE: Prepulse inhibition of the acoustic startle response (PPI) is a paradigm in which a startle response to an auditory stimulus is reduced when that stimulus is preceded by a lower intensity, non-startling stimulus (prepulse). PPI is used as an operational measure of sensorimotor gating in both humans and other mammals. Acute administration of nicotine enhances PPI in rats, an effect that has been recently demonstrated in humans. OBJECTIVES: We compared PPI in 12 male smokers and 14 male non-smokers tested in four repeat startle sessions across 2 test days in order to examine further the effects of smoking and smoking withdrawal on acoustic startle and PPI. METHODS: In a crossover design, the smokers smoked ad lib or abstained from smoking overnight prior to 9 a.m. testing. These 2 test days were in randomized order. On both days, smokers were immediately retested after smoking three cigarettes. Non-smokers were tested twice on each of 2 separate days. RESULTS: Across sessions, the smokers had reduced startle to pulse alone stimuli in the first block of each session when compared to the non-smokers. The non-smokers had no change in gating across their four test sessions. For the smokers, the abstinence condition produced a non-significant reduction in PPI compared to that of the ad lib smoking day. During the smoking abstinence session, smokers had comparable gating to non-smokers. Smoking immediately after washout produced a significant improvement in PPI such that gating in the smokers exceeded that of the non-smokers. CONCLUSION: Smoking after overnight washout from cigarettes enhanced sensorimotor gating compared to pre-smoking values and compared to gating in non-smokers.

Prepulse inhibition of the acoustic startle response in cocaine-withdrawn rats.

Prepulse inhibition (PPI) of startle is a sensorimotor gating task in which a low-intensity acoustic stimulus presented prior to a high-intensity, startle-eliciting stimulus can attenuate the acoustic startle response (ASR). Previous studies on startle reactivity in cocaine-withdrawn rats have found minimal changes; the present study extends this work to the gating of ASR. In Experiment 1, rats were injected daily with either saline or cocaine (30 mg/kg i.p.) for 2 weeks. ASR and PPI were measured prior to, and at 3- and 14-day withdrawal from, the chronic treatment. No effect of cocaine treatment was found on either measure. In Experiment 2, treatment was extended to 8 weeks, and an earlier withdrawal time point (1 day) was added. Rats treated with cocaine for 8 weeks exhibited lower startle reactivity during withdrawal compared with saline-treated controls. PPI did not differ between treatment groups. Thus, extended chronic treatment with cocaine rendered significant effects on startle responsivity. Further, this finding mirrors the blunted ASR exhibited in chronic cocaine users [Neuropsychopharmacology 22 (2000) 89.].

Clinical and sensorimotor gating effects of ketamine in normals.

The clinical similarities between PCP psychosis and schizophrenia have contributed importantly to the development of the glutamate hypothesis of schizophrenia. Sensory gating, as measured by prepulse inhibition of the acoustic startle reflex (PPI), is impaired in patients with schizophrenia. In animals, the noncompetitive NMDA antagonists PCP and ketamine disrupt PPI in a way that resembles the defect seen in schizophrenia. The purpose of this work is to investigate the modulation of sensory gating in humans by subanaesthetic doses of ketamine. 16 healthy male subjects received a 60-min infusion of ketamine (0.5 mg/kg) or normal saline on two separate days in a randomized double-blind crossover design. Clinical ratings and PPI were done during the infusion on both days. Ketamine produced robust clinical effects. Dissociative symptoms as measured by the CADSS increased from 0 +/- 0.0 to 29.3 +/- 14.3; negative symptoms (Affect Rating Scale) increased from 17.2 +/- 0.8 to 24.8 +/- 3.1; and total BPRS scores increased from 18.3 +/- 0.8 to 26.4 +/- 5.1. ANOVAs for these ratings were all significant at the p <.000 level, although BPRS increases were not in the range seen in decompensated schizophrenic patients. The amplitudes of the startle responses to pulse-alone stimuli were not significantly different on ketamine and placebo days. Ketamine did not cause disruption in PPI as expected. On the contrary, in the first block of the PPI session ketamine significantly enhanced PPI (ANOVA; F=6.15, p =.026). These results indicate that the clinical effects of ketamine are not coupled with schizophrenic-like disruption of PPI in normal controls.

Differential effects of dopamine antagonists on locomotor activity, conditioned activity and conditioned place preference induced by cocaine in rats.

Neuronal substrates that mediate the conditioned effects of cocaine have not been well characterized. To examine dopaminergic mechanisms, three antagonists were tested for their capacity to inhibit the expression of conditioned locomotor activity and conditioned place preference in rats. Antagonists were also assessed against acute cocaine-stimulated locomotor activity for comparison. For locomotor activity conditioning, six conditioning sessions were conducted over a 10-day period. Paired rats received 10 mg/kg cocaine prior to activity sessions and saline after; unpaired controls received saline prior and cocaine after. For place preference conditioning, eight conditioning sessions were conducted over a 13-day period; rats received 10 mg/kg cocaine while restricted to one of two distinct chambers and, on alternate days, they received saline in the other. Antagonists (haloperidol, raclopride and SCH23390; 0.03-0.1 mg/kg) were given only on test days for conditioned effects. All three antagonists significantly and dose-dependently attenuated the direct stimulatory effect of cocaine. SCH23390 showed a tendency to reduce the expression of conditioned locomotor activity, and only haloperidol blocked the expression of conditioned place preference. Thus, direct and conditioned stimulant effects of cocaine were shown to be differentially sensitive to dopamine receptor blockade. Further, conditioned stimulant effects differed from conditioned reinforcing effects in this regard.

Conditioned locomotor stimulant effects of cocaine in rats do not result from interference with habituation.

RATIONALE: Classical conditioning has been proposed to account for the hyperactivity observed in drug-free rats when placed in an environment previously paired with cocaine administration. However, an alternative explanation is that hyperactivity results from an inability of rats to habituate to the environment under the influence of cocaine. OBJECTIVES: In this study, preconditioning exposure to the test environment was increased from one session (standard procedure) to seven (modified procedure) to test the "antihabituation" hypothesis. METHODS: After preconditioning exposure, six conditioning sessions took place over a 10-day to 13-day period. Paired rats received 10 mg/kg cocaine i.p. prior to activity sessions and saline i.p. upon return to the colony room. Unpaired rats received saline prior to and cocaine after activity sessions. Time-off rats were withheld from the activity boxes, but were subject to all other procedures during conditioning. On the test day, all rats received saline prior to activity sessions. RESULTS: In the standard procedure, paired rats exhibited significantly greater activity than unpaired rats on the test day, consistent with previous reports. In the modified procedure, mean activity (all rats) decreased between the first and last preconditioning sessions. Still, the paired group exhibited greater activity than the unpaired group on the test day, suggesting that a conditioned stimulant effect developed in habituated rats. Activity in the time-off group did not significantly differ from the unpaired group demonstrating the habituation had not dissipated over this time period. CONCLUSIONS: These results support the conclusion that hyperactivity observed on the test day was not a result of antihabituation effects of cocaine.

Impaired prepulse inhibition of acoustic startle in schizophrenia.

BACKGROUND: Schizophrenics show deficits in sensorimotor gating, as measured by prepulse inhibition of acoustic startle (PPI). The goal of this investigation is to further characterize PPI and habituation deficits in schizophrenia, and to examine whether differing subgroups of schizophrenics would show comparable PPI deficits. METHODS: PPI was measured in 24 male schizophrenic subjects (9 acutely decompensated inpatients and 15 stable outpatients) and in 20 age-matched normal control subjects. Schizophrenic subjects were rated for positive and negative symptoms at the time of testing. RESULTS: Schizophrenic subjects showed deficits in prepulse inhibition and habituation as compared to normal subjects. Similar latency facilitation was produced by the prepulse in both groups. Acutely decompensated inpatients and stable outpatients did not differ in percent PPI. PPI did not correlate with severity of positive or negative symptoms. CONCLUSIONS: These results suggest that schizophrenic subjects have impaired central inhibitory mechanisms as measured by PPI, and support the hypothesis that periods of relative clinical remission are not accompanied by normalization of sensorimotor gating.