UMLS:C0036341 - FACTA Search

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Query: UMLS:C0036341 (schizophrenia)
60,220 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rats were treated chronically with haloperidol (1.5 mg/kg per day in drinking water) for up to 9 months. At 1 week, 3.5 months and 9 months after commencing treatment, spontaneous activity in separate groups was depressed by 30-40%. Apomorphine stereotypy was also attenuated at 9 months. Following a 7-10 day withdrawal period after 9 months of treatment, both measures were elevated. Enhancement of spontaneous activity appeared to be at least in part characterised by a deficit in psychomotor habituation to the test apparatus. DA receptor blockade during haloperidol treatment for a substantial proportion of a rat's adult life was found to be an enduring effect, paralleling its antipsychotic action. Developing neurochemical supersensitivity was only manifested behaviourally after withdrawal of neuroleptic. The implications of such findings for the pathophysiology of schizophrenia and tardive dyskinesia and for the functional significance of dopamine receptor heterogeneity are discussed.
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PMID:Neuroleptic treatment for a substantial proportion of adult life: behavioural sequelae of 9 months haloperidol administration. 719 33

The reduction in magnitude of the startle reflex in response to a loud noise produced by prior presentation of a stimulus of lower intensity is known as prepulse inhibition (PPI). PPI may be disrupted by a variety of drugs, most notably by dopaminergic agonists such as apomorphine and by phencyclidine (PCP), and related noncompetitive N-methyl-D-aspartate (NMDA) antagonists. Apomorphine-induced disruption of PPI is antagonized by both typical and atypical neuroleptics. The present study examined the effects of the atypical neuroleptic, clozapine, alone and in combination with PCP, on PPI in rats. The results of previous studies suggest that disruption of PPI by PCP and similar drugs is not sensitive to antagonism by typical neuroleptics such as haloperidol. The results of the present study show that clozapine's effect on PCP-induced disruption of PPI is also limited. The failure of clinically effective antipsychotics of diverse chemical classes to block the effects of PCP on PPI of acoustic startle suggest that the effects of PCP in this procedure may represent a model of attentional deficits observed in treatment-resistant schizophrenia.
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PMID:Clozapine's effects on phencyclidine-induced disruption of prepulse inhibition of the acoustic startle response. 788 71

We have previously demonstrated that rats with neonatal excitotoxic hippocampal damage manifest abnormal dopamine (DA)-related behaviors after puberty, a phenomenon that has implications for an animal model of schizophrenia. In this study we investigated the effects of subchronic treatment with haloperidol and clozapine in these animals. The ventral hippocampus (VH) of rat pups was lesioned with ibotenic acid on postnatal day 7 (PD7). Starting at PD56, rats were treated for 21 days with either vehicle (VEH), haloperidol (HAL) (0.1 mg/kg, IP), or clozapine (CLOZ) (4 mg/kg, IP). Spontaneous locomotor activity was measured 0.5 hour after the last injection. Apomorphine (APO)-induced stereotypy and locomotion were evaluated five days later. The VH lesioned rats treated with VEH expressed enhanced novelty- and apomorphine-induced hyperlocomotion, as well as potentiated apomorphine-induced stereotypic behaviors as compared to sham-lesioned counterparts. Spontaneous locomotor activity was suppressed by haloperidol but not by clozapine in the sham-operated group, whereas both drugs were effective in suppressing hyperlocomotion in the VH lesioned rats. Withdrawal supersensitivity to apomorphine was seen in the haloperidol but not in the clozapine-treated lesioned rats, and none of the drugs produced significant supersensitivity in the sham-operated animals. These results indicate that the two neuroleptics exerted differential behavioral effects in neurologically intact and hippocampally lesioned animals, and that these effects were also drug-specific.
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PMID:Subchronic treatment with haloperidol and clozapine in rats with neonatal excitotoxic hippocampal damage. 791 17

Neonatal excitotoxic hippocampal damage in the rat results in postpubertal onset of a variety of abnormal behaviors related to excessive dopaminergic transmission in the mesolimbic/nigrostriatal system, and thus may be considered an animal model of some aspects of schizophrenia. Because sensorimotor gating is impaired in adult patients with schizophrenia and in rats with experimentally induced mesolimbic dopamine hyperactivity, the present experiments investigated the effects of neonatal (postnatal day 7, PD7) ibotenic acid (3 micrograms) lesions of the ventral hippocampus (VH) on the amplitude and prepulse inhibition (PPI) of acoustic startle in prepubertal (PD35) and postpubertal (PD56) rats. Startle was elicited using 105 and 118-dB pulses alone or preceded by 4, 8, or 16 dB above-background prepulses in rats treated with vehicle or apomorphine (APO; 0.025 or 0.1 mg/kg SC). At PD35, PPI in VH-lesioned rats did not differ significantly from these measures in sham operated rats. Apomorphine significantly increased startle amplitude and reduced PPI in both sham operated and VH-lesioned rats at PD35. At PD56, startle amplitude in VH-lesioned rats was not significantly different from controls, but PPI was reduced significantly compared to controls. Ventral hippocampus lesioned rats also exhibited an exaggerated reduction in PPI after treatment with APO. These findings provide further evidence of postpubertal impairments that may be related to increased mesolimbic dopamine transmission and receptor sensitivity in rats with neonatal hippocampal damage, and provide further support for the fidelity of this animal model of schizophrenia.
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PMID:Neonatal excitotoxic hippocampal damage in rats causes post-pubertal changes in prepulse inhibition of startle and its disruption by apomorphine. 871 Oct 62

Our previous work demonstrated that neonatal (on postnatal day 7, PD7) excitotoxic damage of the ventral hippocampus (VH) results in delayed emergence of behaviors related to dopaminergic (DA) transmission. In this study, the developmental effects of VH lesions induced at two other ages were investigated in the rat. Ibotenic acid or artificial cerebrospinal fluid was infused into the VH of 3- (PD3) or 14- (PD14)-day-old rat pups. Amphetamine-induced (1.5 mg/kg, i.p.) locomotor activity was assessed in the sham and lesioned rats prior to (PD35) and after puberty (PD56 and PD86). Apomorphine-induced (0.75 mg/kg s.c.) stereotypic behaviors were measured on PD56. Similar VH lesions resulted in different profiles of behavioral abnormalities depending upon the age at which they were induced. The PD3 lesioned rats displayed hyperlocomotion to amphetamine only after puberty, while the PD14 lesioned rats manifest hyperlocomotion as early as 3 weeks after surgery (at PD35). Moreover, the PD3 lesioned rats tended to show more stereotypic behaviors in response to apomorphine than the sham-operated controls, while the PD14 rats had a profoundly diminished stereotypic response. The behavioral changes in the PD3 lesioned rats are reminiscent of those previously described in animals lesioned at PD7. In contrast, the deficits in the PD14 lesioned animals resemble those seen before in rats lesioned in adulthood. These results indicate that the pattern of impairments associated with the excitotoxic VH lesion varies with age at lesion, i.e. a similar pattern seems to be associated with lesions up to PD7, but not by PD14. To the extent that the neonatal VH lesion in the rat models certain phenomenological aspects of schizophrenia, including the temporal pattern of symptom onset, these results provide evidence that the model requires an early defect in limbic cortical development.
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PMID:Behavioral changes in rats with early ventral hippocampal damage vary with age at damage. 926 76

The goal of these studies was to determine whether neonatal viral exposure leads to a deficit in information processing in adulthood. To accomplish this, rats were infected neonatally with rat cytomegalovirus, and acoustic startle responses were measured when rats were 120 days old. Acoustic startle was elicited by using a 118-decibel (dB) white noise alone or after a prepulse 10 dB above background (65 dB); responses were measured after an injection of saline or the dopamine agonist apomorphine. Response amplitudes after the pulse alone were not significantly altered by either viral exposure or apomorphine. Responses of animals exposed to the prepulse before the pulse were approximately 10% of that after the pulse alone and did not differ between control or virus-exposed animals injected with saline. Animals injected with apomorphine exhibited a greater startle response than animals injected with saline, and control and virus-exposed rats injected with apomorphine differed in the magnitude of their responses. Apomorphine attenuated responses after the prepulse, and virus-exposed animals exhibited more than twice the attenuation than non-virus-exposed animals. Analysis of prepulse inhibition, calculated from the acoustic startle data, indicated that although viral exposure alone did not significantly affect information processing, when virus-injected rats were exposed to apomorphine, a significant 38% decrease in prepulse inhibition was apparent. Findings demonstrate that rats infected neonatally with rat cytomegalovirus exhibit a deficit in sensorimotor gating upon dopamine stimulation, supporting a possible link between viral infection and schizophrenia.
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PMID:Neonatal cytomegalovirus exposure decreases prepulse inhibition in adult rats: implications for schizophrenia. 1044 Aug 92

Impaired ability to "gate out" sensory and cognitive information is considered to be a central feature of schizophrenia and is manifested, among others, in disrupted prepulse inhibition and latent inhibition. The present study investigated, in rats, the effects of increasing dopamine receptor activation within the medial prefrontal cortex by local administration of the dopamine receptor agonist apomorphine (9 microg/side) on prepulse inhibition and latent inhibition, as well as on spontaneous and amphetamine-induced activity. Apomorphine infusions decreased spontaneous locomotor activity and blocked amphetamine-induced increase in locomotor activity in the open field, which is in line with the suggestion that dopamine receptor activation in the medial prefrontal cortex inhibits mesolimbic dopamine activity. However, apomorphine infusions induced a disruption of prepulse inhibition, an effect associated with increased dopaminergic activity in the nucleus accumbens, and left the latent inhibition effect intact. While these results support previous evidence that the medial prefrontal cortex is a component of the neural circuitry mediating prepulse inhibition but plays no role in latent inhibition, they show that dopamine receptor activation in the medial prefrontal cortex of the rat produces behavioural outcomes that cannot be explained by postulating a simple reciprocal relationship between the mesocortical and mesolimbic dopamine systems.
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PMID:Dissociative effects of apomorphine infusions into the medial prefrontal cortex of rats on latent inhibition, prepulse inhibition and amphetamine-induced locomotion. 1061 95

Neuropeptide Y (NPY) has an important role in the regulation of stress responses and feeding behaviour. There is evidence that some effects elicited by NPY occur due to modulation of action of regular neurotransmitters. The main objective of the present study was to test behavioural effects of the novel neuropeptide Y (NPY) Y(1) receptor antagonist (R)-N-[[4-(aminocarbonylaminomethyl)-phenyl]methyl]-N(2)-(diphe nylacetyl)-argininamide trifluoroacetate (BIBO 3304) on dopamine-dependent behaviour. Intracerebroventricular administration of BIBO 3304 (1, 10, 50 nmol) had no effect on locomotor activity as measured by number of rearings and number of squares visited in an open field test in rats, but at 50 nmol dose defecation was significantly increased. BIBO 3304 (10 nmol) reduced amphetamine-induced increases in horizontal and vertical activity whereas its S-configurated enantiomer BIBO 3457 was inactive. In an open field test BIBO 3304 (10 nmol) inhibited purposeless running in rats sensitized to direct dopaminergic agonist apomorphine (0.5 mg/kg, s.c.). BIBO 3304 (10 nmol but not 1 nmol, i.c.v.) reduced fighting in apomorphine-induced aggression paradigm. Apomorphine-induced aggression was reduced by another, structurally similar, but less potent NPY Y(1) receptor antagonist BIBP 3226 (10 nmol, i.c.v.). A lower dose of BIBP 3226 (1 nmol, i.c.v.) was inactive. Concomitant administration of BIBO 3304 (10 nmol) with low doses of apomorphine (0.5 mg/kg s.c.) over the course of 10 days failed to prevent the development of apomorphine-induced aggressiveness. These data demonstrate that behavioural response to indirectly (amphetamine) and directly (apomorphine) acting dopaminergic stimulants is inhibited by NPY Y(1) receptor antagonists and suggest that NPY Y(1) receptor activation might be important in pathophysiology of disorders associated with hyperactivity of dopaminergic pathways, such as psychosis, schizophrenia and drug abuse. We propose that the effects of BIBO 3304 on amphetamine/apomorphine-induced locomotion and apomorphine-induced aggressiveness are due to modulation of postsynaptic dopaminergic responses rather than direct effects of NPY Y(1) receptor antagonists on dopamine or NPY release.
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PMID:Inhibition of amphetamine- and apomorphine-induced behavioural effects by neuropeptide Y Y(1) receptor antagonist BIBO 3304. 1076 Mar 71

Sensorimotor gating, measured by prepulse inhibition (PPI) of the startle reflex, is reduced in schizophrenia patients and in rats treated with dopamine agonists. Strain and substrain differences in the sensitivity to the PPI-disruptive effects of dopamine agonists may provide insight into the genetic basis for human population differences in sensorimotor gating. We have reported greater sensitivity to the PPI-disruptive effects of the D1/D2 agonist apomorphine in Harlan Sprague-Dawley (SDH) vs Wistar (WH) rats. In the present study, we assessed the inheritance pattern of this phenotypic difference. Sensitivity to the PPI-disruptive effects of apomorphine was compared across parental SDH and WH strains, offspring (F1) of an SDH x WH cross, and subsequent offspring (N2) of an SDH x F1 cross. Apomorphine sensitivity followed a gradient of SDH>N2>F1>WH. Parental SDH and WH strains exhibited comparable sensitivity to the PPI-disruptive effects of phencyclidine. The nature of this gradient of APO sensitivity suggests relatively simple additive effects of multiple genes on the phenotype of PPI sensitivity.
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PMID:Sensitivity to sensorimotor gating-disruptive effects of apomorphine in two outbred parental rat strains and their F1 and N2 progeny. 1258 75

Epidemiological studies have reported that the risk of developing schizophrenia increases with the number of genes one shares with patients suffering from schizophrenia [Gottesman Schizophrenia Genesis, New York: Freeman; 1991]. In addition, stressful life events are known to increase the risk of developing schizophrenia [Schizophr Res 30 (1998) 251] resulting in the stress hypothesis of schizophrenia. Remarkably, stress increases the release of dopamine and noradrenaline in the nucleus accumbens [Brain Res 554 (1991) 217], which links the stress hypothesis with the known dopamine hypothesis of schizophrenia. Additionally an increased dopamine transmission in the nucleus accumbens (Nacc) is known to disturb prepulse inhibition (ppi) [Pharmacol Biochem Behav 49 (1994) 155], a phenomenon observed in, among others, schizophrenics [Arch Gen Psychiatry 47 (1990) 181]. Some years ago we have genetically selected two rat-lines which are marked by a high (APO-SUS) and by a low (APO-UNSUS) apomorphine susceptibility. Similar to schizophrenics the APO-SUS rat-line shows a reduced ppi [J Neurosci 15 (1995) 7604]. However, these data were obtained after a period of mild stress, namely a 24-h period of social isolation. Mild stress changes the line specific differences of APO-SUS and APO-UNSUS rats. The stress pushes the APO-SUS rat in the direction of an APO-UNSUS and vice versa, especially as far as it concerns the dopamine and noradrenaline activity in the nucleus accumbens [Cools AR, van-den Bos R, Ellenbroek BA, Gaiting function of noradrenaline in the ventral striatum: its role in behavioural responses to environmental and pharmacological challenges. In: Willner P, Scheel-Kruger J, editors. The mesolimbic dopamine system: from motivation to action. New York: Wiley; 1991 [Chapter 6]; Cools AR, Rots NY, De-Kloet ER, Apomorphine-susceptible and apomorphine-unsusceptible Wistar rats: a new tool in the search for the function of striatum in switching behavioural strategies. In: Pea G (Ed.), The basal ganglia IV, New York: Plenum Press; 1994; Brain Res Bull 24 (1990) 49; Behav Neurosci 108 (1994) 1107]. Therefore, in the present paper we investigated the ppi response in non-stressed, i.e. non-isolated APO-SUS and APO-UNSUS rats. In agreement with this hypothesis, we found that removal of the stress led to an increase of ppi in the APO-SUS, but a decrease in the APO-UNSUS. These data clearly shows that the ppi is stress-dependent in APO-SUS and APO-UNSUS rats. It is suggested that the differential stress-induced change in the dopaminergic and the noradrenergic system influences the reaction of APO-SUS and APO-UNSUS rats on ppi.
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PMID:Removal of short-term isolation stress differentially influences prepulse inhibition in APO-SUS and APO-UNSUS rats. 1274 53

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