Schizophrenia and Substance Abuse Comorbidity: Nicotine Addiction and the Neonatal Quinpirole Model

Brown, Russell W., Maple, Amanda M., Perna, Marla K., Sheppard, A. Brianna, Cope, Zackary A., Kostrzewa, Richard M

01 September 2012

This review focuses on nicotine comorbidity in schizophrenia, and the insight into this problem provided by rodent models of schizophrenia. A particular focus is on age differences in the response to

animal model

dopamine

drugs of abuse

neonatal quinpirole model

psychiatric disorders

Biomedical Sciences

Neurosciences

Substance Abuse and Addiction

Vliv klomipraminu a risperidonu na učení a flexibilitu u animálního modelu obsedantně kompulzivní poruchy / Vliv klomipraminu a risperidonu na učení a flexibilitu u animálního modelu obsedantně kompulzivní poruchy

Radostová, Dominika

January 2015

Chronic sensitization of dopamine D2/D3 receptors by agonist quinpirole (QNP) induces compulsive checking behaviour in rats, which is considered an animal model of obsessive-compulsive disorder (OCD). Previous study revealed deficit in cognitive flexibility in QNP sensitized rats. This thesis focused on determining if this cognitive flexibility deficit is ameliorated by co-administration of clomipramine (CMI), risperidone (RIS) or combination of both (CMI+RIS) to QNP treatment. Aversively motivated active place avoidance task on a Carousel maze with reversal was used. The number of entrances into a to-be-avoided shock sector was evaluated as measure of performance. Six treatment groups were used: control group, QNP group, CMI group, QNP/CMI combination, QNP/RIS combination and QNP/CMI/RIS combination. Surprisingly, when compared alone, significantly worse acquisition was observed for QNP group compared to control group. However, similarly to previous study, QNP group had a worse performance in a first reversal session compared to control group. When all groups were compared, only QNP/CMI group had worse initial learning compared to control group. In reversal learning, only QNP treated group had a significantly more entrances than control group in first reversal session. Results suggest that co-treatment...

An Analysis of Nicotine Conditioned Place Conditioning in Early Postweanling and Adolescent Rats Neonatally Treated with Quinpirole

Perna, Marla K., Henderson, Yoko O., Bruner, Christopher L., Brown, Russell W.

20 June 2011

This study investigated nicotine place conditioning in early postweanling and adolescent male and female rats neonatally treated with quinpirole, a dopamine D(2)/D(3) agonist. Previous research has shown that neonatal quinpirole treatment results in an increase of dopamine D(2)-like receptor sensitivity that persists throughout the animal's lifetime, relevant to psychosis. Rats were neonatally treated with quinpirole or saline from postnatal day (P)1-21, and animals were conditioned with nicotine or saline daily from P23-30 as early postweanlings or P32-39 as adolescents in a two- or three-chambered place conditioning apparatus. A drug free test was given on P31 for early postweanlings, and P40 for adolescents. Results on the two chamber apparatus revealed that nicotine increased time spent in the drug-paired context at both ages tested. Neonatal quinpirole treatment resulted in less time spent in the drug-paired context in early postweanling males and increased time spent in the drug-paired context in adolescent females conditioned with nicotine. Adolescent females neonatally treated with saline and conditioned with nicotine on the two chamber apparatus did not differ from controls. On the three-chambered apparatus, nicotine increased time spent in the drug-paired context in both ages tested, which was blocked by neonatal quinpirole in early postweanling males, but enhanced by neonatal quinpirole treatment in adolescents. These results demonstrate both age and sex differences in the effects of nicotine and point to significant differences in performance depending on the apparatus used. Additionally, neonatal quinpirole enhanced the effects of nicotine, but this is true only in adolescents and task-dependent.

Quinpirole

rats

Sprague-Dawley

conditioning

operant

Biomedical Sciences

Neurosciences

Pharmacy and Pharmaceutical Sciences

Substance Abuse and Addiction

Ontogenetic Quinpirole Treatments Produce Spatial Memory Deficits and Enhance Skilled Reaching in Adult Rats

Brown, Russell W., Gass, Justin T., Kostrzewa, Richard M.

01 June 2002

There is a paucity of data on neurochemical abnormalities and associated effects on cognition and motor performance in rats ontogenetically treated with quinpirole, a rodent model of dopaminergic hyperfunction. The objective of the current study was to analyze the cognitive and motor effects produced by ontogenetic administration of quinpirole, a dopamine D2/D3 receptor agonist. Past research from this laboratory has shown that ontogenetic quinpirole treatment sensitizes D2 receptors and produces a variety of characteristic stereotypic behaviors in adult rats. In the current study, rats received quinpirole HCl (1 mg/kg/day) or saline from postnatal day (PD) 1 to PD 11 and went otherwise untreated until adulthood (PD 60). In Experiment 1, cognitive performance was assessed on the standard and matching-to-place versions of the Morris water task (MWT). In Experiment 2, skilled motor performance was assessed on the Whishaw reaching task and locomotor activity was also analyzed. We found that ontogenetically quinpirole-treated rats displayed a deficit on the probe trial given at the end of training of the standard version of the MWT but that there were no significant differences from control on the matching-to-place task. Additionally, rats treated in ontogeny with quinpirole showed significant enhancement in reaching accuracy on the Whishaw reaching task as well as increased locomotor activity relative to saline controls. These findings demonstrate that ontogenetic quinpirole treatments produce cognitive deficits, enhanced skilled reaching and hyperlocomotion. The behavioral changes produced by ontogenetic quinpirole treatment are consistent with dopaminergic hyperfunction, and possible mechanisms are discussed.

Quinpirole

development

cognitive deficits

skilled reaching

Biomedical Sciences

Neurosciences

Pharmacy and Pharmaceutical Sciences

Substance Abuse and Addiction

Ontogenetic Quinpirole Treatment Produces Long-Lasting Decreases in the Expression of RGS9, but Increases RGS17 in the Striatum, Nucleus Accumbens and Frontal Cortex

Maple, Amanda M., Perna, Marla K., Parlaman, Joshua P., Stanwood, Gregg D., Brown, Russell W.

01 November 2007

Ontogenetic treatment of rats with the dopamine D(2)-like receptor agonist quinpirole produces a significant increase in dopamine D(2) receptor sensitivity that persists throughout the animal's lifetime, a phenomenon known as D(2) priming. The present study was designed to investigate the effects of priming of the D(2) receptor on the expression of three different members of the regulator of G-protein signaling (RGS) family: Rgs4, Rgs9 and Rgs17. Male offspring were ontogenetically treated with quinpirole or saline from postnatal days (P)1-21 and raised to adulthood. On approximately P65, animals were given an acute quinipirole injection (0.1 mg/kg) and the number of yawns was recorded for 1 h after the injection. Yawning has been shown to be a behavioural event mediated by the dopamine D(2)/D(3) receptor. Animals ontogenetically treated with quinpirole demonstrated a significant 2.5-fold increase in yawning as compared to controls. Rgs transcripts were analysed through in situ hybridization several weeks later. Rats ontogenetically treated with quinpirole demonstrated a significant decrease in Rgs9 expression in the frontal cortex, but a more robust decrease in the striatum and nucleus accumbens as compared to controls. Regarding Rgs17, ontogenetic quinpirole produced a modest but significant increase in expression in the same brain areas. There were no significant differences in Rgs4 expression produced by drug treatment in any of the brain regions analysed. This study demonstrates that ontogenetic quinpirole treatment, which results in priming of the D(2) receptor, results in significant decreases in Rgs9, which has been shown to regulate G-protein coupling to D(2) receptors.

otogenetic

quinpirole treatment

Biomedical Sciences

Neurosciences

Pharmacy and Pharmaceutical Sciences

Substance Abuse and Addiction

Adulthood Olanzapine Treatment Fails to Alleviate Decreases of Chat and BDNF RNA Expression in Rats Quinpirole-Primed as Neonates

Brown, Russell W., Perna, Marla K., Maple, Amanda M., Wilson, Tracy D., Miller, Barney E.

20 March 2008

Neonatal quinpirole (dopamine D(2)/D(3) agonist) treatment to rats has been shown to increase dopamine D(2) receptor sensitivity throughout the animal's lifetime. Male and female Sprague-Dawley rats were neonatalally treated with quinpirole (1 mg/kg) from postnatal days (P) 1-21 and raised to adulthood. Beginning on P62, rats were administered the atypical antipsychotic olanzapine (2.5 mg/kg) twice daily for 28 days. Starting 1 day after the end of olanzapine treatment, animals were behaviorally tested on the place and match-to-place version of the Morris water maze (MWM) over seven consecutive days, and a yawning behavioral test was also performed to test for sensitivity of the D(2) receptor 1 day following MWM testing. Similar to results from a past study, olanzapine alleviated cognitive impairment on the MWM place version and increases in yawning produced by neonatal quinpirole treatment. Brain tissue analyses showed that neonatal quinpirole treatment resulted in a significant decrease of hipppocampal ChAT and BDNF RNA expression that were unaffected by adulthood olanzapine treatment, although adulthood olanzapine treatment produced a significant increase in cerebellar ChAT RNA expression. There were no significant effects of drug treatment on NGF RNA expression in any brain area. These results show that neonatal quinpirole treatment produced significant decreases of protein RNA expression that is specific to the hippocampus. Although olanzapine alleviated cognitive deficits produced by neonatal quinpirole treatment, it did not affect expression of proteins known to be important in cognitive performance.

Quinpirole

development

cognitive deficits

skilled reaching

Biomedical Sciences

Neurosciences

Pharmacy and Pharmaceutical Sciences

Substance Abuse and Addiction

Ontogenetic Quinpirole Treatment Produces Spatial Memory Deficits and Reaching Accuracy Enhancement in Rats

Brown, Russell W., Gass, J. T., Click, Ivy A., Thacker, S. K., Norris, R. L., Brown, Russell W., Kostrzewa, Richard M.

12 November 2001

Past studies have shown that ontogenetic treatment of quinpirole (QNP) produces a number of behavioral effects that can be alleviated by administration of antipsychotics such as haloperidol, providing a useful behavioral screen for disorders such as schizophrenia. In this study, 16 female Sprague-dawley rats were used, with 8 rats injected with QNP(1 mg/kg) and 8 rats injected with saline once daily from postnatal days (PD) 1-11. All rats were behaviorally tested as adults on several tasks: The reference and working memory versions of the Morris water task (MWT), the radial arm maze (RAM), the Whishaw reaching task, and locomotor activity. Results showed that on the MWT, QNP-treated rats demonstrated significant enhancement on acquisition latency of both versions, but a deficit on the probe trial of the reference memory version. The acquisition enhancement was due to hyperlocomotion observed in QNP-treated rats, because these animals demonstrated increased locomotion in an activity chamber compared to controls. On the RAM, QNP-treated rats demonstrated a deficit in reference memory but not working memory, congruent with MWT findings. Interestingly, QNP-treated rats demonstrated a significant enhancement in reaching accuracy on the Whishaw reaching task, which may due to an overactive dopaminergic system. Future studies will analyze underlying mechanisms.

rats

accuracy enhancement

spatial memory deficits

ontogenetic quinpirole treatment

Family Medicine

Biomedical Sciences

Family Medicine

Enhanced Quinpirole Response in Rats Lesioned Neonatally With 5,7-Dihydroxytryptamine

Brus, Ryszard, Plech, Andrzej, Kostrzewa, Richard M.

01 January 1995

The ontogenic destruction of dopamine (DA) neurons in rat brain is associated with supersensitization of DA D1 receptors. This effect is attenuated when rats are cotreated in ontogeny with the serotonin (5-HT) neurotoxin, 5,7-dihydroxytryptamine (5,7-DHT). In an attempt to determine whether 5-HT fibers might have a similar modulatory role on the sensitivity of the DA D2 receptor complex, we pretreated rats with desipramine HCl (20 mg/kg IP, base), 1 h before the DA neurotoxin, 6-hydroxydopamine (6-OHDA; 134 μg ICV, base) and/or 5,7-DHT (75 μg ICV) and/or vehicle. At about 3 months after birth dose-effect curves for quinpirole-induced oral activity were constructed for each group of rats. We found that quinpirole, an agonist for the DA D2 receptor complex, produced a dose-related increase in oral activity in all groups of rats. After a 200 μg/kg dose of quinpirole HCl, however, neonatal 5,7-DHT-lesioned rats had a peak oral response of 54.4 ± 5.1 (mean and SEM) vs. 22.6 ± 4.8 for control rats (p < 0.01). In neonatal 6-OHDA-lesioned rats this dose of quinpirole increased oral activity to 36.8 ± 5.8 oral movements (p < 0.05 vs. control). In rats lesioned with both 5,7-DHT and 6-OHDA, the oral response was not different from control. The enhanced oral response to quinpirole in 5,7-DHT-lesioned rats was attenuated by spiperone, an antagonist for the DA D2 receptor complex. These findings are believed to be the first to demonstrate that receptors of the DA D2 complex become sensitized after ontogenic injury to 5-HT fibers. This effect is opposite to the attenuated sensitivity of DA D1 receptors in rats with a similar 5-HT lesion.

5

7-Dihydroxytryptamine

6-Hydroxydopamine

dopamine

oral activity

quinpirole

receptors

serotonin

supersensitivity

Biomedical Sciences

Low-Dose Quinpirole Ontogenically Sensitizes to Quinpirole-Induced Yawning in Rats

Kostrzewa, Richard M., Brus, Ryszard, Rykaczewska, Monika, Plech, Andrzej

01 January 1993

It is known that dopamine (DA) receptors can be sensitized by repeated treatments with quinpirole during postnatal development. This study was undertaken to determine whether low-dose quinpirole treatments might sensitize receptors to quinpirole-induced yawning behavior. Rats were treated with quinpirole HCl (50 μg/kg per day) or saline at four different periods of ontogeny: a) the 10th day of gestation to day of birth; b) 1st-11th days after birth; c) 12th-22nd days from birth; or d) 23rd-33rd days from birth. The numbers of yawns occuring in 1 h after a challenge dose of quinpirole HCl (50 μg/kg, IP) was determined at 6 weeks. Rats exposed prenatally to quinpirole demonstrated increased numbers of yawns following the third dose of quinpirole (2-day interval between doses). In rats exposed postnatally to quinpirole, there was a 70-300% increase in the yawning response, with the greatest response occuring in the group treated with quinpirole from birth to 11 days from birth. The findings demonstrate that quinpirole receptors are sensitized by a low dose of quinpirole, 60-fold lower than previously shown. It is suggested that sensitized receptors are of the DA D3 subclass.

D receptor 2

D receptor 3

Dopamine

quinpirole

supersensitization

yawning

Biomedical Sciences

Ontogenic Homologous Supersensitization of Quinpirole-Induced Yawning in Rats

Kostrzewa, Richard M., Brus, Ryszard

01 January 1991

Yawning in male rats is a behavior that may be induced by a group of dopamine receptors when low doses of dopamine-receptor agonists are administered. To determine whether agonist treatments during postnatal development could produce a long-lived supersensitization of these dopamine receptors, rats were treated daily for the first 28 days from birth with quinpirole HCl (3.0 mg/kg/day, IP), an agonist that acts at D2 and D3 receptors. At 8 to 10 weeks from birth the dose-effect curve for quinpirole-induced yawning demonstrated that a supersensitization of dopamine receptors for yawning behavior had occurred. Yawning at the optimal dose of quinpirole HCl (100 μg/kg, IP) was increased 2-fold. The Bmax and Kd for D2 receptor binding in rat striatum were unaltered in this group of rats. These findings indicate that dopamine receptors can be ontogenically "primed" or supersensitized, and that the phenomenon apparently is not related to changes in striatal D2 receptor binding characteristics.

dopamine receptors

homologous priming

ontogeny

quinpirole

receptor supersensitization

yawning

Biomedical Sciences