Effect of nicotine, lobeline, and mecamylamine on sensory gating in the rat

In normal subjects, if an acoustic startle stimulus is immediately preceded by a small brief change in background noise intensity, the magnitude of the subsequent startle response is decreased. This prepulse inhibition (PPI) of an acoustic startle response has been shown to be associated with sensorimotor gating. PPI is disrupted in schizophrenic patients and has been linked to attentional disorders characteristic of this disease. We tested the effects of (-)-nicotine, (0.19, 0.62, and 1.9 mumol/kg IP) (equivalent to 0.03, 0.1, and 0.3 mg/kg base) and the nicotinic cholinergic receptor (nAChR) channel blocker, mecamylamine (5.0 and 50 mumol/kg IP) (equivalent to 1.0 and 10.0 mg/kg) on PPI of the acoustic startle response in the rat. Nicotine increased the PPI at the lowest prepulse signal levels but not at the stronger levels. Mecamylamine was without effect at 5.0 mumol/kg, but the 50 mumol/kg dose decreased the inhibition at both weak and strong prepulse (PP) levels. Mecamylamine (5.0 mumol/kg) pretreatment did not block the (-)-nicotine-induced increase in PPI. Lobeline (0.19, 0.62, 1.9, and 6.2 mumol/kg IP) (equivalent to 0.071, 0.23, 0.71, and 2.3 mg/kg) was without effect. These results are consistent with a mecamylamine-insensitive effect of nicotine to improve gating in normal rats. The nAChR subtype involved in producing nicotine's increase of PPI needs further investigation.     

Effects of single oral administrations of haloperidol and d-amphetamine on prepulse inhibition of the acoustic startle reflex in healthy male volunteers

The effects of acute administration of an indirect dopamine-agonist, d-amphetamine, and a non-selective dopamine receptor antagonist, haloperidol, were investigated in normal male volunteers on habituation and prepulse inhibition (PPI) of the acoustic startle reflex in two experiments. In Experiment 1, 40 male non-smoker volunteers were tested for habituation and PPI (defined as percentage reduction of the pulse-alone amplitude; prepulses 9 dB above background) before and after double-blind administration of either 2 mg haloperidol or placebo. No influence of haloperidol was observed on either habituation or PPI of the startle reflex in this experiment. In Experiment 2, 60 male volunteers underwent startle testing before and after double-blind administration of a single oral dose of 5 mg haloperidol, 5 mg d-amphetamine or placebo. Habituation and PPI (prepulses 15 dB above background) for the placebo group did not differ significantly from that observed for the d-amphetamine or for the haloperidol group. However, in a subgroup of smoking subjects, both d-amphetamine and haloperidol reduced PPI as compared to that observed prior to drug administration. The implications of these findings in relation to animal pharmacological studies and observed sensorimotor gating deficits in schizophrenia are discussed.     

5-HT modulation of auditory and visual sensorimotor gating: I. Effects of 5-HT releasers on sound and light prepulse inhibition in Wistar rats

Increasing evidence suggests an important role for serotonin (5-HT) neurons in the etiology and treatment of schizophrenia. The prepulse inhibition paradigm is used as a model for sensorimotor gating processes that are disrupted in schizophrenia. The present study assessed the general role of 5-HT in modulating auditory and visual prepulse inhibition in Wistar rats. A general overactivation of central serotonerigic pathways was produced pharmacologically by four different agents which all shared the common property of releasing 5-HT, i.e., p-chloroamphetamine, 3,4-methylenedioxymethamphetamine, N-ethyl-3,4-methylenedioxymethamphetamine, or fenfluramine. Within each test session, both sound and light prepulses were used to obtain a cross-modal assessment of auditory and visual sensory gating processes. All four 5-HT releasing agents produced dose-related disruptions of auditory and visual prepulse inhibition, with p-chloroamphetamine being the most potent. The releasers depressed baseline to varying degrees. The alpha 2-adrenergic agonist clonidine decreased baseline startle without substantially disrupting prepulse inhibition, demonstrating that the two effects were dissociable. Using fenfluramine as the most selective 5-HT releaser, two approaches were used to demonstrate 5-HT mediation of its disruptive effect on prepulse inhibition. In the first approach, the selective 5-HT uptake blocker MDL 28,618A was used to prevent fenfluramine-induced 5-HT release. In the second approach, prior exposure to a neurotoxic dose of p-chloroamphetamine (10 mg/kg) was used to produce a substantial, sustained depletion of cortical 5-HT, presumably reflecting the loss of 5-HT terminals. Both approaches reduced the disruptive effect of fenfluramine on auditory and visual prepulse inhibition, thereby demonstrating 5-HT mediation of these effects. Neither manipulation significantly affected the depressant effect of fenfluramine on startle baseline, demonstrating that the baseline-reducing and prepulse inhibition-reducing effects of fenfluramine could be dissociated. MDL 28,618A alone did not affect prepulse inhibition or basal startle levels, demonstrating an important functional difference between pharmacologically induced 5-HT uptake blockade and 5-HT release. In summary, these data indicate that serotonergic overactivation can disrupt auditory and visual sensorimotor gating as measured using sound and light prepulse inhibition in rats. These data support a potential role of excessive 5-HT activity as a contributing factor to disrupted sensory gating processes seen in schizophrenia and possibly other neuropsychiatric disorders.     

Interaction of cognitive balance and mood induction on self-descriptions: a Q methodological approach

Several neuropsychiatric disorders, including schizophrenia, are characterized by sensorimotor gating deficits. Prepulse inhibition of the acoustic startle response is an operational measure assessing sensorimotor gating and has been found to be reduced in schizophrenic patients. Much attention has therefore been paid to the neuronal mechanisms underlying the disruption of prepulse inhibition. The activity of limbic forebrain structures such as the septohippocampal system, the prefrontal cortex, and the nucleus accumbens has been the main focus of recent research into the regulation of prepulse inhibition in rats. We here provide a functional anatomical picture of forebrain structures probably involved in the regulation of prepulse inhibition. Stimulation of the ventral hippocampus with a subconvulsive dose of N-methyl-D-aspartate caused a significant and long-lasting disruption of prepulse inhibition. Immunostaining of the c-Fos protein revealed a characteristic pattern of neuronal activity in various forebrain areas, including the nucleus accumbens and different frontal cortical areas after hippocampal stimulation. Based on the present findings, we conclude that the overactivity within a network of cortico-limbic forebrain structures compromises the normal processing of sensory stimuli by disrupting a neuronal filter mechanism. Interestingly, there is a considerable overlap between the pattern of neuronal activity observed in our study and the brain pathology in schizophrenics reported in the literature.     

Effects of nicotine and stress on startle amplitude and sensory gating depend on rat strain and sex

We recently reported that 14 days of nicotine administration (12 mg/kg/day) reduced acoustic startle reflex amplitude and impaired prepulse inhibition (PPI) of startle in male and female Long-Evans rats. These findings contrasted with reports of nicotine-induced enhancement of startle and PPI in Sprague-Dawley (a different strain) male rats. The present experiment administered 0, 6, or 12 mg/kg/day nicotine via osmotic minipump for 14 days to 120 Sprague-Dawley rats (male and female) and to 120 Long-Evans rats (male and female) and examined ASR and PPI. Half of the subjects also were stressed by immobilization once each day to examine nicotine-stress interactions. Nicotine enhanced ASR and PPI responses of Sprague-Dawley rats but impaired these responses in Long-Evans rats, regardless of sex. Effects of stress were complex and depended on strain, sex, and drug dose. These findings indicate that effects of nicotine on measures of reactivity (ASR) and sensory gating (PPI) depend on genotype and that nicotine stress interactions depend on genotype, sex, and nicotine dosage.     

Cholinergic mechanisms in startle and prepulse inhibition: Effects of the false cholinergic precursor N-aminodeanol.

Examined the effects of cholinergic deficiency on prepulse inhibition (PPI) of the acoustic startle. Rats treated with a choline-free diet that contained the false cholinergic precursor N-aminodeanol showed great deficit in PPI. This deficit does not appear to be secondary to an increase of stereotyped behaviors. Startle threshold was also greatly reduced, as these rats startled to the 70-dB prepulse, and the baseline startle amplitude was increased by 60% over the control rats. Arecoline (4 mg/kg) partially reversed the deficit in PPI. This improvement persisted beyond the period of drug treatment. On the other hand, scopolamine (1 mg/kg) reduced PPI in the control rats. Results suggest that cholinergic systems play a major role in both the elicitation and prepulse inhibition of startle. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Competitive NMDA receptor antagonists disrupt prepulse inhibition without reduction of startle amplitude in a dopamine receptor-independent manner in mice

Prepulse inhibition is thought to reflect the operation of the sensorimotor gating system in the brain, and is reduced in schizophrenic patients and in animals treated with non-competitive NMDA receptor antagonists such as phencyclidine and (+)-5-methyl-10,11-dihydro-5H-dibenzo[a,d]cyclohepten-5,10-imine ((+)-MK-801). Previously, we reported that a competitive NMDA receptor antagonist, cis-4-phosphonomethyl-2-piperidine-carboxylate hydrochloride (CGS 19755), also disrupts prepulse inhibition concomitantly with a marked reduction of startle amplitude elicited by pulse alone in rats. In the present study, the effect of NMDA receptor antagonists on prepulse inhibition was tested in mice. In addition, involvement of the dopaminergic system in CGS 19755-induced disruption of prepulse inhibition was examined. When CGS 19755 was subcutaneously administered at 40 and 80 mg/kg, prepulse inhibition was disrupted without any change in the startle amplitude elicited by pulse alone. Intracerebroventricularly administered CGS 19755 disrupted prepulse inhibition at dosages of 0.1 and 0.2 microg/mouse. The same dosages of R-3-(2-carboxypiperazin-4-yl)-propyl-1-phosphonic acid (R-CPP), another competitive NMDA receptor antagonist, also decreased prepulse inhibition, while its less active enantiomer, S-CPP, did not affect prepulse inhibition at 0.2 microg/mouse (i.c.v.). A typical neuroleptic, haloperidol, did not significantly improve CGS 19755 (40 mg/kg s.c.)-induced disruption of prepulse inhibition. These results suggest that the disruption of prepulse inhibition by CGS 19755 and R-CPP is NMDA receptor-mediated and dopamine receptor-independent.     

Sexual orientation-related differences in prepulse inhibition of the human startle response.

Prepulse inhibition (PPI) refers to a reduction in the startle response to a strong sensory stimulus when this stimulus is preceded by a weaker stimulus--the prepulse. PPI reflects a nonlearned sensorimotor gating mechanism and also shows a robust gender difference, with women exhibiting lower PPI than men. The present study examined the eyeblink startle responses to acoustic stimuli of 59 healthy heterosexual and homosexual men and women. Homosexual women showed significantly masculinized PPI compared with heterosexual women, whereas no difference was observed in PPI between homosexual and heterosexual men. These data provide the first evidence for within-gender differences in basic sensorimotor gating mechanisms and implicate the known neural substrates of PPI in human sexual orientation. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Developmental toxicity of cysteamine in the rat: effects on embryo-fetal development

The reproductive and developmental safety of cysteamine has become an important issue to children with cystinosis because renal transplants and treatment with cysteamine reduce the complications associated with cystinosis and increase the lifespan of the affected children. In addition, there is the potential to decrease the severity or the incidence of renal Fanconi syndrome with administration of cysteamine to pregnant women carrying fetuses with cystinosis, and to ease significantly the burden of this disease throughout their lives. If cysteamine increases significantly the risk of fetal death, growth retardation or birth defects at doses used to treat women with cystinosis, treatment of the affected female should cease during pregnancy and would not be considered for fetal treatment. The goal of this study was to assess the developmental safety of exposure in utero to cysteamine in the rat. Pregnant rats were given cysteamine (as phosphocysteamine) from day 6.5 through day 18.5 postconception and fetuses were assessed for survival, growth, and structural abnormalities on day 20.5. Cysteamine was administered orally in doses of 0, 37.5, 75, 100, or 150 mg/kg/day. Cysteamine produced dose-dependent developmental toxicity with an apparent no adverse effect observed level of 75 mg/kg/day. Specific malformations were associated with this effect (cleft palate, kyphosis), as well as intrauterine growth retardation and fetal death at 100-150 mg/kg/day, without signs of maternal toxicity. Investigations continue into the mechanism for the developmental toxicity of cysteamine.     

The gene defective in anhidrotic ectodermal dysplasia is expressed in the developing epithelium, neuroectoderm, thymus, and bone

In rats, effects of nicotine administration on sensory gating as indexed by prepulse inhibition (PPI) of the acoustic startle reflex (ASR) are unclear. We have found that nicotine administration enhances ASR and PPI in Sprague-Dawley rats, but other investigators, using Long-Evans rats, have reported no effects or enhancement of PPI only. Numerous methodological differences exist among studies in addition to subject strain, however, making it unclear whether inconsistent behavioral responses are the result of different experimental procedures or indicate a true strain difference. To investigate the role of strain in nicotine's effects on ASR and PPI, 192 male and female Long-Evans rats were administered 12 mg/kg/day nicotine via osmotic minipump for 14 days using identical methodologies employed in studies with Sprague-Dawley subjects. Effects of grouped vs. individual housing on these responses also were examined. Nicotine administration impaired ASR and PPI in Long-Evans subjects. These effects occurred in female rats regardless of housing condition, and interacted with housing in male rats. Results indicate that sex and housing are important variables in nicotine's effects. Results suggest that subject strain may be an important variable in nicotine's effects on sensory gating, and that responses of Sprague-Dawley vs. Long-Evans rats may represent a true strain difference.     

Stimulus quality affects expression of the acoustic startle response and prepulse inhibition in mice.

The relationship between stimulus intensity and startle response magnitude (SIRM) can assess the startle reflex and prepulse inhibition (PPI) with advantages over more commonly used methods. The current study used the SIRM relationships in mice to determine differences between white noise and pure tone (5 kHz) stimuli. Similarly to rats, the SIRM relationship showed a sigmoid pattern. The SIRM-derived reflex capacity (RMAX) and response efficacy (slope) of the white noise and pure tone stimuli in the absence of prepulses were equivalent. However, the pure tone startle response threshold (DMIN) was increased whereas the stimulus potency (1/ES??) was decreased when compared to white noise. Prepulses of both stimulus types inhibited RMAX and increased DMIN, but the white noise prepulses were more effective. Both stimulus intensity gating and motor capacity gating processes are shown to occur, dependent on prepulse intensity and stimulus onset asynchrony. Prepulse intensities greater than 10 dB below the startle threshold appear to produce PPI via stimulus intensity gating, whereas a motor capacity gating component appears at prepulse intensities near to the startle threshold. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Inbred mouse strains differ in the regulation of startle and prepulse inhibition of the startle response.

The startle response and adaptability of the startle response (prepulse inhibition and habituation) have been observed in animals. The studies reported here screened 8 inbred mouse strains to determine whether genetic factors influence these behaviors. Strain differences were found in both the sensitivity to acoustic startle and the magnitude of both the auditory and tactile startle as well as the magnitude of prepulse inhibition (PPI) of both tactile and acoustic startle. Neither the 2 startle responses nor the 2 forms of PPI were significantly correlated with one another, suggesting that different genes regulate these 2 forms of startle and PPI. Acoustic-acoustic PPI was significantly correlated, however, with hippocampal auditory gating (TC ratio) suggesting an overlap in the genes that regulate these 2 forms of sensory gating. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

On the influence of baseline startle reactivity on the indexation of prepulse inhibition.

Prepulse inhibition (PPI) of the startle reflex refers to the reduction of the reflexive startle response to an intense pulse stimulus when its presentation is shortly preceded by a weak prepulse stimulus. PPI is considered as a cross-species translational model of sensorimotor gating, and deficient PPI has been reported in a number of neuropsychiatric disorders. Although a part of the literature is based on the assumption that PPI is independent of the baseline startle reaction, there is accumulating evidence (Csomor et al., 2006; Sandner & Canal, 2007; Yee, Chang, Pietropaolo, & Feldon, 2005) that argues against such an independency. The authors systematically investigated whether PPI indexed as percentage or difference score is dependent on the magnitude of baseline startle reactivity in healthy human volunteers and in C57BL/6 mice. The results revealed that both indexations of PPI were affected by the magnitude of the baseline startle. The authors highlight the pitfalls of different methods to index PPI, especially when startle reactivity differs considerably between groups under comparison, and offer practical recommendations to satisfactorily deal with such baseline differences. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Prepulse startle deficit in the Brown Norway rat: A potential genetic model.

Prepulse inhibition (PPI), an operational measure of sensorimotor gating, is deficient in schizophrenia patients. PPI was compared among 4 strains of rats: Sprague-Dawley, Spontaneously Hypertensive, Wistar Kyoto (WKY), and Brown Norway (BN). PPI was dramatically lower in BN versus the other strains, especially WKY, for both acoustic and airpuff startle stimuli, whereas startle amplitude was similar between BN and WKY. Female BN also had lower PPI than did female WKY. Response to increasing prepulse intensities showed a right shift in the BN relative to the WKY. Visual prepulses also showed deficiencies in BN versus WKY. The absence of background noise did not negate strain differences. Auditory brainstem response to clicks and tone pips revealed no differences in auditory threshold between the 2 strains. These results are the first to demonstrate that BN have impaired sensorimotor gating compared with WKY, without impaired acoustic acuity. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Clozapine and PD149163 elevate prepulse inhibition in Brown Norway rats.

Unmedicated schizophrenia patients exhibit deficits in prepulse inhibition (PPI) of the acoustic startle response. Similar deficits can be induced in rodents via a variety of manipulations and these deficits can be reversed by antipsychotics. Brown Norway (BN) rats exhibit natural PPI deficits under certain parametric conditions. We treated BN rats with haloperidol or clozapine to determine if the BN rat is a useful animal model with predictive validity for the effects of antipsychotics. In addition, we also tested PD149163, a neurotensin-1 receptor agonist, which has been shown to exhibit antipsychotic-like effects in several other animal models. BN rats received subcutaneous injections of either saline or one of two doses of haloperidol (0.5 mg/kg, 1.0 mg/kg), clozapine (7.5 mg/kg, 10 mg/kg) or PD149163 (1.0 mg/kg, 2.0 mg/kg). PPI was measured in startle chambers 30 min after injection. Systemic clozapine and PD149163 but not haloperidol facilitated PPI in BN rats (p     

Habituation of prepulse inhibition of the startle reflex using an auditory prepulse close to background noise.

This study examined whether prepulse inhibition habituates with repeated presentation of the prepulse alone. Prepulse inhibition was determined by measuring the decrement in the startle response when the acoustic startle-eliciting stimulus was preceded by an auditory prepulse. Rats received repetitive exposures of the same auditory prepulse alone (experimental condition) and of a visual prepulse alone (control condition). To reduce habituation of startle itself and the possible dishabituating influence the startle stimulus might have on habituation of prepulse inhibition, startle stimulus presentations were infrequently interspersed among a much larger number of prepulse-alone presentations. Stimulus-specific habituation of prepulse inhibition occurred using an auditory prepulse 2.5 dB, but not 13 dB, above background noise. Implications are discussed for the role of prepulse inhibition in sensory gating. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Age-associated improvements in cross-modal prepulse inhibition in mice.

Prepulse inhibition (PPI) is an operational measure of sensorimotor gating that is thought to probe preattentional filtering mechanisms. PPI is deficient in several neuropsychiatric disorders, possibly reflecting abnormalities in frontal-cortical-striatal circuitry. Several studies support the predictive validity of animal PPI to model human sensorimotor gating phenomena but only limited studies have addressed the effects of aging. Studies in humans suggest that PPI is improved or unaffected as humans age (>60 years) and does not correlate with cognitive decline in aged populations. Rodent studies to date, however, suggest that PPI declines with age. Here we tested the hypothesis that PPI measures in rodents are sensitive to stimulus modality, with the prediction that intact sensory modalities in aged animals would be predictive of aging-induced increases in PPI. To test our hypothesis, we assessed PPI using acoustic, tactile, and visual prepulses in young (4 month) and old (23 month) C57BL/6N mice. Consistent with data across species, we observed reduced startle reactivity in older mice. Aging effects on PPI interacted significantly with prepulse modality, with deficient acoustic PPI but increased visual and tactile PPI in aged animals. These data are therefore consistent with PPI studies in older humans when controlling for hearing impairments. The results are discussed in terms of 1) cross-species translational validity for mouse PPI testing, 2) the need for startle reactivity differences to be accounted for in PPI analyses, and 3) the utility of cross-modal PPI testing in subjects where hearing loss has been documented. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Reversal of sensorimotor gating abnormalities in Fmr1 knockout mice carrying a human Fmr1 transgene.

Fragile X syndrome is caused by a CGG trinucleotide repeat expansion of the FMR1 gene. Individuals with fragile X display several behavioral abnormalities including hyperactivity, social anxiety, autistic-like features, impaired cognitive processing, and impaired sensorimotor gating. The Fmr1KO mouse model of fragile X exhibits several related behavioral phenotypes such as increased activity and altered social interactions. Individuals with fragile X also have impaired sensorimotor gating as measured using the prepulse inhibition of startle response. The authors have recently shown that Fmr1KO mice with a yeast artificial chromosome containing the human FMR1 gene have corrected or overcorrected abnormal behaviors including hyperactivity and altered social interactions. Here the authors present results from a study examining abnormal sensorimotor gating in Fmr1KO mice. Consistent with previous findings, Fmr1KO mice have increased prepulse inhibition. The KO mice with the yeast artificial chromosome containing the human FMR1 gene had levels of prepulse inhibition comparable to WT mice, indicating not only a correction of this phenotype, but also clearly demonstrating that in mice levels of the fragile X mental retardation protein regulate sensorimotor gating. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Fluorimetric assay of cephradine, cephalexin and cephaloglycin

The startle reflex was measured in 7 groups of 10 rats each after intraperitoneal injection of saline or 0.25, 0.50, 0.75, 1.0, 2.0, 4.0 or 8.0 mg/kg psilocybin. Low doses (0.75-2.0 mg/kg) increased startle amplitude whereas high doses (4.0-8.0 mg/kg) depressed startle. Selected low (0.71 mg/kg) or high (5.70 mg/kg) doses of psilocin also had a biphasic dose-response effect on startle comparable in magnitude to equimolar doses of psilocybin. This biphasic dose-response relationship of the indole hallucinogen, psilocybin, on startle is consistent with the hypothesis that startle is increased when the firing rates of midbrain raphe neurons are selectively inhibited but is depressed when neurons postsynaptic to raphe cells are also inhibited.     

Social interaction and sensorimotor gating abnormalities in mice lacking Dvl1

Mice completely deficient for Dvl1, one of three mouse homologs of the Drosophila segment polarity gene Dishevelled, were created by gene targeting. Dvl1-deficient mice are viable, fertile, and structurally normal. Surprisingly, these mice exhibited reduced social interaction, including differences in whisker trimming, deficits in nest-building, less huddling contact during home cage sleeping, and subordinate responses in a social dominance test. Sensorimotor gating was abnormal, as measured by deficits in prepulse inhibition of acoustic and tactile startle. Thus, Dvl1 mutants may provide a model for aspects of several human psychiatric disorders. These results are consistent with an interpretation that common genetic mechanisms underlie abnormal social behavior and sensorimotor gating deficits and implicate Dvl1 in processes underlying complex behaviors.