Spelling suggestions: "subject:"[een] CONTEXTUAL FEAR"" "subject:"[enn] CONTEXTUAL FEAR""
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La connectivité sur de longue distance détermine la plasticité intrinsèque des neurones prélimbiques induite par l’apprentissage / Long-range connectivity defines learning-induced intrinsic plasticity of prelimbic neuronsSzlapczynska, Maria 13 June 2014 (has links)
Le cortex préfrontal médian (mPFC) est nécessaire pour la formation desreprésentations contextuelles et l’expression de la mémoire suite au conditionnementde peur. Des études récentes ont montré des changements dépendants del’apprentissage dans l’excitabilité intrinsèque des neurones du mPFC. Il n’estcependant pas établit, si ces changements se font à l’échelle régionale ou s’ils sontspécifiques du type neuronal. La connectivité spécifique et les propriétés intrinsèquesde différents types neuronaux pourraient entrainer certaines populations neuronales àêtre préférentiellement impliquées dans le traitement de l’information au cours d’unetâche d’apprentissage. Dans ce projet, nous avons étudié cette hypothèse par l’étudede la plasticité de l’excitabilité intrinsèque dans la partie prélimbique (PL) du mPFCdans deux groupes neuronaux bien définis : ceux projetant vers l’amygdaleipsilatérale et ceux projetant vers le mPFC controlatéral. Nous avons utilisé à la fois leconditionnement à la peur contextuelle, un traçage rétrograde, et des enregistrementsélectrophysiologiques en cellule entière des neurones pyramidaux marqués chez lessouris mâles C57bl/6J adultes âgées de 2 à 3 mois. Nous montrons que l’excitabilitédes neurones projetant vers l’amygdale présentent des changements dépendants del’apprentissage, suite au conditionnement de peur contextuelle. En revanche,l’excitabilité des neurones projetant vers le mPFC controlatéral ne présente pas dedifférence entre les animaux entrainés et témoins. Ensemble, ces résultats indiquentque les changements induits par l’apprentissage dans l’excitabilité intrinsèque ne sontpas généralisés à tous les neurones du PL mais sont par contre définis par les ciblesdes neurones qui projettent sur de longues distances. / The medial prefrontal cortex (mPFC) is necessary for the formation of contextualrepresentations and memory expression following fear conditioning. Recent studieshave shown learning-dependent changes in the intrinsic excitability of mPFC neurons.It is not clear, however, whether these changes are region-wide or neuron-typespecific. The specific connectivity and intrinsic properties of different neuronal typescould cause certain neuronal populations to be preferentially involved in informationprocessing in a learning paradigm. In this project, we investigated this hypothesis bystudying the plasticity of intrinsic excitability in the prelimbic (PL) part of the mPFCin two defined neuronal groups: those projecting to the ipsilateral amygdala and thoseprojecting to the contralateral mPFC. We used contextual fear conditioning togetherwith retrograde tracing and whole-cell electrophysiological recordings of labelledpyramidal neurons in adult 2-3 month old male C56BL/6J mice. We show thatneurons projecting to the amygdala display learning-dependent changes in neuronalexcitability following contextual fear conditioning. In contrast, the excitability ofneurons projecting to the contralateral mPFC does not differ between trained andcontrol animals. Together, these results indicate that learning-induced changes inintrinsic excitability are not generalised across all PL neurons but instead are definedby the neurons’ long-range projection targets.
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[pt] AVALIAÇÃO DA RESPOSTA DE CONGELAMENTO E ESTRUTURA FATORIAL DO PROTOCOLO EMPREGADO PARA A CRIAÇÃO SELETIVA DAS LINHAGENS DE RATOS CARIOCAS ALTO E BAIXO CONGELAMENTO CONDICIONADO / [en] EVALUATION OF THE FREEZING RESPONSE AND FACTOR STRUCTURE OF THE SELECTIVE BREEDING PROTOCOL USED FOR THE SELECTIVE BREEDING OF CARIOCAS HIGH AND LOW CONDITIONED FREEZING RATS18 February 2022 (has links)
[pt] No presente estudo, foi investigada a ocorrência da resposta de congelamento de defesa durante o período pré- e pós-choque empregado no protocolo para a criação seletiva das linhagens de ratos Cariocas alto- e baixo-congelamento condicionado na PUC-Rio. Além disso, para obter uma maior clareza da estrutura deste comportamento defensivo e sua relação com as duas linhagens, foi realizada uma extração de componentes. Foram detectadas diferenças significativas entre as linhagens nos períodos pré- e pós-choque, com a diferença no período pré-choque sendo proporcional à encontrada no fenótipo. A análise fatorial revelou 4 componentes, o primeiro relacionado ao fenótipo, o segundo à parcela final do período pré-choque, o terceiro ao período pós-choque e o quarto à parcela inicial do período pré-choque. Estes resultados demonstram que o protocolo empregado foi capaz de produzir diferenças significativas nas linhagens selecionadas para alto e baixo congelamento condicionado em paradigmas de ansiedade incondicionada, indicando um mutualismo genético por trás destes mecanismos, observado pela primeira vez com ratos selecionados apenas pelo medo contextual condicionado. O componente que carregou a parcela final do período de habituação (pré-choque) mostrou-se mais responsável por explicar a variação individual do que a parcela inicial ou o pós-choque, indicando que este período dos minutos 5 a 8 é um intervalo ideal para obter de forma mais eficaz o traço comportamental do animal. / [en] The present study investigated freezing behavior patterns during the selective breeding protocol employed in the creation of the Cariocas High- and Low- Conditioned Freezing in PUC-Rio s Neuroscience Laboratory. There were significant differences found in the baseline, post-shock and retrieval (phenotype) freezing means of the High-, Low- and Control lines over the generations of selective breeding. A Principal Component Analysis of the freezing means in each minute of the contextual fear conditioning protocol revealed four components, the First loading the freezing in the retrieval period, the Second the final half of the baseline period, the Third loads the 3 minutes of freezing measured after foot shocks are received and the Fourth loads the first half of the baseline period. The analysis of the means shows that the selective breeding protocol employed successfully produced differences in anxiety in the selected lines. It s the first time this baseline difference in freezing is observed in Rats. Indicates that there s a genetic pleiotropy behind the underlying mechanisms that allow for a stronger or smaller fear response in response to contextual cues, conditioned or unconditioned. We hypothesize that this might be related to genetic differences in fear related spatial learning modulated by the selection process. Finally, the Second component loading the final half of the baseline period shows that this period (between 5 and 8 minutes) is better at producing a stable behavior pattern which more aptly reproduces the rat s individual identity.
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Regulation of Suprachiasmatic Nucleus and Hippocampal Cellular Activity as a Function of Circadian SignalingAlzate Correa, Diego Fernando January 2017 (has links)
No description available.
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Effect of Chronic Stress Exposure on Beta-adrenergic Receptor Signaling and Fear- LearningCamp, Robert M. 09 December 2015 (has links)
No description available.
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Envolvimento de receptores NK-1 e NK-3 no comportamento defensivo induzido pela estimulação elétrica da substância cinzenta periaquedutal dorsal / Involvement of NK-1 and NK-3 receptors on the defensive behavior induced by electrical stimulation of the dorsal periaqueductal gray.Broiz, Ana Carolina Garcia 20 October 2011 (has links)
A substância cinzenta periaquedutal dorsal (SCPd) é considerada uma das principais estruturas do teto mesencefálico envolvida no substrato neural da aversão a estímulos proximais. GABA e 5-HT são apontados como neurotransmissores envolvidos na modulação das respostas defensivas elaboradas na SCPd. Recentemente, mecanismos neurocininérgicos também têm sido propostos como mediadores das reações de defesa organizadas nessa estrutura. O objetivo do presente estudo foi avaliar o envolvimento dos receptores NK-1 e NK-3 da SCPd no comportamento defensivo induzido pela estimulação elétrica dessa região em ratos com e sem experiência prévia ao condicionamento contextual aversivo. Para isso, os limiares aversivos de congelamento e fuga foram medidos durante a estimulação elétrica da SCPd em ratos ingênuos e em animais submetidos previamente ao procedimento de condicionamento contextual aversivo. A mediação destas repostas defensivas pelos receptores NK-1 e NK-3 foi avaliada pela injeção local de spantide (100 pmol/0,2 L) e SB 222200 (50 e 100 pmol/0,2 L), antagonistas seletivos de receptores NK-1 e NK-3, respectivamente. Os resultados mostraram que a injeção intra-SCPd de spantide aumentou os limiares aversivos determinados pela estimulação elétrica da SCPd em animais ingênuos e com experiência aversiva prévia. Injeções similares de 100 pmol de SB 222200 na SCPd também causaram um aumento nos limiares de congelamento e fuga. Entretanto, esses efeitos devem ser atribuídos a um déficit motor causado por essa dose da droga, uma vez que SB 222200 na dose de 100 pmol, reduziu significativamente a atividade motora dos animais submetidos ao teste do campo aberto. Estes resultados sugerem que receptores NK-1, mas não NK-3, estão envolvidos na mediação do comportamento defensivo induzido pela estimulação elétrica da SCPd. / The dorsal periaqueductal gray (dPAG) constitutes the main structure of the neural substrate for the defensive response to proximal aversive stimuli. It is well established that GABA and 5-HT are important neuromediators of the defense reaction at the dPAG level but neurokinin-mediated mechanisms have also been recently implicated in these processes. The aim of the present investigation was to examine the involvement of NK-1 and NK-3 receptors of the dPAG in the unconditioned defensive behaviors induced by electrical stimulation of the dPAG of rats with and without previous experience with contextual fear conditioning. For this, aversive thresholds were measured as the lowest intensity of electric current to produce freezing and escape behaviors using a procedure of gradual increases of the electrical stimulation of the dPAG. These thresholds were also measured in rats previously submitted to a contextual fear conditioning procedure. The mediation of these defensive responses by NK-1 and NK-3 receptors of the dPAG was evaluated by local injections of spantide (100 pmol/0.2 L) and SB 222200 (50 and 100 pmol/0.2 L), selective antagonists of NK-1 and NK-3 receptors, respectively. The present results showed that spantide injections into the dPAG increased the aversive thresholds (anti-aversive effects) determined by stimulation of the dPAG in naive and in animals subjected previously to the contextual fear conditioning. Similar injections of SB 222200 100 pmol into the dPAG increased the freezing and escape thresholds. However, this effect can be attributable to a motor deficit since this dose of SB 222200 decreased the exploratory activity of the animals subjected to the open field test. These results suggest that NK-1 receptors, but not NK-3 receptors, are involved in the mediation of the defensive behaviors induced by electrical stimulation of the dPAG.
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Envolvimento de receptores 5-HT1A no comportamento defensivo induzido por estimulação elétrica da substãncia cinzenta periaquedutal dorsal de ratos com experiência prévia a eventos estressantes / 5-HT1A receptor mechanisms of the Dorsal Periaqueductal Gray in the conditioned and unconditioned fear in rats.Ana Carolina Garcia Broiz 15 May 2007 (has links)
O comportamento emocional tem sido considerado fundamental para a sobrevivência dos animais, sendo o medo uma se suas mais primitivas e importantes formas. A substância cinzenta periaquedutal dorsal (SCPD) tem-se destacado como uma estrutura importante na organização das respostas defensivas. Estudos usando estimulação elétrica e química da SCPD e microinjeções de drogas agonistas e antagonistas de receptores serotoninérgicos mostraram uma mediação serotoninérgica através dos subtipos de receptores 5-HT1A e 5-HT2A na regulação do comportamento defensivo organizado nesta estrutura. O objetivo deste trabalho foi examinar a mediação serotoninérgica na SCPD através de receptores 5-HT1A nas respostas defensivas de animais sem e com experi~encia aversiva prévia. Para isto, os limiares de congelamento e fuga foram determinados em ratos implantados com uma cânula acoplada a um eletrodo na SCPD, antes e após microinjeção local do agonista 8-OH-DPAT (4 e 8 nmol) e do antagonista WAY100635 (10 nmol). Os efeitos destas drogas injetadas na SCPD foram avaliados também sobre o tempo de congelamento pós-estimulação em animais ingênuos e também em animais colocados em um contexto no qual receberam choques inescapáveis nas patas 24h antes (medo condiconado contextual). O 8-OH-DPAT, de maneira dose dependente, produziu um efeito anti-aversivo sobre os limiares de congelamento e fuga em ratos sem experiência aversiva prévia, mas não nos animais com experiência aversiva prévia quando comparado com seus controles. Por outro lado, este agonista 5-HT1A reduziu o tempo de congelamento contextual. Já o WAY100635 não produziu alterações significativas sobre os limiares aversivos em ratos ingênuos ou com experiência aversiva prévia, mas elevou o tempo de congelamento contextual nestes aniamis (efeito pró-aversivo). Estes resultados estão em concordância com a idéia de uma modulação fásica exercida pela 5-HT sobre os substratos neurais do medo organizado na SCPD. Por outro lado, mecanismos mediados pelos receptores 5-HT1A não são alterados em animais com experiência aversiva prévia. Acreditamos que estes resultados trazem uma contribuição importante para a nossa compreensão sobre a integração de estados aversivos no SNC e, particularmente sobre o funcionamento destes substratos neurais de defesa na SCPD de animais com experiência aversiva prévia. / It is well established that 5-HT1 mechanisms modulate the defensive behavior produced by stimulation of the dorsal periaqueductal gray (dPAG). However, in spite of the notion that past stressful experiences play a role in certain types of anxiety only few studies with stimulation of the dPAG of rats without previous aversive experience have been conducted so far. In this study, we examined the mediation of 5-HT1 receptors of the dPAG in rats naive and in rats previously submitted to contextual fear conditionong (CFC). Defensive behaviors induced by activation of the dPAG were assessed by measuring the lowest intensity of electric current applied to this structure (threshold) able to produce freezing and escape responses during testing sessions of CFC, in which animals were placed in a context previously paired to footshocks. The persistence of the freezing behavior after the interruption of the dPAG electrical stimulation was also evaluated. The 5-HT1 function of the dPAG in this condition was evaluated by local injectinos of 8-OH-DPAT (4 and 8 nmol/) and WAY100635 (10nmol), selective agonist and antagonist of 5-HT1 receptors, respectively. In accordance with previous studies, 8-OH-DPAT increased the aversive thresholds (antiaversive effects) and injection of WAY100635 into the dPAG did not produce significant effects in naive rats. On the contrary, both serotonergic drugs 8-OH-DPAT and WAY100635 did not produce any significant effects on the aversive thresholds. Post-stimulation freezing was not affected by any treatment given to animals before or after CFC. However, the contextual conditioned freezing was attenuated or enhanced by intra-dPAG of 8-OH-DPAT and WAY100635, respectively. The present results suggest that 5-HT1 receptor-mediated mechanisms exert a phasic inhibition on the neural substrates of fear in the dPAG in naive rats whereas past stressful experience does not produce significant changes in the synaptic function of 5-HT1 receptors within the dPAG.
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Envolvimento de receptores 5-HT2A da substância cinzenta periaquedutal dorsal no medo condicionado e incondicionado de ratos / 5HT2 receptor mechanisms of the dorsal periaqueductal gray in the conditioned and unconditioned fear in ratsOliveira, Luciana Chrystine 26 October 2007 (has links)
Sabe-se que o medo condicionado contextual (MCC) pode ativar diversas áreas mesencefálicas, como a Substância Cinzenta Periaquedutal Dorsal (SCPd). Diversos estudos avaliaram como mecanismos serotoninérgicos modulam o comportamento defensivo induzido pela estimulação elétrica da SCPd. Uma função proeminente dos receptores 5-HT2A é regular estados aversivos induzidos pela ativação da SCPd e, apesar de saber que experiências aversivas prévias exercem um importante papel em determinados tipos de ansiedade, somente estudos com estimulação da SCPd de ratos sem experiência aversiva prévia foram conduzidos até o momento. O objetivo do presente estudo foi investigar o papel funcional dos receptores 5-HT2A localizados nos substratos neurais da aversão na SCPd de ratos previamente submetidos ao condicionamento contextual aversivo. Foram avaliadas as respostas de congelamento e fuga obtidas a partir do procedimento de estimulação elétrica da SCPd na sessão teste, realizada 24 horas após o condicionamento, quando os animais foram recolocados no contexto previamente pareado com choques nas patas ou no contexto diferente. A função dos receptores 5-HT2A da SCPd foi avaliada pela injeção local de -metil-serotonina ou cetanserina, agonista e antagonista seletivos de receptores do tipo 5-HT2A, respectivamente. De acordo com estudos anteriores, a -metil-serotonina aumentou os limiares aversivos (efeito antiaversivo) determinados pela estimulação da SCPd em animais ingênuos, enquanto que a injeção de cetanserina não produziu qualquer efeito significativo. No presente estudo, a cetanserina reduziu o limiar de congelamento (efeito proaversivo), enquanto que a -metil-serotonina continuou apresentando efeito antiaversivo em animais com experiência aversiva prévia (choques nas patas). Estes resultados sugerem que experiências aversivas anteriores podem produzir importantes alterações na função sináptica dos receptores 5-HT2A da SCPd, podendo refletir na reatividade da SCPd à sua estimulação aversiva. / It has been shown that contextual fear conditioning (CFC) may activate brainstem regions such as the dorsal periaqueductal gray (dPAG). Several studies have been carried out to disclose how 5-HT2 mechanisms modulate the aversive stimulation of the dPAG. One prominent function of 5-HT2 receptors is to regulate the aversive states induced by activation of the dPAG. However, in spite of the notion that past stressful experiences play a crucial role in certain types of anxiety only studies with stimulation of the dPAG of rats without previous aversive experience have been conducted so far. We investigated the mediation of 5-HT2 receptors located in the neural substrates of aversion of the dPAG in rats previously submitted to CFC. Defensive behaviors induced by activation of the dPAG were assessed by measuring the lowest intensity of electric current applied to this structure (threshold) able to produce freezing and escape responses during testing sessions of CFC, in which animals were placed in a context previously paired to footshocks. The 5-HT2 function of the dPAG in this condition was evaluated by local injections of -methyl-5-HT and ketanserin, selective agonist and antagonist of 5-HT2 receptors, respectively. In accordance with previous studies, -methyl-5-HT increased the aversive thresholds (antiaversive effects) determined by stimulation of the dPAG in naive rats and injection of ketanserin into the dPAG did not produce any significant effects. On the other hand, ketanserin decreased the freezing threshold (proaversive effect) determined by the dPAG electrical stimulation while -methyl-5-HT continued to show antiaversive effects in animals with prior experience with foot shocks. The present results suggest that a past stressful experience can produce changes in the synaptic function of 5-HT2 receptors within the dPAG with important impact on the defensive behaviors induced by electrical stimulation of this area.
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Envolvimento de receptores 5-HT1A no comportamento defensivo induzido por estimulação elétrica da substãncia cinzenta periaquedutal dorsal de ratos com experiência prévia a eventos estressantes / 5-HT1A receptor mechanisms of the Dorsal Periaqueductal Gray in the conditioned and unconditioned fear in rats.Broiz, Ana Carolina Garcia 15 May 2007 (has links)
O comportamento emocional tem sido considerado fundamental para a sobrevivência dos animais, sendo o medo uma se suas mais primitivas e importantes formas. A substância cinzenta periaquedutal dorsal (SCPD) tem-se destacado como uma estrutura importante na organização das respostas defensivas. Estudos usando estimulação elétrica e química da SCPD e microinjeções de drogas agonistas e antagonistas de receptores serotoninérgicos mostraram uma mediação serotoninérgica através dos subtipos de receptores 5-HT1A e 5-HT2A na regulação do comportamento defensivo organizado nesta estrutura. O objetivo deste trabalho foi examinar a mediação serotoninérgica na SCPD através de receptores 5-HT1A nas respostas defensivas de animais sem e com experi~encia aversiva prévia. Para isto, os limiares de congelamento e fuga foram determinados em ratos implantados com uma cânula acoplada a um eletrodo na SCPD, antes e após microinjeção local do agonista 8-OH-DPAT (4 e 8 nmol) e do antagonista WAY100635 (10 nmol). Os efeitos destas drogas injetadas na SCPD foram avaliados também sobre o tempo de congelamento pós-estimulação em animais ingênuos e também em animais colocados em um contexto no qual receberam choques inescapáveis nas patas 24h antes (medo condiconado contextual). O 8-OH-DPAT, de maneira dose dependente, produziu um efeito anti-aversivo sobre os limiares de congelamento e fuga em ratos sem experiência aversiva prévia, mas não nos animais com experiência aversiva prévia quando comparado com seus controles. Por outro lado, este agonista 5-HT1A reduziu o tempo de congelamento contextual. Já o WAY100635 não produziu alterações significativas sobre os limiares aversivos em ratos ingênuos ou com experiência aversiva prévia, mas elevou o tempo de congelamento contextual nestes aniamis (efeito pró-aversivo). Estes resultados estão em concordância com a idéia de uma modulação fásica exercida pela 5-HT sobre os substratos neurais do medo organizado na SCPD. Por outro lado, mecanismos mediados pelos receptores 5-HT1A não são alterados em animais com experiência aversiva prévia. Acreditamos que estes resultados trazem uma contribuição importante para a nossa compreensão sobre a integração de estados aversivos no SNC e, particularmente sobre o funcionamento destes substratos neurais de defesa na SCPD de animais com experiência aversiva prévia. / It is well established that 5-HT1 mechanisms modulate the defensive behavior produced by stimulation of the dorsal periaqueductal gray (dPAG). However, in spite of the notion that past stressful experiences play a role in certain types of anxiety only few studies with stimulation of the dPAG of rats without previous aversive experience have been conducted so far. In this study, we examined the mediation of 5-HT1 receptors of the dPAG in rats naive and in rats previously submitted to contextual fear conditionong (CFC). Defensive behaviors induced by activation of the dPAG were assessed by measuring the lowest intensity of electric current applied to this structure (threshold) able to produce freezing and escape responses during testing sessions of CFC, in which animals were placed in a context previously paired to footshocks. The persistence of the freezing behavior after the interruption of the dPAG electrical stimulation was also evaluated. The 5-HT1 function of the dPAG in this condition was evaluated by local injectinos of 8-OH-DPAT (4 and 8 nmol/) and WAY100635 (10nmol), selective agonist and antagonist of 5-HT1 receptors, respectively. In accordance with previous studies, 8-OH-DPAT increased the aversive thresholds (antiaversive effects) and injection of WAY100635 into the dPAG did not produce significant effects in naive rats. On the contrary, both serotonergic drugs 8-OH-DPAT and WAY100635 did not produce any significant effects on the aversive thresholds. Post-stimulation freezing was not affected by any treatment given to animals before or after CFC. However, the contextual conditioned freezing was attenuated or enhanced by intra-dPAG of 8-OH-DPAT and WAY100635, respectively. The present results suggest that 5-HT1 receptor-mediated mechanisms exert a phasic inhibition on the neural substrates of fear in the dPAG in naive rats whereas past stressful experience does not produce significant changes in the synaptic function of 5-HT1 receptors within the dPAG.
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An investigation into the role of noradrenergic receptors in conditioned fear : relevance for posttraumatic stress disorder / Erasmus M.M.Erasmus, Madeleine Monique January 2011 (has links)
Posttraumatic stress disorder is a debilitating anxiety disorder that can develop in
the aftermath of a traumatic or life–threatening event involving extreme horror,
intense fear or bodily harm. The disorder is typified by a symptom triad consisting
of re–experiencing, hyperarousal and avoidance symptoms. Approximately 15–25%
of trauma–exposed individuals go on to develop PTSD, depending on the nature
and severity of the trauma. Although dysfunctional adaptive responses exist in
multiple neurobiological pathways in the disorder, e.g. glutamate, GABA,
glucocortocoids and serotonin, the noradrenergic system is particularly prominent
and represents an important pharmacological target in attempts at preventing the
development of PTSD posttrauma. However, current literature shows opposing and
conflicting results regarding the effect of selective noradrenergic agents in memory
processing, and the effect of modulation of selective noradrenergic receptors are
spread over diverse protocols and paradigms of learning and fear also employing
different strains of animals.
Fear conditioning is a behavioural paradigm that uses associative learning to study
the neural mechanisms underlying learning, memory and fear. It is useful in
investigating the underpinnings of disorders associated with maladaptive fear
responses. Performing fear conditioning experiments with the aim of applying it to
an animal model of PTSD, and relating these behavioural responses to a defined
neural mechanism, will assist both in the elucidation of the underlying pathology of
the disease, as well as the development of more effective treatment. This project
has set about to re–examine the diverse and complex role of noradrenergic
receptors in the conditioned fear response with relevance to PTSD. To the best of
my knowledge, this study represents the first attempt at studying a range of
noradrenergic compounds with diverse actions and their ability to modify
conditioned fear in a single animal model. This work thus introduces greater
consistency and comparative relevance not currently available in the literature, and
will also provide much needed pre–clinical evidence in support of treatment
strategies targeting the noradrenergic system in the prevention of PTSD
posttrauma.
The first objective of this study was to set up and validate a passive avoidance fear
conditioning protocol under our laboratory conditions using the Gemini
Avoidance System. The noradrenergic system plays a prominent role in memory
consolidation and fear conditioning, while administration of –adrenergic blockers,
such as propranolol, have been shown to abolish learning and fear conditioning in
both humans and animals. Propranolol has also demonstrated clinical value in
preventing the progression of acute traumatic stress syndrome immediately
posttrauma to full–blown PTSD. To confer predictive validity to our model, the
centrally active –adrenergic antagonist, propranolol, and the non–centrally acting –adrenergic antagonist, nadolol, were administered to Wistar rats after passive
avoidance fear conditioning training in the Gemini Avoidance System. Wistar rats
were used because of their recognised enhanced sensitivity to stress. Evidence
from this pilot study confirmed that propranolol 10 mg/kg significantly inhibits the
consolidation of learned fear in rats, whereas nadolol is ineffective. This effectively
validated our protocol and the apparatus for further application in this study and
also confirmed the importance of a central mechanism of action for –adrenoceptor
blockade in the possible application of these drugs in preventing the development
of PTSD posttrauma.
The second objective of this study was to investigate the role of 1–, 2–, 1–, and 2–receptors in a conditioned fear passive avoidance paradigm. This was done in
order to investigate how selective pharmacological modulation of these receptors
may modify the conditioned fear response, and whether any of these receptor
systems might exert opposing effects in passive fear conditioning. Various centrally
active noradrenergic agents were employed over a 3–tiered dose response design,
including the 1–antagonist, prazosin, the 2–agonist, guanfacine, the 2–antagonist,
yohimbine, the 1–antagonist, betaxolol and the 2–antagonist ICI 118551. The
effect of post–exposure administration of these drugs on conditioned fear was
compared to that of propranolol 10 mg/kg. Selected doses of betaxolol (10 mg/kg)
and ICI 118551 (1 mg/kg) attenuated fear conditioning to an extent comparable to
propranolol, as did prazosin (0.1 mg/kg). Yohimbine tended to boster fear learning
at all doses tested, albeit not significantly, while guanfacine did not produce any
significant effect on memory retention at any of the doses studied. This latter
observation was surprising since yohimbine tended to bolster fear conditioning
while earlier studies indicate that 2–agonism impairs conditioned fear.
Concluding, this study has conferred validity to our passive avoidance model and
has provided greater insight into the separate roles of noradrenergic receptors in
contextual conditioned fear learning. The study has provided supportive evidence
for a key role for both 1– and 2–antagonism, as well as 1–antagonism, in
inhibiting fear memory consolidation and hence as viable secondary treatment
options to prevent the development of PTSD posttrauma. However, further study is
required to delineate the precise role of the 2–receptor in this regard. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2012.
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An investigation into the role of noradrenergic receptors in conditioned fear : relevance for posttraumatic stress disorder / Erasmus M.M.Erasmus, Madeleine Monique January 2011 (has links)
Posttraumatic stress disorder is a debilitating anxiety disorder that can develop in
the aftermath of a traumatic or life–threatening event involving extreme horror,
intense fear or bodily harm. The disorder is typified by a symptom triad consisting
of re–experiencing, hyperarousal and avoidance symptoms. Approximately 15–25%
of trauma–exposed individuals go on to develop PTSD, depending on the nature
and severity of the trauma. Although dysfunctional adaptive responses exist in
multiple neurobiological pathways in the disorder, e.g. glutamate, GABA,
glucocortocoids and serotonin, the noradrenergic system is particularly prominent
and represents an important pharmacological target in attempts at preventing the
development of PTSD posttrauma. However, current literature shows opposing and
conflicting results regarding the effect of selective noradrenergic agents in memory
processing, and the effect of modulation of selective noradrenergic receptors are
spread over diverse protocols and paradigms of learning and fear also employing
different strains of animals.
Fear conditioning is a behavioural paradigm that uses associative learning to study
the neural mechanisms underlying learning, memory and fear. It is useful in
investigating the underpinnings of disorders associated with maladaptive fear
responses. Performing fear conditioning experiments with the aim of applying it to
an animal model of PTSD, and relating these behavioural responses to a defined
neural mechanism, will assist both in the elucidation of the underlying pathology of
the disease, as well as the development of more effective treatment. This project
has set about to re–examine the diverse and complex role of noradrenergic
receptors in the conditioned fear response with relevance to PTSD. To the best of
my knowledge, this study represents the first attempt at studying a range of
noradrenergic compounds with diverse actions and their ability to modify
conditioned fear in a single animal model. This work thus introduces greater
consistency and comparative relevance not currently available in the literature, and
will also provide much needed pre–clinical evidence in support of treatment
strategies targeting the noradrenergic system in the prevention of PTSD
posttrauma.
The first objective of this study was to set up and validate a passive avoidance fear
conditioning protocol under our laboratory conditions using the Gemini
Avoidance System. The noradrenergic system plays a prominent role in memory
consolidation and fear conditioning, while administration of –adrenergic blockers,
such as propranolol, have been shown to abolish learning and fear conditioning in
both humans and animals. Propranolol has also demonstrated clinical value in
preventing the progression of acute traumatic stress syndrome immediately
posttrauma to full–blown PTSD. To confer predictive validity to our model, the
centrally active –adrenergic antagonist, propranolol, and the non–centrally acting –adrenergic antagonist, nadolol, were administered to Wistar rats after passive
avoidance fear conditioning training in the Gemini Avoidance System. Wistar rats
were used because of their recognised enhanced sensitivity to stress. Evidence
from this pilot study confirmed that propranolol 10 mg/kg significantly inhibits the
consolidation of learned fear in rats, whereas nadolol is ineffective. This effectively
validated our protocol and the apparatus for further application in this study and
also confirmed the importance of a central mechanism of action for –adrenoceptor
blockade in the possible application of these drugs in preventing the development
of PTSD posttrauma.
The second objective of this study was to investigate the role of 1–, 2–, 1–, and 2–receptors in a conditioned fear passive avoidance paradigm. This was done in
order to investigate how selective pharmacological modulation of these receptors
may modify the conditioned fear response, and whether any of these receptor
systems might exert opposing effects in passive fear conditioning. Various centrally
active noradrenergic agents were employed over a 3–tiered dose response design,
including the 1–antagonist, prazosin, the 2–agonist, guanfacine, the 2–antagonist,
yohimbine, the 1–antagonist, betaxolol and the 2–antagonist ICI 118551. The
effect of post–exposure administration of these drugs on conditioned fear was
compared to that of propranolol 10 mg/kg. Selected doses of betaxolol (10 mg/kg)
and ICI 118551 (1 mg/kg) attenuated fear conditioning to an extent comparable to
propranolol, as did prazosin (0.1 mg/kg). Yohimbine tended to boster fear learning
at all doses tested, albeit not significantly, while guanfacine did not produce any
significant effect on memory retention at any of the doses studied. This latter
observation was surprising since yohimbine tended to bolster fear conditioning
while earlier studies indicate that 2–agonism impairs conditioned fear.
Concluding, this study has conferred validity to our passive avoidance model and
has provided greater insight into the separate roles of noradrenergic receptors in
contextual conditioned fear learning. The study has provided supportive evidence
for a key role for both 1– and 2–antagonism, as well as 1–antagonism, in
inhibiting fear memory consolidation and hence as viable secondary treatment
options to prevent the development of PTSD posttrauma. However, further study is
required to delineate the precise role of the 2–receptor in this regard. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2012.
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