Parallels between Gambling and Amphetamine Reinforcement in Pathological Gamblers and Healthy Controls and the Role of Sensitization

Chugani, Bindiya

21 March 2012

Pathological gambling is a serious disorder with lifetime prevalence between 1.1-3.5%. Evidence suggests commonalities in the neurochemical basis of pathological gambling and psychostimulant addiction. However, parallel effects of gambling and a stimulant drug have not been assessed in the same subjects. This study employed a cross-priming strategy in which 12 male pathological gamblers and 11 male controls were exposed to a 15-minute slot machine game and d-amphetamine (0.4 mg/kg). Subjective, cognitive, electrophysiological, and physiological responses were assessed. Gamblers reported greater desire to gamble after both reinforcers, when baseline motivation was controlled. Conversely, gamblers exhibited diminished cardiovascular response to amphetamine. Gamblers also exhibited decreased pre-pulse inhibition (impaired sensorimotor gating), and deficits on this index predicted greater post-amphetamine desire to gamble and decreased heart rate response to the dose. Results are consistent with possible dopaminergic sensitization in pathological gamblers, but also suggest that central noradrenergic receptor deficits contribute importantly to these effects.

Gambling

Sensitization

Amphetamine

Reinforcement

Prepulse Inhibition

0419

Parallels between Gambling and Amphetamine Reinforcement in Pathological Gamblers and Healthy Controls and the Role of Sensitization

Chugani, Bindiya

21 March 2012

Pathological gambling is a serious disorder with lifetime prevalence between 1.1-3.5%. Evidence suggests commonalities in the neurochemical basis of pathological gambling and psychostimulant addiction. However, parallel effects of gambling and a stimulant drug have not been assessed in the same subjects. This study employed a cross-priming strategy in which 12 male pathological gamblers and 11 male controls were exposed to a 15-minute slot machine game and d-amphetamine (0.4 mg/kg). Subjective, cognitive, electrophysiological, and physiological responses were assessed. Gamblers reported greater desire to gamble after both reinforcers, when baseline motivation was controlled. Conversely, gamblers exhibited diminished cardiovascular response to amphetamine. Gamblers also exhibited decreased pre-pulse inhibition (impaired sensorimotor gating), and deficits on this index predicted greater post-amphetamine desire to gamble and decreased heart rate response to the dose. Results are consistent with possible dopaminergic sensitization in pathological gamblers, but also suggest that central noradrenergic receptor deficits contribute importantly to these effects.

Gambling

Sensitization

Amphetamine

Reinforcement

Prepulse Inhibition

0419

Prepulse Inhibition and the Acoustic Startle Response in Nine Inbred Mouse Strains

O'steen, Jennifer Robin

25 March 2003

This study examined the effects of genetic background on the acoustic startle response (ASR) and its modulation by prepulse inhibition (PPI) by comparing nine inbred strains of mice. The ASR, a jerk-like motor reflex, is elicited by bursts of noise or tones with sound pressure levels of 80-90 dB and greater. PPI is a type of modulation of the ASR, requires no training, and results in observable response in both mice and humans. Data were obtained from nine inbred mouse strains, sixteen per strain, which were shipped at approximately 3-5 weeks old from The Jackson Laboratory. In general, ASRs were generally smaller when the startle stimulus was less intense. PPI was relatively weak for the 4 kHz prepulse, and stronger with prepulses of 12 kHz and 20 kHz. However, means varied widely across strains for both ASR and PPI, suggesting a strong influence of genetic background on these behaviors. In addition to genetic influences, peripheral hearing loss and central auditory processing factors must be taken into consideration.

acoustic startle response

prepulse inhibition

American Studies

Arts and Humanities

Oxidative status in rats exposed to social isolation rearing : behavioral pharmacology studies and relevance for schizophrenia / Marisa Moller

Möller, Marisa

January 2009

PURPOSE: Psychotic (positive) symptoms are the most distinctive feature of schizophrenia, although negative symptoms such as emotional flattening, social withdrawal and cognitive disturbances are the most treatment resistant manifestation of the illness. Schizophrenia is a progressive degenerative illness that has been causally linked to environmental and neurodevelopmental factors, as well as dysfunctional redox balance. Validated animal models are useful in identifying and studying novel neurobiological targets for neuropsychiatric illnesses. Post weaning social isolation rearing (SIR) in rats has been proposed to model the neurodevelopmental aspects of schizophrenia. We validated the SIR model with respect to effects on sensorimotor gating and social interaction, deficits of which are core symptoms of schizophrenia. Following this, effects on the levels of oxidative stress were determined in the frontal cortex and striatum of rats exposed to SIR, two brain regions strongly implicated in the pathology of schizophrenia. Finally, in order to more closely relate these bio-behavioural changes to the human condition, we studied the overall effect of sub-chronic treatment with the atypical antipsychotic, clozapine, on the above described behavioural and neurochemical parameters. METHODS: Male Sprague-Dawley (SD) rats (10 rats/group) were used. In a non-treatment arm, four groups of rats were randomly separated at weaning and exposed to either 8 weeks SIR or 8 weeks social rearing. At the respective time point of 8 weeks two groups were subjected to behavioural testing of mean startle amplitude (at 120dB) and percentage prepulse inhibition (%PPI) of the acoustic startle (AS) reflex (at 72, 76, 80 and 86dB prepulse), and various social interactive and self-directed behaviours were accessed using the open field test (OFT). The remaining two groups were sacrificed at 8 weeks and brain tissue was harvested for analysis of superoxide dismutase activity, oxidized (GSSG) versus reduced (GSH) glutathione ratio, and levels of lipid peroxidation, in the frontal cortex and striatum. In the treatment arm, consisting out of eight groups of animals, four groups of SIR rats received either saline or clozapine (5mg/kg i.p.) for the last 11 days of SIR. The remaining four groups were socially reared and also received either saline or clozapine treatment as above. At 8 weeks, four groups were subjected to behavioural testing as described above and a parallel neurochemical study was performed using the same layout as above, except that after the 8 weeks, neurochemical redox analysis were done as described above. Mixed statistical modelling with repeated measures and appropriate post hoc tests were used to access the effects of SIR with and without treatment on PPI and mean startle. Social interaction in SIR and socially reared animals, with and without treatment, was analyzed using 1-way ANOVA with suitable post hoc testing. Mixed linear models with repeated measures and appropriate post hoc tests were used for analysis of the redox data in SIR and socially reared animals, with and without treatment. RESULTS: In the non-treatment arm, %PPI was significantly reduced in SIR versus socially reared rats. Deficits in various social interactive behaviours were observed in SIR versus group-housed rats, as well as increased locomotor activity and self-grooming. Superoxide dismutase activity and oxidized versus reduced glutathione ratio were significantly decreased, together with a significant increase in products of lipid peroxidation, in isolation reared versus socially reared rats. Following clozapine treatment, %PPI in isolates was significantly elevated by clozapine versus saline treatment (i.e. reversed the effect of SIR). %PPI was unaltered in socially reared animals receiving either treatment. As with the non-treatment group, social interactive behaviours were significantly impaired in isolates receiving saline, while locomotor activity and self-grooming were increased. SIR rats receiving only saline showed similar altered redox state as the non-treatment groups, while clozapine treatment effectively reversed deficits in %PPI, aberrant social behaviours and redox alterations in the SIR rats, with limited to no effects in the socially reared controls. CONCLUSION: SIR thus significantly disrupts sensorimotor gating and social behaviours in male Sprague-Dawley rats, while at the same time evokes a significant disruption of redox state in both the frontal cortex and striatum of these animals, with distinct evidence for increased oxidative stress in these brain regions. Importantly, both altered behaviour and redox state are reversed by sub-chronic clozapine treatment. SIR is therefore a useful, non-lesion and non-pharmacological neurodevelopmental animal model of schizophrenia that presents with robust face, predictive and possibly construct validity for schizophrenia. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2010.

Social isolation

Prepulse inhibition

Social interaction

Clozapine

Schizophrenia animal model

Oxidative status in rats exposed to social isolation rearing : behavioral pharmacology studies and relevance for schizophrenia / Marisa Moller

Möller, Marisa

January 2009

PURPOSE: Psychotic (positive) symptoms are the most distinctive feature of schizophrenia, although negative symptoms such as emotional flattening, social withdrawal and cognitive disturbances are the most treatment resistant manifestation of the illness. Schizophrenia is a progressive degenerative illness that has been causally linked to environmental and neurodevelopmental factors, as well as dysfunctional redox balance. Validated animal models are useful in identifying and studying novel neurobiological targets for neuropsychiatric illnesses. Post weaning social isolation rearing (SIR) in rats has been proposed to model the neurodevelopmental aspects of schizophrenia. We validated the SIR model with respect to effects on sensorimotor gating and social interaction, deficits of which are core symptoms of schizophrenia. Following this, effects on the levels of oxidative stress were determined in the frontal cortex and striatum of rats exposed to SIR, two brain regions strongly implicated in the pathology of schizophrenia. Finally, in order to more closely relate these bio-behavioural changes to the human condition, we studied the overall effect of sub-chronic treatment with the atypical antipsychotic, clozapine, on the above described behavioural and neurochemical parameters. METHODS: Male Sprague-Dawley (SD) rats (10 rats/group) were used. In a non-treatment arm, four groups of rats were randomly separated at weaning and exposed to either 8 weeks SIR or 8 weeks social rearing. At the respective time point of 8 weeks two groups were subjected to behavioural testing of mean startle amplitude (at 120dB) and percentage prepulse inhibition (%PPI) of the acoustic startle (AS) reflex (at 72, 76, 80 and 86dB prepulse), and various social interactive and self-directed behaviours were accessed using the open field test (OFT). The remaining two groups were sacrificed at 8 weeks and brain tissue was harvested for analysis of superoxide dismutase activity, oxidized (GSSG) versus reduced (GSH) glutathione ratio, and levels of lipid peroxidation, in the frontal cortex and striatum. In the treatment arm, consisting out of eight groups of animals, four groups of SIR rats received either saline or clozapine (5mg/kg i.p.) for the last 11 days of SIR. The remaining four groups were socially reared and also received either saline or clozapine treatment as above. At 8 weeks, four groups were subjected to behavioural testing as described above and a parallel neurochemical study was performed using the same layout as above, except that after the 8 weeks, neurochemical redox analysis were done as described above. Mixed statistical modelling with repeated measures and appropriate post hoc tests were used to access the effects of SIR with and without treatment on PPI and mean startle. Social interaction in SIR and socially reared animals, with and without treatment, was analyzed using 1-way ANOVA with suitable post hoc testing. Mixed linear models with repeated measures and appropriate post hoc tests were used for analysis of the redox data in SIR and socially reared animals, with and without treatment. RESULTS: In the non-treatment arm, %PPI was significantly reduced in SIR versus socially reared rats. Deficits in various social interactive behaviours were observed in SIR versus group-housed rats, as well as increased locomotor activity and self-grooming. Superoxide dismutase activity and oxidized versus reduced glutathione ratio were significantly decreased, together with a significant increase in products of lipid peroxidation, in isolation reared versus socially reared rats. Following clozapine treatment, %PPI in isolates was significantly elevated by clozapine versus saline treatment (i.e. reversed the effect of SIR). %PPI was unaltered in socially reared animals receiving either treatment. As with the non-treatment group, social interactive behaviours were significantly impaired in isolates receiving saline, while locomotor activity and self-grooming were increased. SIR rats receiving only saline showed similar altered redox state as the non-treatment groups, while clozapine treatment effectively reversed deficits in %PPI, aberrant social behaviours and redox alterations in the SIR rats, with limited to no effects in the socially reared controls. CONCLUSION: SIR thus significantly disrupts sensorimotor gating and social behaviours in male Sprague-Dawley rats, while at the same time evokes a significant disruption of redox state in both the frontal cortex and striatum of these animals, with distinct evidence for increased oxidative stress in these brain regions. Importantly, both altered behaviour and redox state are reversed by sub-chronic clozapine treatment. SIR is therefore a useful, non-lesion and non-pharmacological neurodevelopmental animal model of schizophrenia that presents with robust face, predictive and possibly construct validity for schizophrenia. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2010.

Social isolation

Prepulse inhibition

Social interaction

Clozapine

Schizophrenia animal model

DISCOVERY OF A NOVEL ANTI-NEUROINFLAMMATORY TREATMENT FOR AUDITORY SENSORIMOTOR GATING IN TWO RODENT MODELS OF SCHIZOPHRENIA

Whicker, Wyatt, Gill, W. Drew, Brown, Russell W.

05 April 2018

Schizophrenia is primarily treated with the use of antipsychotic medications. However, antipsychotics used have severe, dose-dependent side effects in schizophrenia patients. Therefore, there is a need for new adjunctive drugs that lower the effective dose of first line schizophrenia drugs and improve patient symptoms. Neuroinflammation is associated with microglial activation in schizophrenia, and increased tumor necrosis factor-alpha (TNF) has shown to be associated with Metabolic Syndrome in schizophrenia patients. A newly developed anti-neuroinflammatory, PD2024, reduces TNF-alpha action in vitro and in vivo, and has been shown to be well-tolerated in rat and dog studies with no adverse effects. The purpose of this research is to evaluate the effect of PD2024 in two well-defined schizophrenia models in rats. The neonatal quinpirole model has been established through administration of the dopamine D2-like agonist quinpirole (NQ) or saline control (NS) postnatally from days 1-21. NQ treatment results in increases of dopamine D2 receptor sensitivity throughout the animal’s lifetime without changing receptor number, mimicking a hallmark of schizophrenia. The polyinosinic:polycytidylic acid (Poly I:C) model is based on mimicking an increase immune response during early brain development, which has been shown to increase the prevalence of schizophrenia. Poly I:C (2 mg/kg) was administered during the neonatal period at postnatal days (P)5-7 to produce this effect. Both models were given PD2024 at 10mg/kg orally through the diet from P30-67. Prepulse inhibition (PPI) was used to test sensorimotor gating deficits in the rats. PPI has past research showing its use as a quantitative phenotype for evaluating schizophrenia-associated behavioral and neurobiological deficits. In our PPI test, rats are exposed to three different, randomly ordered noise trials. The trials included a pulse trial with a 120-decibel startle pulse, a prepulse trial with an auditory click at 73, 76, or 82-decibels, and a no stimulus trial without any additional noise. The rats were given 25 randomized trials, comprised of 5 pulse, 15 prepulse (5 each of 73, 76, and 82dB) and 5 no stimulus trials. Background noise was 70dB, and the rats were tested during adolescence (days 45-46) and adulthood (60-65). In NQ adolescent rats, PPI was significantly improved in the PD2024-treated compared to NQ controls. NQ-PD2024 and NS rats were statistically equivalent throughout the trials. These results were reflected in the NQ adult model as well. The Poly I:C adolescents treated with PD2024 also demonstrated improved PPI performance compared to Poly I:C controls. This improvement was also shown in the adult Poly I:C rats. Overall, the PPI deficits in both models improved between 15 to 30% in adolescence and adulthood. These results indicate that PD2024 is effective in treating schizophrenia-associated behaviors.

schizophrenia

neuroinflammation

prepulse inhibition

Medical Neurobiology

Medical Sciences

Neurosciences

Behavioral and Neurobiological Evidence of Epigenetic Transmission in the Neonatal Quinpirole Rodent Model of Schizophrenia

Gill, Wesley

01 May 2020

Quinpirole is a dopamine D2 receptor agonist that if administered to rats from postnatal day (P)1-21 results in increased dopamine D2 receptor sensitivity throughout the animal’s lifetime. This increase in receptor sensitivity is consistent with schizophrenia. This model has additional consistencies with human schizophrenia, including sensorimotor gating deficits, enhanced behavioral and neurobiological responses to nicotine, and protein alterations consistent with the disorder. In this study, a second generation of the neonatal quinpirole (NQ) rodent model was created to investigate if long term changes caused by NQ treatment would be passed to offspring. NQ treated rats were mated and their offspring left untreated. To investigate if dopamine D2 receptor hypersensitivity was transmitted from the first to the second generation of the model, yawning behavior was assayed after acute quinpirole treatment. Prepulse inhibition (PPI) is a test of sensorimotor gating, and PPI testing was performed on adolescent second generation rats. Behavioral sensitization and conditioned place preference to nicotine (0.5 mg/kg and 0.6 mg/kg respectively) were examined in adolescence in both generations of the model. Several neurobiological assays were performed in both nicotine naïve and animals sensitized to nicotine (0.5 mg/kg) in order to investigate consistencies with the NQ model, which has shown enhanced responses to nicotine. These include enzyme linked immunosorbent assays (ELISAs) for brain-derived neurotrophic factor (BDNF) and cAMP response element-binding protein (CREB), as well as quantitative PCR (qPCR) to quantify messenger RNA (mRNA) of regulator of G-protein signaling 9 (rgs9). Results indicated that second generation rats of NQ-treated rats demonstrated increased yawning behavior in response to acute quinpirole treatment. PPI deficits and enhanced behavioral responses to nicotine were also observed. Increased BDNF expression was observed in the nucleus accumbens following nicotine sensitization, consistent with past work in first generation NQ-treated rats. CREB expression was also increased in both generations of the model, an effect linked to alterations in PPI and other schizophrenia-like symptomology. Rgs9 expression was generally unaltered in either generation of the model. This study provides basis for utilization of a second generation of the NQ model to study epigenetic influences in schizophrenia and drug abuse vulnerability.

Schizophrenia

Quinpirole

Epigenetic

Dopamine

Prepulse Inhibition

Nicotine

Neurosciences

Prepulse Inhibition of the Startle Reflex in Forebrain Oxytocin Receptor Knockout Mice

Swonger, Jessica M.

26 May 2011

No description available.

Neurosciences

prepulse inhibition

startle reflex

forebrain knockout

oxytocin

Unraveling psychiatric sub-phenotypes: The price of the reduction of myelin basic protein

Poggi, Giulia

08 January 2016

No description available.

570

Myelin Basic Protein (MBP)

Schizophrenia

MRI

Electron microscopy

Prepulse Inhibition

Biologie (PPN619462639)

Behavioural, pharmacological and neurochemical studies of social isolation rearing in rats / Carl Toua

Toua, Carl Christiaan

January 2007

Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2008.

Schizophrenia

NMDA receptor

Social isolation

Dizocilpine

Clozapine

Haloperidol

D1 receptor

Prepulse inhibition

Animal model

Frontal cortex