Environmental manipulations of appetitive Pavlovian conditioning

Harmer, Catherine Jane

January 1998

No description available.

150

Isolation-rearing; Amphetamine; Learning

Isolation rearing impairs novel object recognition and attentional set shifting performance in female rats

McLean, Samantha L., Grayson, Ben, Harris, M., Protheroe, C., Bate, S., Woolley, M.L., Neill, Joanna C.

17 July 2008

Yes / It has been suggested that the isolation rearing paradigm models certain aspects of schizophrenia symptomatology. This study aimed to investigate whether isolation rearing impairs rats’ performance in two models of cognition: the novel object recognition (NOR) and attentional set-shifting tasks, tests of episodic memory and executive function, respectively. Two cohorts of female Hooded-Lister rats were used in these experiments. Animals were housed in social isolation or in groups of five from weaning, post-natal day 28. The first cohort was tested in the NOR test with inter-trial intervals (ITIs) of 1 min up to 6 h. The second cohort was trained and tested in the attentional set-shifting task. In the NOR test, isolates were only able to discriminate between the novel and familiar objects up to 1-h ITI, whereas socially reared animals remembered the familiar object up to a 4-h ITI. In the attentional set-shifting task, isolates were significantly and selectively impaired in the extra-dimensional shift phase of the task (P < 0.01). Rats reared in isolation show impaired episodic memory in the NOR task and reduced ability to shift attention between stimulus dimensions in the attentional set-shifting task. Because schizophrenic patients show similar deficits in performance in these cognitive domains, these data further support isolation rearing as a putative preclinical model of the cognitive deficits associated with schizophrenia.

RODENT MODELS OF SCHIZOPHRENIA-LIKE SYMPTOMS INCREASE POLYDIPSIA

Hawken, EMILY

31 October 2012

Primary polydipsia, excessive drinking without known medical cause, continues to occur with a significant prevalence in psychiatric populations. While the etiology of polydipsia remains unknown, the fact that it is significantly associated with a diagnosis of schizophrenia has led some to postulate that the two may share common neurological pathophysiologies. Animal models of schizophrenia-like symptoms have focused on modeling the core behavioral and neurochemical features of the illness, like cognitive deficits and enhanced dopamine transmission. Here, we used three well-established models, including repeated amphetamine treatment, subchronic MK-801 (an N-methyl-D-aspartate [NMDA]-receptor antagonist), and post-weaning social isolation. We also examined a “double-hit” model, combining NMDA-receptor antagonism and social isolation. We paired these models to test the hypothesis that drinking will be enhanced in a paradigm of excessive drinking in the rat. In rodents, non-physiologic drinking can be induced by intermittent presentation of food (e.g., one sugar-pellet a minute) in the presence of a drinking spout to a hungry animal, termed schedule-induced polydipsia (SIP). Animals pretreated with pharmacological or non-pharmacological models of schizophrenia-like symptoms showed significantly increased SIP, The “double hit” model did not further increase drinking above that of either social isolation or MK-801 treatment alone. A moderate amount of spontaneous polydipsia in the homecage of MK-801-treated rats was also observed and resulted in one death secondary to excessive drinking, a phenomenon also found in inpatients with schizophrenia. Following repeated treatment with AMPH, there was some evidence that over time, animals learned to drink increased amounts independently of the scheduled food presentation. This evidence suggests that the excessive drinking behavior observed in polydipsia associated with schizophrenia may have a learned component. In summary, animal models of schizophrenia-like symptoms augmented SIP behavior, showing that polydipsia associated with schizophrenia may be modeled in rodents. As each model has been shown to modify dopamine transmission to some degree, the evidence suggests augmented SIP may reflect changes in dopamine transmission and dopamine may be the common link between polydipsia and schizophrenia. Further research is necessary to fully elucidate the mechanisms underlying SIP, polydipsia and schizophrenia. / Thesis (Ph.D, Neuroscience Studies) -- Queen's University, 2012-10-31 17:43:18.34

MK-801

Schizophrenia

Polydipsia

Schedule-induced polydipsia

Amphetamine

Social Isolation rearing

Neural activity in the prelimbic and infralimbic cortices of freely moving rats during social interaction: Effect of isolation rearing / Social interaction中のラット前辺縁皮質と下辺縁皮質のニューロン活動 : その活動に対する隔離飼育の影響)

Tsukagoshi, Chihiro

26 March 2018

京都大学 / 0048 / 新制・論文博士 / 博士(人間健康科学) / 乙第13171号 / 論人健博第5号 / 新制||人健||4(附属図書館) / 京都大学大学院医学研究科人間健康科学系専攻 / (主査)教授 十一 元三, 教授 木下 彩栄, 教授 伊佐 正 / 学位規則第4条第2項該当 / Doctor of Human Health Sciences / Kyoto University / DFAM

multi-unit activity

social interaction

wireless telemetry system

medial prefrontal cortex

isolation rearing

498

Effects of chronic methamphetamine exposure during early or late phase development in normal and social isolation reared rats / Laetitia Strauss.

Strauss, Laetitia

January 2012

Methamphetamine (MA) abuse is a fast growing drug problem, and is the second most widely abused drug world-wide. MA abuse has been linked to the development of symptoms indistinguishable from schizophrenia, referred to as MA psychosis. MA abusing individuals, who most often comprise adolescents and young adults, are 11 times more likely than the general population to develop psychosis. Of further concern is that in utero exposure to MA is also a growing problem, with more women addicts choosing MA as their primary drug. This has significant implications for the neurodevelopment of the child, with subsequent behavioural deficits later in life. Epidemiological studies suggests that in utero or early life MA exposure places a vulnerable individual at greater risk for developing schizophrenia, although this has never been formerly studied either at clinical or pre-clinical level. Animal models of early life adversity, such as post-weaning social isolation rearing (SIR), can assist in understanding the underlying mechanisms in MA abuse and vulnerability to develop MA psychosis. The aim of the current study was to investigate the long term effects of either prenatal (in utero) or early postnatal administration of MA on the development of schizophrenia-like behavioural and neurochemical abnormalities later in life. In the in utero study, pregnant female Wistar rats received either saline (Sal) or MA 5 mg/kg/day for 16 days by subcutaneous (s.c.) injection , starting on prenatal day 13 (PreND-13) up to postnatal day 2 (PostND02). Male offspring were selected for the study. On PostND 21, the animals were weaned and reared under group or isolation reared conditions for 8 weeks. In the early postnatal study, adult male Wistar rats were divided into group reared and SIR conditions from PostND21. Either group received an escalating dose of MA twice a day (0.2 mg/kg – 6 mg/kg s.c.) or Sal for 16 days, from PostND35 to PostND50. Both in utero and early postnatal groups were then subjected to various behavioural tests on PostND78, including assessment of social interaction (SI) and prepulse inhibition (PPI) of acoustic startle. Following behavioural testing, rats were sacrificed and brains snap frozen for later analysis of cortico-striatal monoamine concentrations, superoxide dismutase activity and lipid peroxidation. In the prenatally exposed group no differences in %PPI was observed, although group reared animals receiving MA and SIR animals receiving Sal or MA showed a decrease in social interactive behaviours, including approaching, time together and anogenital sniffing. SIR animals receiving Sal or MA also showed a decrease in rearing. Regarding self-directed behaviours, group reared animals receiving MA and SIR animals receiving Sal or MA showed an increase in self-grooming. Although some disturbances in regional brain monoamines were observed in the frontal cortex and striatum across the groups, this did not reach significance. A significant increase in malondialdehyde was observed in the striatum in group reared animals receiving MA as well as SIR animals receiving Sal or MA, indicating cell damage, possibly of redox origin. In the early postnatal study, %PPI was significantly reduced in group reared animals receiving MA as well as in SIR animals receiving Sal or MA. Group reared animals receiving MA and SIR animals receiving Sal or MA showed a decrease in social interactive behaviours, including rearing, approaching, time together and anogenital sniffing. Regarding self-directed behaviours and locomotor activity, self-grooming and squares crossed was significantly increased in group reared animals receiving MA and SIR animals receiving Sal or MA. A significant increase in DA was evident in the frontal cortex of SIR and grouped housed animals receiving MA. DA in the MA + SIR combination was elevated but not significantly so. None of the treatments affected striatal monoamine levels. In the group reared animals receiving MA as well as the SIR animals receiving Sal or MA, a significant decrease in SOD activity was observed in the frontal cortex, indicating the presence of oxidative stress in this brain region. None of the parameters indicated an additive effect in MA + SIR treated animals. In conclusion, prenatal exposure to MA led to some evidence of late-life behavioural and neurochemical abnormalities akin to schizophrenia, confirming its penchant for psychotogenic effects. However, chronic postnatal MA exposure was more emphatic, being as effective as SIR, a neurodevelopmental model of schizophrenia, in inducing deficits in the above-mentioned behavioural and neurochemical parameters. Thus, early adolescent abuse of MA is a significant risk factor for the later development of schizophrenia or psychosis. However, the risk appeared not to be exacerbated in a population at risk, i.e. in SIR animals. / Thesis (MSc (Pharmacology))--North-West University, Potchefstroom Campus, 2013.

Social isolation rearing

methamphetamine

Wistar rat,

prepulse inhibition

social interaction

psychosis

schizophrenia

monoamines

oxidative stress

sosiale isolasie

metamfetamien

Wistar rot

prepulsinhibisie

sosiale interaksie

psigose

psigose

monoamiene

oksidatiewe stres

Effects of chronic methamphetamine exposure during early or late phase development in normal and social isolation reared rats / Laetitia Strauss.

Strauss, Laetitia

January 2012

Methamphetamine (MA) abuse is a fast growing drug problem, and is the second most widely abused drug world-wide. MA abuse has been linked to the development of symptoms indistinguishable from schizophrenia, referred to as MA psychosis. MA abusing individuals, who most often comprise adolescents and young adults, are 11 times more likely than the general population to develop psychosis. Of further concern is that in utero exposure to MA is also a growing problem, with more women addicts choosing MA as their primary drug. This has significant implications for the neurodevelopment of the child, with subsequent behavioural deficits later in life. Epidemiological studies suggests that in utero or early life MA exposure places a vulnerable individual at greater risk for developing schizophrenia, although this has never been formerly studied either at clinical or pre-clinical level. Animal models of early life adversity, such as post-weaning social isolation rearing (SIR), can assist in understanding the underlying mechanisms in MA abuse and vulnerability to develop MA psychosis. The aim of the current study was to investigate the long term effects of either prenatal (in utero) or early postnatal administration of MA on the development of schizophrenia-like behavioural and neurochemical abnormalities later in life. In the in utero study, pregnant female Wistar rats received either saline (Sal) or MA 5 mg/kg/day for 16 days by subcutaneous (s.c.) injection , starting on prenatal day 13 (PreND-13) up to postnatal day 2 (PostND02). Male offspring were selected for the study. On PostND 21, the animals were weaned and reared under group or isolation reared conditions for 8 weeks. In the early postnatal study, adult male Wistar rats were divided into group reared and SIR conditions from PostND21. Either group received an escalating dose of MA twice a day (0.2 mg/kg – 6 mg/kg s.c.) or Sal for 16 days, from PostND35 to PostND50. Both in utero and early postnatal groups were then subjected to various behavioural tests on PostND78, including assessment of social interaction (SI) and prepulse inhibition (PPI) of acoustic startle. Following behavioural testing, rats were sacrificed and brains snap frozen for later analysis of cortico-striatal monoamine concentrations, superoxide dismutase activity and lipid peroxidation. In the prenatally exposed group no differences in %PPI was observed, although group reared animals receiving MA and SIR animals receiving Sal or MA showed a decrease in social interactive behaviours, including approaching, time together and anogenital sniffing. SIR animals receiving Sal or MA also showed a decrease in rearing. Regarding self-directed behaviours, group reared animals receiving MA and SIR animals receiving Sal or MA showed an increase in self-grooming. Although some disturbances in regional brain monoamines were observed in the frontal cortex and striatum across the groups, this did not reach significance. A significant increase in malondialdehyde was observed in the striatum in group reared animals receiving MA as well as SIR animals receiving Sal or MA, indicating cell damage, possibly of redox origin. In the early postnatal study, %PPI was significantly reduced in group reared animals receiving MA as well as in SIR animals receiving Sal or MA. Group reared animals receiving MA and SIR animals receiving Sal or MA showed a decrease in social interactive behaviours, including rearing, approaching, time together and anogenital sniffing. Regarding self-directed behaviours and locomotor activity, self-grooming and squares crossed was significantly increased in group reared animals receiving MA and SIR animals receiving Sal or MA. A significant increase in DA was evident in the frontal cortex of SIR and grouped housed animals receiving MA. DA in the MA + SIR combination was elevated but not significantly so. None of the treatments affected striatal monoamine levels. In the group reared animals receiving MA as well as the SIR animals receiving Sal or MA, a significant decrease in SOD activity was observed in the frontal cortex, indicating the presence of oxidative stress in this brain region. None of the parameters indicated an additive effect in MA + SIR treated animals. In conclusion, prenatal exposure to MA led to some evidence of late-life behavioural and neurochemical abnormalities akin to schizophrenia, confirming its penchant for psychotogenic effects. However, chronic postnatal MA exposure was more emphatic, being as effective as SIR, a neurodevelopmental model of schizophrenia, in inducing deficits in the above-mentioned behavioural and neurochemical parameters. Thus, early adolescent abuse of MA is a significant risk factor for the later development of schizophrenia or psychosis. However, the risk appeared not to be exacerbated in a population at risk, i.e. in SIR animals. / Thesis (MSc (Pharmacology))--North-West University, Potchefstroom Campus, 2013.

Social isolation rearing

methamphetamine

Wistar rat,

prepulse inhibition

social interaction

psychosis

schizophrenia

monoamines

oxidative stress

sosiale isolasie

metamfetamien

Wistar rot

prepulsinhibisie

sosiale interaksie

psigose

psigose

monoamiene

oksidatiewe stres

Padrão da atividade locomotora e expressão de EAAC1 e GLT1 no córtex pré-frontal e entorrinal de ratos criados em isolamento a partir do desmame / Pattern of locomotor activity and expression of EAAC1 and GLT1 in prefrontal and entorhinal cortex of rats reared in isolation from weaning

Bosaipo, Nayanne Beckmann

20 July 2012

O estresse por isolamento social aplicado em ratos a partir do desmame e mantido durante o desenvolvimento encefálico tem sido utilizado como um modelo experimental de desordens psiquiátricas como a esquizofrenia. Tem sido demonstrado que o isolamento induz alterações morfológicas, comportamentais (como hiperatividade em um novo ambiente) e neuroquímicas semelhantes àquelas que ocorrem em humanos esquizofrênicos. Evidências sugerem que as sinapses glutamatérgicas sejam o sitio primário das anormalidades que ocorrem na esquizofrenia, sendo as alterações dopaminérgicas secundárias às glutamatérgicas. Nesse sentido, alterações nos mecanismos de regulação desta neurotransmissão pelos transportadores de glutamato podem contribuir para o desenvolvimento e/ou manutenção da esquizofrenia. Neste estudo analisamos o padrão de atividade locomotora e a expressão de transportadores de glutamato (EAAC1 e GLT1) no córtex pré-frontal e córtex entorrinal de ratos criados em isolamento a partir do desmame. Ratos Wistar machos (PND21) foram aleatoriamente alocados em 2 grupos (n=11-12): controle (agrupados, 3 animais/caixa) ou isolados (1 animal/caixa) por 10 semanas. Os animais foram testados no campo aberto (arena) durante 20 min. e registrados: números de cruzamentos (exploração horizontal), número de levantamentos (exploração vertical) e tempo despendido, tanto no centro como na periferia da arena. Os grupos foram comparados utilizando ANOVA ou teste t de Student (significante quando p 0.05). Os animais foram anestesiados (uretana-Sigma, 25%, 5ml/kg), perfundidos e os encéfalos retirados, congelados e posteriormente utilizados nos experimentos de imunoistoquímica. Secções (40m) do córtex pré-frontal (CPF) e córtex entorrinal (CE) foram utilizadas para o estudo da expressão de EAAC1 e GLT1. A criação em isolamento induziu hiperatividade, com um aumento no número total de cruzamentos em relação aos animais agrupados (F1,22=0,38; p<0,05), sendo mais consistente na periferia da arena e após 5 minutos de teste (73%, (F1,22=14,08; p<0,001). Em contraste, o isolamento induziu redução no número total de levantamentos (F1,22=0,27; p=0,05), principalmente no centro da arena (58%, F1,22=12,48; p<0,01), nos primeiros 15 minutos de teste e significante no 1° e 3° blocos de tempo (BT1 e BT3). Na periferia o isolamento induziu aumento significante no número de levantamentos em BT2 e BT3. O tempo despendido no centro e na periferia da arena pelos animais criados em isolamento foi, respectivamente, reduzido (54%; F1,22=11,11; p<0,001) e aumentado (65%; F1,22=11,20; p<0,01) quando comparados aos animais agrupados. A expressão de EAAC1 foi significantemente aumentada pelo isolamento no CPF (38%, t= 2,730, p=0,017). Em contraste, nenhuma diferença foi encontrada no CE (t= 1,892; p= 0,081). O isolamento não induziu alteração no número de células imunopositivas para GLT1 no CPF (t=-1,28; p=0,21). Entretanto, marcação fluorescente de GLT1 foi observada associada a células gliais e neuroniais do CPF e CE. Os resultados comportamentais sugerem: i) ratos Wistar criados em isolamento social apresentam hiperatividade em novo ambiente; ii) a hiperatividade locomotora somente é detectável após períodos maiores que cinco minutos de exposição a um novo ambiente; iii) o padrão de exploração apresentado pelos animais demonstra clara preferência pela periferia da arena. Os resultados moleculares fornecem evidências para a participação dos transportadores de glutamato na redução da neurotransmissão glutamatérgica no CPF de ratos criados em isolamento a partir do desmame. / Isolation rearing of rats from weaning has been used as an experimental model of psychiatric disorders like schizophrenia. It has been demonstrated that isolation induces morphological, behavioral (like hyperactivity in a novel environment) and neurochemical changes similar to those reported for humans with schizophrenia. Evidence suggest that glutamatergic synapses might be the site of primary abnormalities in this disorder with the dopaminergic changes being secundary to the glutamatergic ones. In this context, changes on the mechanisms of regulation of the glutamatergic neurotransmission through glutamate transporters may contribute to the development and/or maintenance of schizophrenia. In this study we analyzed the pattern of locomotor activity and the expression of glutamate transporters (EAAC1 and GLT1) in prefrontal cortex and entorhinal cortex of rats reared in social isolation from weaning. Male Wistar rats (PND 21) were randomly allocated in 2 groups (n=11-12): control (grouped, 3 animals/cage) or isolated (1 animal/cage) for 10 weeks. The animals were tested in the open field (arena) for 20min. and recorded: number of crossings (horizontal exploration), number of rearings (vertical exploration) and time spent either at the center or at the periphery of the arena. The groups were compared using ANOVA or Sudents \"t\" test (significance level was set at p 0.05). The animals were anesthetized (urethane-Sigma, 25%, 5ml/kg), perfused and the brains removed, frozen and further used on the experiments of immunohistochemistry. Sections (40m) of the prefrontal córtex (PFC) and entorhinal córtex (EC) were used for studying the expression of EAAC1 and GLT1. Isolation rearing induced hyperactivity, with an increase in the number of crossings related to grouped animals (F1,22=0,38; p<0,05), being more consistent at the periphery of the arena and after 5 minutes of test (F1,22=14,08; p<0,001). In contrast, isolation induced a decrease in the total number of rearings (F1,22=0,27; p=0,05), mainly in the center of the arena (58%, F1,22=12,48; p<0,01), in the first 15 minutes of test and significant on the 1st and 3rd blocks of time (BT1 e BT3). In the periphery isolation induced a significant increase in the number of rearings in BT2 and BT3. The time spent in both center and periphery of the arena by the rats reared in isolation was, respectively, decreased (54%; F1,22=11,11; p<0,01) and increased (65%; F1,22=11,20; p<0,01) when compared to grouped rats. The expression of EAAC1 was significantly increased by isolation in PFC (38%, t = 2,730, p = 0,017). In contrast, no change was found in EC (t = 1,892, p = 0,081). Isolation rearing did not induce alterations in the number of immunopositive cells for GLT1 in PFC (t= -1,28; p = 0,21). However, fluorescent labeling of GLT1 was seen associated to both glial cells and neuronal cells. The behavioral results suggest: i) Wistar rats reared in social isolation present hyperactivity in a novel environment; ii) the hyperactivity is only detectable after periods longer than 5 minutes; iii) the pattern of exploration showed by the animals demonstrate clear preference for the periphery of the arena. The molecular results provide evidence for the involvement of glutamate transporters on the reduction of glutamatergic neurotranmission in PFC of rats reared in isolation from weaning.

Atividade Locomotora

Campo aberto

Córtex entorrinal.

Córtex pré-frontal

EAAC1

EAAC1

Entorhinal cortex.

Esquizofrenia

GLT1

GLT1

Immunohistochemistry

Imunoistoquímica

Isolamento social

Isolation rearing

Locomotor activity

Open field.

Prefrontal cortex

Schizophrenia

Padrão da atividade locomotora e expressão de EAAC1 e GLT1 no córtex pré-frontal e entorrinal de ratos criados em isolamento a partir do desmame / Pattern of locomotor activity and expression of EAAC1 and GLT1 in prefrontal and entorhinal cortex of rats reared in isolation from weaning

Nayanne Beckmann Bosaipo

20 July 2012

O estresse por isolamento social aplicado em ratos a partir do desmame e mantido durante o desenvolvimento encefálico tem sido utilizado como um modelo experimental de desordens psiquiátricas como a esquizofrenia. Tem sido demonstrado que o isolamento induz alterações morfológicas, comportamentais (como hiperatividade em um novo ambiente) e neuroquímicas semelhantes àquelas que ocorrem em humanos esquizofrênicos. Evidências sugerem que as sinapses glutamatérgicas sejam o sitio primário das anormalidades que ocorrem na esquizofrenia, sendo as alterações dopaminérgicas secundárias às glutamatérgicas. Nesse sentido, alterações nos mecanismos de regulação desta neurotransmissão pelos transportadores de glutamato podem contribuir para o desenvolvimento e/ou manutenção da esquizofrenia. Neste estudo analisamos o padrão de atividade locomotora e a expressão de transportadores de glutamato (EAAC1 e GLT1) no córtex pré-frontal e córtex entorrinal de ratos criados em isolamento a partir do desmame. Ratos Wistar machos (PND21) foram aleatoriamente alocados em 2 grupos (n=11-12): controle (agrupados, 3 animais/caixa) ou isolados (1 animal/caixa) por 10 semanas. Os animais foram testados no campo aberto (arena) durante 20 min. e registrados: números de cruzamentos (exploração horizontal), número de levantamentos (exploração vertical) e tempo despendido, tanto no centro como na periferia da arena. Os grupos foram comparados utilizando ANOVA ou teste t de Student (significante quando p 0.05). Os animais foram anestesiados (uretana-Sigma, 25%, 5ml/kg), perfundidos e os encéfalos retirados, congelados e posteriormente utilizados nos experimentos de imunoistoquímica. Secções (40m) do córtex pré-frontal (CPF) e córtex entorrinal (CE) foram utilizadas para o estudo da expressão de EAAC1 e GLT1. A criação em isolamento induziu hiperatividade, com um aumento no número total de cruzamentos em relação aos animais agrupados (F1,22=0,38; p<0,05), sendo mais consistente na periferia da arena e após 5 minutos de teste (73%, (F1,22=14,08; p<0,001). Em contraste, o isolamento induziu redução no número total de levantamentos (F1,22=0,27; p=0,05), principalmente no centro da arena (58%, F1,22=12,48; p<0,01), nos primeiros 15 minutos de teste e significante no 1° e 3° blocos de tempo (BT1 e BT3). Na periferia o isolamento induziu aumento significante no número de levantamentos em BT2 e BT3. O tempo despendido no centro e na periferia da arena pelos animais criados em isolamento foi, respectivamente, reduzido (54%; F1,22=11,11; p<0,001) e aumentado (65%; F1,22=11,20; p<0,01) quando comparados aos animais agrupados. A expressão de EAAC1 foi significantemente aumentada pelo isolamento no CPF (38%, t= 2,730, p=0,017). Em contraste, nenhuma diferença foi encontrada no CE (t= 1,892; p= 0,081). O isolamento não induziu alteração no número de células imunopositivas para GLT1 no CPF (t=-1,28; p=0,21). Entretanto, marcação fluorescente de GLT1 foi observada associada a células gliais e neuroniais do CPF e CE. Os resultados comportamentais sugerem: i) ratos Wistar criados em isolamento social apresentam hiperatividade em novo ambiente; ii) a hiperatividade locomotora somente é detectável após períodos maiores que cinco minutos de exposição a um novo ambiente; iii) o padrão de exploração apresentado pelos animais demonstra clara preferência pela periferia da arena. Os resultados moleculares fornecem evidências para a participação dos transportadores de glutamato na redução da neurotransmissão glutamatérgica no CPF de ratos criados em isolamento a partir do desmame. / Isolation rearing of rats from weaning has been used as an experimental model of psychiatric disorders like schizophrenia. It has been demonstrated that isolation induces morphological, behavioral (like hyperactivity in a novel environment) and neurochemical changes similar to those reported for humans with schizophrenia. Evidence suggest that glutamatergic synapses might be the site of primary abnormalities in this disorder with the dopaminergic changes being secundary to the glutamatergic ones. In this context, changes on the mechanisms of regulation of the glutamatergic neurotransmission through glutamate transporters may contribute to the development and/or maintenance of schizophrenia. In this study we analyzed the pattern of locomotor activity and the expression of glutamate transporters (EAAC1 and GLT1) in prefrontal cortex and entorhinal cortex of rats reared in social isolation from weaning. Male Wistar rats (PND 21) were randomly allocated in 2 groups (n=11-12): control (grouped, 3 animals/cage) or isolated (1 animal/cage) for 10 weeks. The animals were tested in the open field (arena) for 20min. and recorded: number of crossings (horizontal exploration), number of rearings (vertical exploration) and time spent either at the center or at the periphery of the arena. The groups were compared using ANOVA or Sudents \"t\" test (significance level was set at p 0.05). The animals were anesthetized (urethane-Sigma, 25%, 5ml/kg), perfused and the brains removed, frozen and further used on the experiments of immunohistochemistry. Sections (40m) of the prefrontal córtex (PFC) and entorhinal córtex (EC) were used for studying the expression of EAAC1 and GLT1. Isolation rearing induced hyperactivity, with an increase in the number of crossings related to grouped animals (F1,22=0,38; p<0,05), being more consistent at the periphery of the arena and after 5 minutes of test (F1,22=14,08; p<0,001). In contrast, isolation induced a decrease in the total number of rearings (F1,22=0,27; p=0,05), mainly in the center of the arena (58%, F1,22=12,48; p<0,01), in the first 15 minutes of test and significant on the 1st and 3rd blocks of time (BT1 e BT3). In the periphery isolation induced a significant increase in the number of rearings in BT2 and BT3. The time spent in both center and periphery of the arena by the rats reared in isolation was, respectively, decreased (54%; F1,22=11,11; p<0,01) and increased (65%; F1,22=11,20; p<0,01) when compared to grouped rats. The expression of EAAC1 was significantly increased by isolation in PFC (38%, t = 2,730, p = 0,017). In contrast, no change was found in EC (t = 1,892, p = 0,081). Isolation rearing did not induce alterations in the number of immunopositive cells for GLT1 in PFC (t= -1,28; p = 0,21). However, fluorescent labeling of GLT1 was seen associated to both glial cells and neuronal cells. The behavioral results suggest: i) Wistar rats reared in social isolation present hyperactivity in a novel environment; ii) the hyperactivity is only detectable after periods longer than 5 minutes; iii) the pattern of exploration showed by the animals demonstrate clear preference for the periphery of the arena. The molecular results provide evidence for the involvement of glutamate transporters on the reduction of glutamatergic neurotranmission in PFC of rats reared in isolation from weaning.

Atividade Locomotora

Campo aberto

Córtex entorrinal.

Córtex pré-frontal

EAAC1

Esquizofrenia

GLT1

Imunoistoquímica

Isolamento social

EAAC1

Entorhinal cortex.

GLT1

Immunohistochemistry

Isolation rearing

Locomotor activity

Open field.

Prefrontal cortex

Schizophrenia