Envolvimento de mecanismos dopaminérgicos na expressão do medo condicionado contextual em ratos / Involvement of dopaminergic mechanisms in the expression of contextual conditioned fear in rats

Caetano, Kátia Alessandra de Souza

09 April 2012

É reconhecido que as experiências que geram reações de medo são praticamente indeléveis do encéfalo dos organismos e que condicionamentos aversivos suscitam inúmeras respostas defensivas, como o congelamento, sendo esta resposta um indicador de medo em roedores. Vários trabalhos têm apontado para a relação entre alterações na transmissão dopaminérgica e os estados aversivos. Entretanto, observam-se resultados conflitantes com a utilização de drogas dopaminérgicas em diferentes modelos animais de ansiedade. Assim, investigações devem ainda ser realizadas objetivando avaliar a funcionalidade da modulação dopaminérgica nos estados emocionais aversivos. O objetivo do presente estudo foi avaliar o envolvimento de mecanismos dopaminérgicos na expressão do medo condicionado ao contexto. Inicialmente foram avaliados os efeitos de agonistas (SKF 38393 e quimpirole) e antagonistas (SCH 23390 e sulpirida) de receptores D1 e D2 administrados sistemicamente sobre a expressão do medo condicionado contextual, sendo mensurado o tempo de congelamento dos animais. A atividade motora foi avaliada com o teste do campo aberto. Os resultados indicam que os receptores da família D2, e não D1, estão envolvidos na expressão do medo condicionado contextual, uma vez que a administração de quimpirole e sulpirida, mas não de SCH 23390 e SKF 38393, levou a uma diminuição do congelamento condicionado ao contexto. Não houve alterações na atividade motora dos animais. Com base nestes resultados foi levantada a hipótese de que a capacidade da sulpirida e do quimpirole em diminuir o medo condicionado poderia ocorrer devido a uma ação em receptores pós-sinápticos de estruturas do sistema mesocorticolímbico e em autoreceptores da área tegmental ventral (ATV), respectivamente, levando ao efeito comum de diminuição da atividade dopaminérgica. A fim de testar esta hipótese, foram realizadas microinjeções de quimpirole na ATV. Os resultados obtidos mostram uma diminuição da expressão do congelamento condicionado e que os efeitos obtidos com a administração sistêmica desse agonista de receptores D2 provavelmente devem-se a sua ação na ATV. Portanto, a ATV parece atuar na modulação das respostas de medo condicionado e a ativação desta estrutura deve ser importante para a recuperação da aprendizagem aversiva ocorrida no dia do condicionamento. / It is well established that experiences that generate fear reactions are practically unforgettable and that aversive conditioning raises several defensive responses such as freezing, which is an index of fear in rodents. Several studies have pointed to the existence of a relationship between changes in dopaminergic neurotransmission and aversive states. However, there are conflicting results in the literature with the use of dopaminergic drugs in different animal models of anxiety. Thus, further investigations should be conducted to evaluate the importance of dopaminergic modulation of aversive states. The aim of the present study was to evaluate the involvement of dopaminergic neurotransmission in the expression of contextual conditioned fear in rats. Initially, we evaluated the effects of intraperitoneal injections of D1 and D2 receptors agonists (SKF 38393 and quinpirole) and antagonists (SCH 23390 and sulpiride) in the expression of contextual conditioned fear by measuring the time of freezing response of the animals. The motor activity was evaluated in the open field test. The results indicate that the D2 receptors, but not D1 receptors, are involved in the expression of contextual conditioned fear, since administration of quinpirole and sulpiride, but not SCH 23390 and SKF 38393, decreased conditioned freezing to the context. There were no changes in motor activity of animals. Based on these results it was hypothesized that quinpirole and sulpiride probably acted on presynaptic and postsynaptic D2 receptors, respectively, leading to a decrease of dopaminergic neurotransmission in both cases. To test this hypothesis, microinjections of quinpirole were performed into the ventral tegmental area (VTA). The results show a decrease in the expression of conditioned freezing, indicating that the effects obtained with the intraperitoneal administration of the dopamine D2 receptor agonist is probably due to its action in the VTA. Therefore, dopaminergic mechanisms in the VTA seem to be important in the modulation of conditioned fear responses and activation of this structure appears to take place during the fear memory following the context aversive conditioning.

Ansiedade

Anxiety.

Área Tegmental Ventral

Contextual conditioned fear

Dopamina

Dopamine

Dopaminergic receptors

Medo condicionado ao contexto

Quimpirole

Quinpirole

Receptores Dopaminérgicos

Sulpirida

Sulpiride

Ventral tegmental area

Envolvimento de mecanismos dopaminérgicos na expressão do medo condicionado contextual em ratos / Involvement of dopaminergic mechanisms in the expression of contextual conditioned fear in rats

Kátia Alessandra de Souza Caetano

09 April 2012

É reconhecido que as experiências que geram reações de medo são praticamente indeléveis do encéfalo dos organismos e que condicionamentos aversivos suscitam inúmeras respostas defensivas, como o congelamento, sendo esta resposta um indicador de medo em roedores. Vários trabalhos têm apontado para a relação entre alterações na transmissão dopaminérgica e os estados aversivos. Entretanto, observam-se resultados conflitantes com a utilização de drogas dopaminérgicas em diferentes modelos animais de ansiedade. Assim, investigações devem ainda ser realizadas objetivando avaliar a funcionalidade da modulação dopaminérgica nos estados emocionais aversivos. O objetivo do presente estudo foi avaliar o envolvimento de mecanismos dopaminérgicos na expressão do medo condicionado ao contexto. Inicialmente foram avaliados os efeitos de agonistas (SKF 38393 e quimpirole) e antagonistas (SCH 23390 e sulpirida) de receptores D1 e D2 administrados sistemicamente sobre a expressão do medo condicionado contextual, sendo mensurado o tempo de congelamento dos animais. A atividade motora foi avaliada com o teste do campo aberto. Os resultados indicam que os receptores da família D2, e não D1, estão envolvidos na expressão do medo condicionado contextual, uma vez que a administração de quimpirole e sulpirida, mas não de SCH 23390 e SKF 38393, levou a uma diminuição do congelamento condicionado ao contexto. Não houve alterações na atividade motora dos animais. Com base nestes resultados foi levantada a hipótese de que a capacidade da sulpirida e do quimpirole em diminuir o medo condicionado poderia ocorrer devido a uma ação em receptores pós-sinápticos de estruturas do sistema mesocorticolímbico e em autoreceptores da área tegmental ventral (ATV), respectivamente, levando ao efeito comum de diminuição da atividade dopaminérgica. A fim de testar esta hipótese, foram realizadas microinjeções de quimpirole na ATV. Os resultados obtidos mostram uma diminuição da expressão do congelamento condicionado e que os efeitos obtidos com a administração sistêmica desse agonista de receptores D2 provavelmente devem-se a sua ação na ATV. Portanto, a ATV parece atuar na modulação das respostas de medo condicionado e a ativação desta estrutura deve ser importante para a recuperação da aprendizagem aversiva ocorrida no dia do condicionamento. / It is well established that experiences that generate fear reactions are practically unforgettable and that aversive conditioning raises several defensive responses such as freezing, which is an index of fear in rodents. Several studies have pointed to the existence of a relationship between changes in dopaminergic neurotransmission and aversive states. However, there are conflicting results in the literature with the use of dopaminergic drugs in different animal models of anxiety. Thus, further investigations should be conducted to evaluate the importance of dopaminergic modulation of aversive states. The aim of the present study was to evaluate the involvement of dopaminergic neurotransmission in the expression of contextual conditioned fear in rats. Initially, we evaluated the effects of intraperitoneal injections of D1 and D2 receptors agonists (SKF 38393 and quinpirole) and antagonists (SCH 23390 and sulpiride) in the expression of contextual conditioned fear by measuring the time of freezing response of the animals. The motor activity was evaluated in the open field test. The results indicate that the D2 receptors, but not D1 receptors, are involved in the expression of contextual conditioned fear, since administration of quinpirole and sulpiride, but not SCH 23390 and SKF 38393, decreased conditioned freezing to the context. There were no changes in motor activity of animals. Based on these results it was hypothesized that quinpirole and sulpiride probably acted on presynaptic and postsynaptic D2 receptors, respectively, leading to a decrease of dopaminergic neurotransmission in both cases. To test this hypothesis, microinjections of quinpirole were performed into the ventral tegmental area (VTA). The results show a decrease in the expression of conditioned freezing, indicating that the effects obtained with the intraperitoneal administration of the dopamine D2 receptor agonist is probably due to its action in the VTA. Therefore, dopaminergic mechanisms in the VTA seem to be important in the modulation of conditioned fear responses and activation of this structure appears to take place during the fear memory following the context aversive conditioning.

Ansiedade

Área Tegmental Ventral

Dopamina

Medo condicionado ao contexto

Quimpirole

Receptores Dopaminérgicos

Sulpirida

Anxiety.

Contextual conditioned fear

Dopamine

Dopaminergic receptors

Quinpirole

Sulpiride

Ventral tegmental area

Envolvimento de receptores dopaminérgicos da área tegmental ventral e do complexo basolateral da amígdala na aquisição e na expressão do medo condicionado / Involvement of dopaminergic receptors of ventral tegmental area and basolateral amygdala in the acquisition and expression of conditioned fear

Amanda Ribeiro de Oliveira

19 March 2010

OLIVEIRA, A.R. Envolvimento de receptores dopaminérgicos da área tegmental ventral e do complexo basolateral da amígdala na aquisição e na expressão do medo condicionado. 2010. 93 f. Tese (Doutorado) Faculdade de Filosofia, Ciências e Letras de Ribeirão Preto, Universidade de São Paulo. O condicionamento Pavloviano é um dos paradigmas mais utilizados para estudar as bases biológicas das emoções, assim como da aprendizagem e memória. A dopamina (DA) é um dos principais neurotransmissores envolvidos na mediação de estados de medo e ansiedade. Um conjunto crescente de evidências dá suporte à hipótese de que a ativação da via mesocorticolímbica, proveniente de neurônios dopaminérgicos da área tegmental ventral (ATV), é particularmente sensível à estimulação aversiva. Entre as regiões inervadas por esta via, o complexo basolateral da amígdala (BLA) é um componente essencial dos circuitos neurais do medo condicionado. Assim, o presente estudo explorou o envolvimento de mecanismos DA da ATV e do BLA, através do uso de agonistas e antagonistas de receptores DA, na aquisição e expressão do medo condicionado à luz. Não houve efeito das drogas DA no sobressalto potencializado pelo medo (SPM), quando injetadas na ATV antes do condicionamento, indicando que os receptores DA da ATV não participam da aquisição do medo condicionado à luz. Ao contrário, quando injetado na ATV antes do teste, quimpirole (agonista D2) reduziu o SPM, enquanto as demais drogas não tiveram efeito. A administração de SCH 23390 (antagonista D1) no BLA não produziu efeitos no SPM, indicando que os receptores D1 do BLA não parecem envolvidos na expressão do SPM. Já a administração de sulpirida (antagonista D2) no BLA inibiu o SPM produzido pela luz. Além disso, a expressão do medo condicionado foi associada a um aumento do congelamento e dos níveis extracelulares de DA no BLA, ambos inibidos com a administração de quimpirole na ATV. A capacidade do quimpirole em diminuir o SPM e o congelamento condicionado parece ser resultado de sua ação em auto-receptores D2 da ATV. A ativação desses receptores diminui os níveis de dopamina em áreas que recebem terminações da via mesocorticolímbica. Os resultados com a sulpirida realçam a importância dos receptores D2 do BLA na expressão do medo condicionado Pavloviano. / OLIVEIRA, A.R. Involvement of dopaminergic receptors of ventral tegmental area and basolateral amygdala in the acquisition and expression of conditioned fear. 2010. 93 p. Thesis (Doctoral) Faculdade de Filosofia, Ciências e Letras de Ribeirão Preto, Universidade de São Paulo. The Pavlovian fear conditioning is one of the most used paradigms to study the biological basis of emotion, as well as of learning and memory. Dopamine (DA) is one of the most important neurotransmitters involved in mechanisms underlying states of fear and anxiety. A growing body of evidence supports the hypothesis that excitation of the mesocorticolimbic pathway, originating from DA neurons in the ventral tegmental area (VTA), is particularly sensitive to fear-arousing stimuli. Among the forebrain regions innervated by this pathway, the basolateral amygdala (BLA) is an essential component of the neural circuitry of conditioned fear. The present study explored the involvement of VTA and BLA DA receptors, using DA agonists and antagonists, in the acquisition and expression of conditioned fear to a light conditioned stimulus (CS). None of the drugs used produced significant effects on fear-potentiated startle (FPS) when injected in VTA before conditioning, indicating that VTA DA receptors are not involved in the acquisition of conditioned fear to a light-CS. In contrast, when injected before the test session, intra-VTA quinpirole (D2 agonist) significantly reduced FPS, whereas the other drugs had no effect. Intra-BLA SCH 23390 (D1 antagonist) did not produce significant effects on FPS, indicating that BLA D1 receptors do not appear to be involved in the expression of FPS. On the other hand, intra-BLA sulpiride (D2 antagonist) inhibited FPS produced by light-CS previously paired with footshocks. Also, conditioned fear was associated with increased freezing and DA levels in the BLA, both inhibited by intra-VTA quinpirole. Quinpirole\'s ability to decrease FPS and conditioned freezing may be the result of an action on VTA D2 presynaptic autoreceptors. The activation of those receptors decreases dopamine levels in terminal fields of the mesocorticolimbic pathway. Sulpirides results stress the importance of BLA D2 receptors in the fear-activating effects of the Pavlovian conditioning.

área tegmental ventral

complexo basolateral da amígdala.

congelamento

dopamina

medo condicionado

microdiálise

sobressalto potencializado pelo medo

Basolateral Amygdala

Conditioned Fear

Dopamine

Fear-Potentiated Startle

Freezing

Microdialysis

Ventral Tegmental Area

Gestational and Postnatal Exposure to a Contaminant Mixture: Effects on Estrogen Receptor Protein Expression In the Postpartum Maternal Brain

Konji, Sandra

05 February 2019

Maternal behaviours are those that increase offspring survival. Estrogens affect maternal behaviour by activating Estrogen Receptors (ER) in the brain. Maternal brain plasticity was explored by characterizing the effects of exposure to a mixture of environmental pollutants on number of ERs. Following exposure to the toxicants during pregnancy and lactation, brains of female rats were collected, sectioned at 30 μm and immunohistochemistry for ERα performed. Immuno-positive cells in the mPOA, VTA and NAc were counted. A two way ANOVA revealed no main effect of Treatment on the number of immunopositive cells for all three brain regions. However, a significant difference between the High and Low Doses with the high dose reducing the number of ERα+ cells in the mPOA and VTA. Our work showcases the importance of studying the effects of multiple chemical co-exposures on the mother's brain, as maternal brain changes impact maternal behaviour consequently affecting offspring neurodevelopment.

maternal behaviour

Estrogen Receptors

Toxicant Mixture

Methyl Mercury

Medial Preoptic Area

Nucleus Accumbens

Ventral Tegmental Area

The role of ventral tegmental dopamine neurons and the effects of central and peripheral dopamine agonists on fear motivation as measured by the potentiated acoustic startle reflex in rats

Borowski, Thomas Brian

01 January 1997

The involvement of dopamine (DA) in the emotional and psychiatric disturbances associated with schizophrenia and psychomotor stimulant abuse is well known; however, the mechanism by which DA mediates fear expression and anxiety is not well defined. Accordingly, the objective of the present thesis was to determine the fear-motivational functions of DA neurons in the ventral tegmental area (VTA) and to examine the role of DA in fear extinction using the potentiated startle paradigm. In Experiment 1, it was observed that electrical stimulation of the VTA produced a pronounced increase in the amplitude of the acoustic startle reflex. In subsequent experiments fear-potentiated startle was assessed following axon-sparing N-methyl-D-aspartic acid (NMDA) lesions of the VTA and after bilateral intra-VTA infusion of the DA D_2/3 receptor agonist quinpirole (Experiments 2-4). The NMDA lesions resulted in substantial cell loss in the medial ventral tegmentum and blocked fear-potentiated startle. Similarly, inhibition of DA neuronal activity associated with locally-administered quinpirole suppressed the expression of the conditioned fear-induced increase in startle amplitudes. The quinpirole results implicate DA neuronal functioning in fear motivation. To explore further the involvement of DA in aversive emotional behavior, pharmacological experiments were conducted in which the effects of peripherally-administered DA agonist drugs on fear extinction were assessed. Subjects in Experiment 5 received an acute injection of either cocaine hydrochloride (40.0 mg/kg), d-amphetamine sulphate (5.0 mg/kg), the D_2/3 agonist quinpirole hydrochloride (5.0 mg/kg), or the D₁-type agonist SKF 38393 (5.0 mg/kg) during a single extinction session following fear acquisition. Animals treated with cocaine, d-amphetamine, and SKF 38393 exhibited fear-potentiated startle, whereas quinpirole treatment failed to alter fear extinction to the nonreinforced conditioned stimulus (CS). Also, it was revealed using a within-subjects design in Experiment 6 that cocaine administration reinstated fear-potentiated startle following extinction. Taken together, the results of the present experiments suggests fundamental role for DA and DA D₁ receptors in fear expression. It was proposed that VTA DA neurons gate levels of aversive emotional arousal within the amygdala-based fear system.

ventral tegmental area (VTA)

amygdala

rats - neurochemistry

psychology

dopamine neurons

fear motivation

Role of Cocaine-Induced Protein Kinase Mzeta Expression in the Ventral Tegmental Area

Chang, Yu-Hua

01 August 2010

The mesolimbic dopamine system, including dopaminergic projections from the ventral tegmental area (VTA) to nucleus accumbens (NAc), is critically involved in the development of addiction to many drugs of abuse, including cocaine (CA). Although there is an attractive hypothesis that the modifications of mesolimbic reward circuit following repeated drug exposure are responsible for cocaine-addicted causes behaviors change, however, our understanding in the underlying molecular mechanisms at the neural circuit level is still in its infancy. It has been suggested PKMzeta, a constitutively active atypical isoform of PKC, plays a critical role in spatial memory formation and long-term synaptic potentiation in hippocampus. To define the relationship among PKMzeta, CA-induced synaptic long-term potentiation and CA addiction, we examined the regulation of PKMzeta after CA administration in Sprague-Dawley rat. We found single CA injection elicits an increase in PKMzeta protein expression in the VTA region. The increase was first observed 10 min after CA administration and lasted for 7 days, the longest sampling time point of our experimental design. The PKMzeta protein expression can also be induced in 10 minutes while incubating the acute isolated brain slice with CA, the expression within 1 hr can be eliminated at the present of Chelerythrine (PKC inhibitor) and ZIP (PKMzeta inhibitor) suggests a positive feedback loop. The PKMzeta mRNA expression can be induced within 1 hr, and Actinomycin d (transcription inhibitor) had no effect on the PKMzeta protein expression indicating CA increases PKM£a translation from preexisting PKM£a mRNA. Furthermore,real time PCR-based analysis showed resembling increase profile ofPKM£a mRNA after single CA injection, suggesting a co-upregulation of transcription and translation of PKM£a after CA administration in VTA. Eticlopride (dopamine receptor D2-subtype antagonist) ¡BSCH-23390(dopamine receptor D1-subtype antagonist)¡BH-89 (PKA inhibitor)¡B Wortmannin (PI3K inhibitor)¡BPD98059 (MEK1 inhibitor) decreasedcocaine-induced PKM£a expression within 1 hr in VTA. On the contrary, KN-62 (CaMK II inhibitor) has no obvious effect on PKM£a expression. CA challenge not only induces the PKM£a expression in the VTA region but also in the NAc and hippocampus region. The CA-induced PKM£a expression is more obvious in elder group (>45 days in age) than younger group (18~30 days in age), similar results also showed in the locomotor activity assay. Prenatal CA exposure decreased the postnatal CA-induced PKM£a expression and the locomotor sensitivity in younger group. Overall, results from our current experiments have raised the possibility of PKM£a involvement in CA addiction. How CA regulates PKM£a expression and the context dependence between PKM£a and CA-induced behavior change and synaptic long-term potentiation remains further elucidation.

long-term potentiation

Protein Kinase M£a

ventral tegmental area

synaptic plasticity

drug addiction

Role of protein kinase M£a in cocaine-induced drug addiction

Ho, Shih-Yin

22 October 2012

Addiction is a chronic disease that characterize as habitual or compulsive involvement in an activity despite it¡¦s bring negative consequences. Some of psystimulants such as cocaine or amphetamine cause a strong reinforcing effects even after prolonged abstinence periods. Such illegal drugs not only hurt on the adult health but also result in fetal physiological damage. For example, that babies born to mothers who abuse with cocaine bring prematurely delivered, low birth weights, smaller head circumferences and increased heart disease in adult offspring. Mesolimbic dopamine system include nucleus accumbens (NAc) and ventral tegmental area (VTA) are critical regions for the neural adaptations that contribute to addiction. VTA that receives inputs from a large number of brain regions. For example, it receives glutamatergic inputs from prefrontal cortex, or GABAergic inputs from NAc. It has been known that VTA play a major role in the acquisition and expression of learned addictive behaviors. Results from many neuropharmacological studies in animal models indicate that exposure to cocaine or some other drugs of abuse seems to induce long-term potentiation (LTP) ¢w like changes of synaptic plasticity among neurons in VTA region. LTP was first described in hippocampus, a region that associated with memory formation, and were found widespread events in many mammalian brain sites. In the present time, theories and investigation indicated that memory and addiction might shared the similar neural circuitry and signal pathways. In general, LTP can be separate into two main phases : induction and maintenance phases. Many of molecules participate in induction phase such as calcium/calmodulin-dependent protein kinase II (CaMKII), cyclic AMP (cAMP), phosphatidylinositol 3-kinases (PI3K) and protein kinase C (PKC). However, until now there was only one molecule has been found associated with LTP maintenance¡Xprotein kinase M£a (PKM£a). PKM£a is a brain specific, constitutively active form of PKC that does not need Ca2+ or diacylglycerol (DAG) for its activation. Molecular evidences showed that PKM£a is translated uniquely by PKM£a mRNA which is generated under the control of an internal promoter in the PKC£a gene. Recently, investigators introduced a PKM£a selective inhibitor¡XZIP, to hippocampus or insular cortex both successful to eliminate long-term spatial memory or conditioned taste aversion (CTA) behavior, respectively, on rat. Therefore, exclude PKM£a by specific inhibitors and then result in abolish long-term synaptic potentiation which had already established seem to be a leading candidate for cure addiction. Here we showed that blocked of PKM£a activity in VTA dopaminergic neuron eliminated mEPSCs or AMPAR/NMDAR ratio increment elicited by cocaine. Otherwise, our results also presented that myristoylatedinhibitory peptide¢wZIP had no effect on spike timing-dependent long-term potentiation in rats previously injected with saline but remarkably restored spike timing-dependent long-term potentiation in VTA dopamine neurons in slices prepared from rats that received single or multiple cocaine exposure. Furthermore, our western blot analyses showed that both single and five consecutive cocaine injections induced a significant increase in PKM£a level in VTA or NAc. Moreover, our ex vivo cocaine incubation results indicated that multiple kinases activation or de novo protein synthesis was required for PKM£a increment. The most important, our data provided the first physiological evidence between PKM£a and drug addiction when intracranial administered specific PKM£a inhibitors to VTA reversed cocaine-induced conditioned-place preference (CPP) behavior. Finally, we investigated the behavioral effect of cocaine-induced locomotor sensitization in an open field apparatus. Our data showed that peri-adolescent (P21) rats exhibited prominently increased in either acute or repeated cocaine-induced locomotor activity than mid-adolescent (P28) and post-adolescent (P41). Interestingly, applied to high dosage cocaine (30 mg/kg) rescued the acute locomotor response in P28 rats but not behavioral sensitization. We further examined the locomotion on rats that were exposed to cocaine in utero after single or multiple cocaine injection. However, cocaine-induced increase in locomotor activity was lower in P21 rats which exposed to cocaine during pregnancy but no significantly difference in P28 rats. Surprisingly, single high dose cocaine treatment caused a marked reduction in locomotor activity on P21 rats prenatally exposed to cocaine. Otherwise, we also provided the first evidences that repeated cocaine injection in pregnant rats induced a significant decreased to KCC2 level in PFC regions prepared from P20 rat. In conclusion, results from our current studies demonstrate for the first time that persistently active PKM£a is necessary in (1) mEPSC facilitation induced by single cocaine exposure; (2) cocaine-induced enhancement in AMPAR/NMDAR ratio; (3) single or repeated cocaine-induced LTP but not in LTP induced by spike-timing stimulation; and (4) cocaine conditioned place preference in the VTA. In addition, our results also present evidence that the expression of PKM£a is increased by either single or repeated cocaine exposure. Furthermore, our behavioral or Western blotting consequence of cocaine treatment in utero was reflected by the diminishion in the sensitivity of locomotor activity in postnatal rats to cocaine and KCC2 level in PFC regions.

Conditioned-place preference

Long-term potentiation

Protein kinase

Addiction

Ventral tegmental area

Cocaine

Elucidating the fear - maintaining properties of the Ventral Tegmental Area

Taylor, Amanda Lee

January 2008

The ventral tegmental area (VTA) and its dopaminergic (DA) mesocorticolimbic projections are thought to be essential in the brain’s reward neurocircuitry. In humans and animal experimental subjects, mild electrical VTA stimulation increases dopamine levels and can induce euphoria. Paradoxically, aversive stimuli activate VTA neurons and forebrain DA activity, and excessive electrical stimulation of the VTA exaggerates fearfulness. Research suggests that experimental manipulation of either the amygdala or the VTA has similar effects on the acquisition and expression of Pavlovian conditioned fear. Recently it was demonstrated that electrical stimulation of the amygdala produced fear extinction deficits in rats. Fear extinction involves the progressive dissipation of conditioned fear responses by repeated non-reinforced exposure to a conditioned stimulus (CS). Maladaptive states of fear in fear-related anxiety disorders, such as post-traumatic stress disorders (PTSD) or specific phobias are thought to reflect fear extinction learning deficits. The primary purpose of the present study was to examine the effects of intra-VTA stimulation on fear extinction learning. Using fear-potentiated startle as a behavioural index of conditioned fear, it was found that 120 VTA stimulations paired or unpaired with non-reinforced CS presentations impaired the extinction of conditioned fear. This effect was not apparent in rats that received electrical stimulation of the substantia nigra (SN), suggesting that not all midbrain regions respond similarly. Electrical stimulation parameters did not have aversive affects because rats failed to show fear conditioning when electrical VTA stimulation was used as the unconditioned stimulus. Also, VTA stimulation did not alter conditioned fear expression in non-extinguished animals. Based on the results it is suggested that VTA activation disinhibited conditioned fear responding. Therefore, VTA neuronal excitation by aversive stimuli may play a role in fear-related anxiety disorders thought to reflect extinction learning deficits.

Ventral tegmental area (VTA)

Pavlovian conditioned fear

fear extinction

intra-VTA electrical stimulation

Long-term consequences of perinatal high-fat feeding on dopamine function and metabolism in rats

Naef, Lindsay.

January 2008

This research project investigates the long-term consequences of perinatal exposure to high-fat (HF) on the mesocorticolimbic dopamine (DA) system. Adult offspring of mothers fed a HF diet (30% fat, compared to 5% in control mothers (C)) during the last week of gestation and throughout lactation displayed decreased locomotion in response to an acute amphetamine challenge and decreased behavioral sensitization to repeated amphetamine compared to C animals. These behavioral effects were accompanied by small increases in tyrosine hydroxylase expression in the ventral tegmental area and significant increases in DA and DOPAC content in the NAc, suggesting an elevated DA tone in this target field. In the NAc, there were no significant changes in D1, D2 receptors or DA transporter (DAT) levels between diet groups. The behavioural and biochemical data were collected in adulthood, long after the termination of the diet suggesting that a HF perinatal diet is inducing permanent changes within the DA system and might contribute to the development of metabolic disturbances.

Dopamine -- metabolism.

Limbic System -- physiology.

Ventral Tegmental Area -- physiology.

Animals, Newborn.

Elucidating the fear - maintaining properties of the Ventral Tegmental Area

Taylor, Amanda Lee

January 2008

The ventral tegmental area (VTA) and its dopaminergic (DA) mesocorticolimbic projections are thought to be essential in the brain’s reward neurocircuitry. In humans and animal experimental subjects, mild electrical VTA stimulation increases dopamine levels and can induce euphoria. Paradoxically, aversive stimuli activate VTA neurons and forebrain DA activity, and excessive electrical stimulation of the VTA exaggerates fearfulness. Research suggests that experimental manipulation of either the amygdala or the VTA has similar effects on the acquisition and expression of Pavlovian conditioned fear. Recently it was demonstrated that electrical stimulation of the amygdala produced fear extinction deficits in rats. Fear extinction involves the progressive dissipation of conditioned fear responses by repeated non-reinforced exposure to a conditioned stimulus (CS). Maladaptive states of fear in fear-related anxiety disorders, such as post-traumatic stress disorders (PTSD) or specific phobias are thought to reflect fear extinction learning deficits. The primary purpose of the present study was to examine the effects of intra-VTA stimulation on fear extinction learning. Using fear-potentiated startle as a behavioural index of conditioned fear, it was found that 120 VTA stimulations paired or unpaired with non-reinforced CS presentations impaired the extinction of conditioned fear. This effect was not apparent in rats that received electrical stimulation of the substantia nigra (SN), suggesting that not all midbrain regions respond similarly. Electrical stimulation parameters did not have aversive affects because rats failed to show fear conditioning when electrical VTA stimulation was used as the unconditioned stimulus. Also, VTA stimulation did not alter conditioned fear expression in non-extinguished animals. Based on the results it is suggested that VTA activation disinhibited conditioned fear responding. Therefore, VTA neuronal excitation by aversive stimuli may play a role in fear-related anxiety disorders thought to reflect extinction learning deficits.

Ventral tegmental area (VTA)

Pavlovian conditioned fear

fear extinction

intra-VTA electrical stimulation