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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
51

The role of monoamines in post traumatic stress disorder (PTSD) using a time dependent sensitization animal model / Zakkiyya Igbal Jeeva

Jeeva, Zakkiyya Igbal January 2004 (has links)
Posttraumatic stress disorder (PTSD) is an anxiety disorder that may result from an exposure to a severely traumatic life-event. It is characterised by a delayed onset of psychological and physical symptoms including re-experiencing the event, avoidance of reminders associated with the trauma, increased autonomic arousal and distinct memory deficits. This disorder is also characterised by a maladaptive hypothalamic-pituitary-adrenal (HPA)-axis response and altered monoamine concentrations in the hippocampus and pre-frontal cortex. The Time Dependent Sensitization (TDS) model is a putative animal model of PTSD that is based on the concept of repeated trauma, using three acute stressors (TS) of intense severity followed by a mild situational reminder (RS) on day 7 subsequent to the acute stressors. The aims of this study were to determine if the Triple Stressor (TS) induces stress and if the situational reminder (RS) is necessary for the maintenance of the stress response over time and whether these two stress responses are qualitatively and quantitively different. This was done to further validate the TDS model and to characterize the development and progression of the stress-related pathology of PTSD. Methods used were High Performance Liquid Chromatography (HPLC) with electrochemical detection (biochemical correlates) for quantifying the monoamines dopamine (DA), noradrenaline (NA) and serotonin (5-HT) concentrations in the hippocampus and pre-frontal cortex (PFC); radio immuno assay (RIA) for the determination of plasma corticosterone concentrations (neuroendocrine parameter) and the use of the Elevated Plus Maze (EPM) to detect anxiety-like behaviour (behavioural analyses). The study was subdivided into an Acute and Re-Stress study (n = 10). In the Acute Study rats were exposed to TS as the only stressor. Group 1 was sacrificed immediately after TS, Group 2 was sacrificed 3 days post TS and Group 3 on day 7 post TS. In the Re-Stress Study both TS and RS were used as stressors. Group 4 was sacrificed immediately after the situational reminder, Group 5 was sacrificed 3 days post RS and Group 6 on day 7 post RS. A group of unstressed rats were used as Control. The results of this study found corticosterone concentrations elevated immediately after the TS (p<0.05). Exposure to the RS resulted in a profound hypocortisolism (p<0.05). These results indicate a possible disturbance in the regulation of the HPA-axis, which manifests as an enhanced negative feed-back upon re-introduction of the stressful situation. Changes in MA concentrations were evident. Although no definite fixed trend is apparent in this study, it is evident that the TDS model does induce monoamine dysregulation. Hippocampal NA. DA and 5-HT concentrations were noted to be elevated on day 7 post TS (p<0.05). On day 7 post RS only hippocampal 5HT was decreased significantly (p<0.05). Behavioural analyses indicate that stress related anxiety was not sustained after the TS but 7 days after the exposure to the RS rats were most anxious (p<0.05). The results confirm that the TDS model does induce PTSD-like symptoms in rats and that the situational reminder (RS) is necessary for the maintenance of the stress response. This model may be useful in the investigation of future experimental pharmacological interventions in the management of PTSD. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2005.
52

A pharmacokinetic-pharmacodynamic relationship study between GABA-ergic drugs and anxiety levels in an animal model of PTSD / Jacolene Myburgh

Myburgh, Jacolene January 2005 (has links)
Posttraumatic stress disorder (PTSD) is classified as an anxiety disorder and the characteristic symptoms (re-experiencing, avoidance as well as numbing of general responsiveness and hyperarousal) of this disorder develop in response to a traumatic event. The disorder is characterised by hypothalamic-pituitary-adrenal (HPA) axis abnormalities linked with changes in cortisol moreover, the hippocampus and cortex also play a role in the neurobiology. With regard to the neurochemistry of this disorder it is known that gamma amino butyric acid (GABA) is involved however, the precise role of GABA in PTSD and how stress changes GABA concentrations in the brain are still not fully understood. Another aspect regarding PTSD that has not been clearly defined is the treatment of PTSD. Classic anxiolytics such as diazepam is expected to relieve the anxiety linked with PTSD. Studies with this group of drugs have however not produced the concrete evidence needed to establish it as a treatment of choice for PTSD and subsequently other classes of drugs have been investigated as possible treatment options for PTSD. Among these is lamotrigine, which in a clinical study was found to be effective in alleviating symptoms of PTSD. Moreover, a possible pharmacokinetic-pharmacodynamic relationship for each of these drugs has also not been elucidated. In order to elude on some of these uncertainties, an animal model of PTSD, time dependent sensitisation (TDS), was used. GABA levels in the rat hippocampus and frontal cortex were determined at two different time intervals following the TDS procedure (1 day and 7 days post re-stress). High performance liquid chromatography (HPLC) with electrochemical (EC) detection was used to determine gamma amino butyric acid (GABA) concentrations. To investigate the possible anxiolytic effects of diazepam and lamotrigine in this model, as well as a possible pharmacokinetic-pharmacodynamic relationship for each drug, pharmacokinetic profiles for both drugs were established in order to find the times of peak and trough levels of each drug. Blood samples were collected at different time intervals after drug administration either from the tail vein of rats (lamotrigine) or directly from the heart (diazepam). Subsequently, drug concentrations at each time interval were determined by means of HPLC with ultraviolet (UV) detection. The behaviour of rats was analysed using the elevated plus-maze (EPM) at peak or trough concentrations of the drugs and this was performed after either acute administration of the drug, or after a 14 day chronic treatment regime. GABA levels in the hippocampus were not found to change statistically significantly in response to stress at either 1 day or 7 days post re-stress. In the frontal cortex, however, GABA levels increased in response to stress at 1 day post re-stress, with a statistically insignificant, but strong trend towards an increase, at 7 days post re-stress. With regard to the pharmacokinetic profiles, the peak concentration of diazepam was found to occur at 60 minutes, with lamotrigine's peak at 120 minutes. The behavioural studies indicated that acute treatment with diazepam 3 mg/kg resulted in a statistically significant increase in both ratio open arm entries and ratio time spent in the open arms at peak level of the drug. After acute treatment with diazepam 3 mg/kg a statistically significant decrease in ratio time spent in open arms was also found when the ratio time spent in open arms at peak level of the drug and the ratio time spent in open arms at trough level of the drug was compared. In response to chronic treatment with diazepam 3 mg/kg for 14 days, test animals exhibited an increase in the ratio open arm entries at trough level of the drug, with a statistically insignificant yet definite trend towards an increase at peak level. Acute treatment with lamotrigine 10 mg/kg resulted in no statistically significant change in EPM parameters. In response to chronic treatment, however, a statistically significant increase was found in ratio time spent in open arms at peak level of the drug, with a statistically insignificant trend towards an increase at trough level. From the results of this study, we may therefore conclude that GABA-levels in the brain are definitely affected, but in different ways, following TDS-stress. A pharmacokinetic-pharmacodynamic relationship between the drugs' levels and aversive behaviour could also be established. Furthermore it appears that more sustained anxiolytic effects are evident following chronic treatment with both drugs than with acute administration of these drugs. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2006
53

Avaliação do papel da amídala na antinocicepção induzida pelo medo : análises comportamental, imunoistoquímica e farmacológica

Sorregotti, Tatiani 30 May 2017 (has links)
Submitted by Ronildo Prado (ronisp@ufscar.br) on 2017-08-10T13:43:34Z No. of bitstreams: 1 TeseTS.pdf: 985479 bytes, checksum: 302b5555765b9106acb574df3f32a57c (MD5) / Approved for entry into archive by Ronildo Prado (ronisp@ufscar.br) on 2017-08-10T13:43:42Z (GMT) No. of bitstreams: 1 TeseTS.pdf: 985479 bytes, checksum: 302b5555765b9106acb574df3f32a57c (MD5) / Approved for entry into archive by Ronildo Prado (ronisp@ufscar.br) on 2017-08-10T13:43:49Z (GMT) No. of bitstreams: 1 TeseTS.pdf: 985479 bytes, checksum: 302b5555765b9106acb574df3f32a57c (MD5) / Made available in DSpace on 2017-08-10T13:43:56Z (GMT). No. of bitstreams: 1 TeseTS.pdf: 985479 bytes, checksum: 302b5555765b9106acb574df3f32a57c (MD5) Previous issue date: 2017-05-30 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Exposure of rodents to an open elevated plus maze (oEPM, an EPM with all four open arms) elicits antinociceptive responses, high level of plasma corticosterone and defensive behaviors. However, very little is known about the neural substrates and neurotransmitters that modulate the antinociceptive responses and the defensive behavior of oEPM-exposed animals. It is known that the amygdala plays an important role in the modulation of defensive behavior and pain responses. Accordingly, the Experiment 1 investigated the effects of chemical inactivation of the amygdala [through local injection of cobalt chloride (CoCl2: a nonspecific synaptic blocker)] on the nociception of mice injected formalin into the right hind paw (nociceptive test) and on the defensive behavior of oEPM-exposed mice. Results showed that the amygdala inactivation induced an antinociceptive response in mice injected formalin into the right hind paw when exposed to the glass-cage (safe situation). However, the antinociceptive response was not altered when mice were exposed to the oEPM (aversive situation). In addition, the mice amygdala inactivation reduced the time spent in the proximal area of the arms as well as the frequency of stretched attend postures (SAP), and increased time spent in the arm ends and the head-dipping frequency, suggesting an anxiolytic-like effect. Experiment 2 assessed the pattern of activation of the basolateral (BLA) and central (CeA) nuclei of the amygdala through quantification of Fos protein expression in mice exposed to the oEPM (aversive situation) or injected with formalin into the right hind paw. Fos-positive labeled cells were bilaterally increased in the amygdaloid complex, particularly in the BLA, compared to the control groups. Whereas the neuropeptide corticotropin-releasing factor (CRF) plays a role in the modulatory system of defensive and antinociceptive responses to aversive situations, the Experiment 3 investigated the effects of intra-amygdala microinjections of CRF1 antagonist (CP376395) on these responses on mice exposed to the oEPM. Results showed that the antinociceptive and defensive responses did not change by the blocked of CRF1 in the amygdala. These results are suggestive that the amygdala (in particular, its BLA nucleus) plays a role in the modulation of nociceptive response induced by formalin test and in the modulation of defensive behaviors in oEPM-exposed mice. / Camundongos expostos ao labirinto em cruz elevado aberto (LCEa: 4 braços abertos) exibem intensa resposta antinociceptiva, elevadas concentrações de corticosterona plasmática e comportamentos defensivos. Contudo, substratos e neurotransmissores envolvidos nas respostas antinociceptiva e comportamental eliciadas pela exposição ao LCEa ainda são pouco conhecidos. É possível que o complexo amidaloide esteja envolvido nestas respostas uma vez que destaca-se como uma das principais regiões encefálicas envolvidas no processamento de estímulos aversivos, nas respostas emocionais relacionadas ao medo e na modulação de dor. O presente estudo investigou se a inativação do complexo amidaloide, através da microinjeção de cloreto de cobalto, atenuaria a expressão tanto da dor provocada pelo teste de formalina na pata, como da antinocicepção e comportamentos defensivos de camundongos, sob estímulo nociceptivo ou não, expostos ao LCEa (Experimento 1). Os resultados mostraram que a inativação do complexo amidaloide promoveu um efeito antinociceptivo nos animais submetidos ao teste de formalina e expostos a caixa de vidro (ambiente seguro), porém, não alterou a resposta antinociceptiva e reações de defesa induzidos pela exposição ao LCEa (ambiente aversivo). Por outro lado, na ausência do estímulo nociceptivo, a inativação da amídala promoveu: redução no tempo de permanência dos camundongos nas regiões proximais dos braços do LCEa e na frequência total de SAP (stretched attend posture); e aumento na permanência nas extremidades do LCEa e na frequência de mergulhos (head-dipping), sugerindo efeito ansiolítico. O Experimento 2 teve como objetivo avaliar a ativação neuronal, através da quantificação de proteína Fos, do complexo amidalóide de camundongos submetidos ao teste da formalina na pata e de camundongos expostos ao LCEa. O conjunto de resultados desse experimento demonstrou que o estímulo nociceptivo e a exposição ao LCEa promoveram aumento da expressão de células positivas para a proteína Fos no complexo amidalóide, sobretudo no núcleo basolateral da amídala (BLA), sem haver diferença significativa entre os hemisférios direito e esquerdo. Visto que o CRF desempenha um papel na mediação de respostas defensivas e antinociceptiva eliciadas por estímulos aversivos, investigamos o papel do antagonista de CRF1 (CP376395) na amídala na modulação destas respostas eliciadas em camundongos expostos ao LCEa, sob estímulo nociceptivo ou não. Os resultados mostraram que a inibição dos receptores de CRF do tipo 1 da amídala, sob influência ou não da nocicepção, não alterou a antinocicepção e os comportamentos defensivos induzidos pela exposição ao LCEa. Os resultados sugerem que, independente de lateralização e da neurotransmissão CRF-érgica, a amídala, sobretudo o BLA, tem um papel importante na modulação das respostas nociceptivas induzidas pelo teste de formalina e nas respostas comportamentais de camundongos expostos ao LCEa. / FAPESP: 2014/02956-7
54

Efeito antidepressivo e ansiolítico do extrato metanólico de Hibiscus tiliaceus em modelo animal de depressão pós-parto

Almeida, Eduardo Farina de January 2012 (has links)
Hibiscus tiliaceus L. (Malvaceae) é usado popularmente em desordens do pós-parto. O extrato metanólico de flores de H. tiliaceus apresentou atividade antidepressiva-like nos testes de nado forçado e de suspensão da cauda, ambos são amplamente usados como modelos animais preditivos da atividade antidepressiva. Além disso, o extrato demonstrou uma tendência de aumento do tempo gasto nos braços abertos no labirinto em cruz elevado. Considerando que o extrato de H. tiliaceus, que contém fitoesteróis como o estigmasterol, o stigmastadienol e o stigmastadienone, pode ser útil no tratamento ou prevenção da depressão pós-parto relacionadas à retirada crônica de altos níveis de hormônios associados à gestação. Nosso objetivo foi avaliar o efeito de extratos de H. tiliaceus em modelo animal de depressão pós-parto e ansiedade. Utilizamos ratas Wistar fêmeas submetidas ao modelo de depressão pós-parto induzido por hormônios (estradiol e progesterona), administrados por via subcutânea. Após período gestacional induzido, os animais receberam água, veiculo ou extrato de H. tiliaceus nas doses de 100 e 400mg/kg, via oral (gavagem). No período pós-parto, as ratas foram submetidas a testes comportamentais de nado forçado, o labirinto em cruz elevado e de preferência claro-escuro como modelos preditivo de depressão e ansiedade. Foi obsevado um aumento no tempo de imobilidade associado a uma diminuição na tentativa de fuga, no teste do nado forçado, em animais submetidos ao modelo de depressão pós-parto comparado ao grupo controle, sugerindo que este modelo é capaz reproduzir sintomas de depressão pós-parto. Não houve diferença significativa nos testes de ansiedade entre os animais submetidos ao modelo de depressão pós-parto comparado aos controles. A administração de extrato metanólico de H. tiliaceus não foi capaz de alterar o comportamento relacionado à depressão e ansiedade em ratas Wistar. / Postpartum affective disorders are rarely modeled. The depressive-like behavior of hormone withdrawal following hormone-simulated "pregnancy" was described in Long-Evans and Sprague Dawley rats. Our aim was to evaluate the validity of hormone withdrawal following hormonesimulated "pregnancy" method in Wistar rats as a model of depression and/or anxiety. Recently, it was demonstrated an antidepressant-like profile of methanol extract of Hibiscus tiliaceus L., a plant used in postpartum disorders, in adult male Swiss albino mice, then, we also investigated the antidepressant and anxiolytic-like activities of the methanol extract of H. tiliaceus flowers using this animal model of postpartum disorder. Ovariectomized rats received daily injections of the vehicle or hormones (estradiol and progesterone) to simulate the 23-day gestational period in the rat. Days 24-27 were considered the ''post-partum'' period, where the methanolic extract of H. tiliaceus or vehicle were administered by gavage. Rats were submitted to forced swimming, elevated plus-maze test and lightdark box tests. Rats submitted to ''post-partum depression model'' increased the immobility time in forced swimming. The methanolic extract of H. tiliaceus administration did not alter the immobility time in the forced swim test. In the light-dark box test, rats submitted to post-partum depression model showed decreases in number of rearing in dark compartment. In conclusion, our data indicate that Wistar rats may be an adequate model postpartum affective disorders, showing ''depressive-like'' symptoms in the forced swim test without any anxiogenic effect. Besides, we could suggest that decrease on number of rearing in the dark compartment may indicate the motivational state.
55

Efeitos de antagonistas histaminérgicos H1 e H2 sobre a ansiedade e a memória emocional de camundongos

Kishi, Marcos Seizo 07 August 2009 (has links)
Made available in DSpace on 2016-06-02T20:18:10Z (GMT). No. of bitstreams: 1 2563.pdf: 994088 bytes, checksum: 84ca24683a6c7dfb89d44df7d62a40cc (MD5) Previous issue date: 2009-08-07 / Universidade Federal de Sao Carlos / The aim of present work was to evaluate the effect of chlorpheniramine and zolantidine, histamine H1 and H2 antagonist respectively, on anxiety and on emotional memory in mice, through of two experiments. In the first experiment, forty-one male mice were divided into three groups, according to the pharmacological treatment consisting of intraperitoneal injections of 16 mg/kg of chlorpheniramine (CPA n=13), 20 mg/kg of zolantidine (ZOL n=14) or saline (SAL n=14). In the first day (T1), each mouse was tested for 5 minutes in an elevated plus-maze (EPM). The mice received the pharmacological treatment immediately after test, and 24 h later the animals were resubmitted to EPM (T2). Measures of learning and memory (open arm entries, open arm time, % open arm entries, and % open arm time) were analyzed. Two-way ANOVA showed significant differences within groups in % open arm entries and % open arm time. The student-Newmann-Keuls test for multiple comparisons revealed that both variables were reduced during Trial 2 for the animals treated with SAL, ZOL or CPA, thus indicating decreased open arm activity. In the conditions of the first experiment, chlorpheniramine and zolantidine were shown to have no effect on the consolidation of emotional memory in mice. In the second experiment we used 123 mice which were initially divided into 6 groups and which received i.p. injections of zolantidine (20 mg/kg) or chlorpheniramine at doses of 8.0 mg/kg or 16 mg/kg, each with its respective control (saline). Forty minutes after the injection the mice were for the first time exposed to EPM (T1). After 24 hours (T2), each group was subdivided into two new groups which were re-injected with one of the drugs or saline before re-exposure to the maze. In the two days it were evaluated behaviors related to anxiety (percentage of entries and length of stay in the open arms in T1), rates of learning and memory (reduction of percentage of entries and of length of stay in the open arms in T2), locomotor activity (entries in the closed arms). Zolantidine at a dose of 20 mg/kg, and chlorpheniramine at a dose of 8.0 mg/kg, showed no differences concerning the control, both in T1 and as in the comparison of data from T1 and T2. Furthermore, chlorpheniramine at a dose of 16 mg/kg, reduced activity in the open arms already in T1 and SAL-CPA and CPA-CPA showed no reduction of activity in the open arms in T2. The results suggest that zolantidine has no effect on anxiety or emotional memory, while chlorpheniramine presents an anxiogenic effect at a dose of 16 mg/kg. / O objetivo do presente estudo foi avaliar o efeito da clorfeniramina e da zolantidina, antagonistas H1 e H2 respectivamente, sobre a ansiedade e a memória emocional de camundongos, por meio de dois experimentos. No primeiro experimento, utilizou-se três grupos de camundongos que foram determinados pelo tratamento farmacológico recebido por meio de injeções intraperitoneais (i.p.) de 16 mg/kg de clorfeniramina (CPA n=13), 20 mg/kg de zolantidina (ZOL n=14) ou de salina (SAL n=14). No primeiro dia de teste (T1) cada camundongo foi testado por 5 minutos no labirinto em cruz elevado (LCE) e recebeu o tratamento farmacológico imediatamente após o teste e, 24 h depois, os animais foram reexpostos ao LCE (T2). A análise estatística dos resultados revelou uma redução em T2, com relação a T1, de todas as variáveis avaliadas: entradas nos braços abertos, tempo nos braços abertos, percentual de entradas nos braços abertos e percentual de tempo nos braços abertos e tais resultados nos permitem concluir que, tanto a clorfeniramina quanto a zolantidina não apresentaram efeitos sobre a consolidação da memória emocional de camundongos. No segundo experimento, uma amostra de 123 camundongos foi dividida em 6 grupos que receberam injeções i.p. de zolantidina na dose de 20 mg/kg ou clorfeniramina nas doses de 8,0 mg/kg ou 16 mg/kg, cada qual com seu respectivo grupo controle que recebia o salina. Quarenta minutos após a injeção os camundongos foram expostos pela primeira vez ao LCE (T1) e após 24 horas, cada um dos grupos foi subdividido em dois novos grupos que recebiam novamente a injeção de uma das drogas ou de salina, 40 minutos antes da re-exposição ao labirinto (T2). Em ambos os dias foram avaliados comportamentos relacionados à ansiedade (percentual de entradas e de tempo de permanência nos braços abertos em T1); índices de aprendizagem e memória (redução de percentual de entradas e de tempo de permanência nos braços abertos em T2); atividade locomotora (entradas no braço fechado). A zolantidina não afetou a ansiedade ou a memória emocional dos camundongos, enquanto que a clorfeniramina apresentou efeito ansiogênico somente na dose de 16 mg/kg e tal efeito não permitiu que processos de aprendizagem e memória ligados ao LCE fossem devidamente desenvolvidos.
56

Possível envolvimento do monóxido de carbono na modulação do comportamento emocional em ratos: o papel do locus coeruleus / Involvement of carbono monoxide in the emotional behavior in rats: role of the locus coeruleus.

Rafael Alves Cazuza 03 March 2017 (has links)
O gás monóxido de carbono (CO) possui diversas funções no sistema nervoso central (SNC) funcionando como neuromodulador, como por exemplo da regulação da temperatura corporal, da nocicepção e mais recentemente, do comportamento emocional. Este neuromodulador gasoso é produzido pela ação da enzima heme oxigenase (HO), a qual é encontrada em diferentes áreas do SNC. Com destaque, esta enzima tem alta expressão no locus coeruleus (LC), o que sugere o envolvimento do CO na modulação de funções desempenhadas por esta estrutura. O LC localiza-se na ponte, sendo a maior origem da inervação noradrenérgica do SNC. Esta estrutura tem participação ativa na modulação das respostas relacionadas ao estresse, em particular, na modulação do comportamento emocional, desde que integra o Sistema de Inibição Comportamental (SIC), o qual inclui ainda o sistema septo-hipocampal e os núcleos da rafe. O SIC é responsável por comandar respostas defensivas de avaliação de risco, alerta e atenção, as quais podem ser eliciadas pela ansiedade. Dentro desta perspectiva, o presente estudo teve como objetivo avaliar se a ativação sistêmica da via HO-CO pode modular o comportamento emocional de ratos, e se há participação do LC. Assim, este trabalho avaliou se o tratamento sistêmico via intraperitoneal (i.p.) agudo (3 h antes) ou crônico (10 dias/2 vezes ao dia) com um liberador de monóxido de carbono (CORM-2), ou com indutor da enzima HO (CoPP), altera as respostas comportamentais no teste do labirinto em cruz elevado (LCE) e no teste claro-escuro (TCE) em ratos, bem como a expressão da enzima HO no LC. Em uma segunda etapa foi avaliado se a administração aguda de CORM-2 ou CoPP altera o comportamento avaliado no LCE e no TCE de ratos submetidos ao estresse crônico variado (ECV) por 10 dias. Os resultados mostraram que o CO induzido pela administração aguda ou crônica de CORM-2 ou CoPP possui efeito ansiolítico. Ainda, o tratamento com CORM-2 ou CoPP aumentou a expressão da enzima HO-1 em células localizadas no LC, sem alterar a imunorreatividade à enzima HO-2. Considerando os grupos submetidos ao estresse ECV, nem a ativação da via HO-CO ou o ECV apresentaram efeitos significativos nos comportamentos avaliados nos testes LCE e TCE. Os resultados do presente estudo sugerem que o tratamento sistêmico com drogas que modulam a liberação de CO possui claro efeito ansiolítico. Assim, é possível que o CO possa ser uma droga com potencial terapêutico para o tratamento de desordens neuropsiquiátricas. / The carbon monoxide gas (CO) has several functions in the central nervous system acting as a neuromodulator, such as in the body temperature regulation, nociception and more recently, in the emotional behavior modulation. This gas is produced by the action of the heme oxigenase enzyme (HO), which is found in different areas of the central nervous system (CNS). It is important to note that this enzyme has high expression in the locus coeruleus (LC), suggesting the involvement of CO in the modulation functions performed by this midbrain structure. LC is located in the pons, being the source of majority of the noradrenergic innervation of the CNS. This structure is intimately involved in the stress modulation responses, particularly in the emotional behavior regulation, since it integrates the Behavioral Inhibition System (BIS), which also includes septum-hippocampal system and raphe nucleus. The BIS is responsible for defensive responses like the risk assessment and alertness trigged by anxiety. Within this perspective, the present study was designed to evaluate whether the systemic HO-CO pathway can modulate emotional behavior of rats, and if the HO enzyme of the neurons located into LC is involved in this response. Thus, this study evaluated whether the acute systemic i.p. treatment (3 hours before) or chronic (10 days / 2 times a day) with a carbon monoxide releaser (CORM-2) or inducer of heme enzyme oxygenase (CoPP), is able to alter the behavioral responses in the elevated plus maze (EPM) and in the light-dark box test (LDB) in rats, and the HO enzyme expression in the LC. Furthermore, the effect of the acute administration of CORM-2 or CoPP was evaluated in the emotional behavior assessed in the EPM and LDB by rats submitted to unpredictable chronic stress (during 10 days). The results showed that the CO induced by acute or chronic administration of CORM-2 or CoPP has an anxiolytic-like effect. Furthermore, treatment with CORM-2 or CoPP promoted an increase of HO-1 enzyme expression in cells located in the LC without altering the immunoreactivity of HO-2 enzyme. Still, considering the rats subjected to stress UCS neither the activation of HO-CO pathway nor the UCS protocol altered the emotional behavior evaluated in the EPM and LDB tests. The results of this study suggest that systemic treatment with drugs that modulate the CO release has anxiolytic effect. Thus, it is possible that CO can be a potential drug therapeutic target for neuropsychiatric disorders.
57

Contribuição diferencial do hipocampo ventral e do complexo amidalóide na modulação de respostas defensivas inatas e condicionadas de camundongos /

Amaral, Vanessa Cristiane de Santana. January 2011 (has links)
Orientador: Ricardo Nunes de Souza / Banca: Cleopatra da Silva Planeta / Banca: Hélio Zangrossi Junior / Banca: Marcus Lira Brandão / Banca: Francisco Silveira Guimarães / Resumo: Quando os animais são confrontados com estímulos ambientais ameaçadores como a exposição ao predador ou estímulos como altura, iluminação e estímulos nociceptivos, exibem reações de defesa coordenadas e específicas. Nas últimas décadas, observa-se um crescente interesse pela utilização de estímulos naturalísticos para o estudo das bases neurais de emoções como o medo e ansiedade. Nesse contexto, o teste de exposição ao rato (RET), um novo modelo etológico de interação presa-predador, utilizando camundongos (presa) e ratos (predador), foi desenvolvido para avaliar a expressão de diferentes comportamentos defensivos na presa. Entretanto, poucos estudos foram conduzidos com esse modelo no intuito de investigar as bases neurais das respostas defensivas de camundongos expostos ao rato. Adicionalmente, evidências da literatura destacam que o hipocampo ventral (HV) e o complexo amidalóide (CA) parecem contribuir diferencialmente na modulação de respostas defensivas frente a estímulos proximais (predador) ou potenciais. Assim, o presente estudo foi conduzido para investigar o papel do HV e do CA nas respostas defensivas de camundongos exibidas diante do predador (rato) e do contexto associado ao predador. Para tal, o presente estudo foi dividido em quatro etapas. Na primeira delas, investigamos se o estresse da exposição ao predador no RET altera a secreção de corticosterona em camundongos e determinamos a magnitude e a duração desta secreção. Na segunda etapa, avaliamos o papel do HV e do CA, através da injeção local do agonista de receptores GABAA muscimol (0,1 μg/0,1 μl), na mediação de respostas comportamentais defensivas de camundongos expostos ao RET (situação proximal) e comparamos com aquelas apresentadas durante a exposição ao labirinto em cruz elevado (LCE - situação potencial). Subsequentemente, investigamos se camundongos expostos... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: When animals are confronted with environmental threatening situations such as exposure to a predator as well as to height, high illumination and nociceptive stimuli they exhibit defensive behaviors. Over the past decades there has been a growing interest by the neuroscientists in the use of naturalistic stimuli to the study of the neural systems of the emotions such as fear and anxiety. In this context, the Rat Exposure Test (RET) which is a new ethological model of prey-predator interaction using mice (prey) and rats (predator) was developed in order to evaluate the expression of different defensive behaviors in the prey. However few studies using this model have been carried out with the objective of investigating the neural systems of the defensive behaviors in mice exposed to rats. In addition, evidence in literature has shown that the ventral hippocampus (VH) and the amygdaloid complex (AC) contribute differentially in the modulation of defensive behaviors during exposure to either potential or immediate stimuli (predator). Thus, the present study was aimed at investigating the role of VH and AC in the modulation of defensive behaviors of mice when exposed to predators (rats) as well as the predatory context. The experiment comprised four parts: (i) to investigate both whether stress regarding the exposure to the predator alters the corticosterone secretion in mice and to determine the magnitude and the duration of this secretion; (ii) the role of VH and AC was evaluated through local microinjection of the GABAA receptor agonist muscimol (0,1 μg/0,1 μl) in the modulation of defensive behavioral responses of mice exposed to RET (proximal aversive situation). The responses then were compared to those presented during to the exposure to the elevated plus-maze (EPM - potential aversive situation); (iii) to investigate whether mice exposed to natural predator (rat) in RET exhibit... (Complete abstract click electronic access below) / Doutor
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Fatores hormonais, cognitivos e neuroanatômicos associados ao comportamento exploratório de ratos submetidos ao teste e reteste no labirinto em cruz elevado / Hormonal, cognitive and neuroanatomical factors associated with the exploratory behavior of rats submitted to the test and retest session in the elevated plus maze

Lucas Albrechet de Souza 05 August 2010 (has links)
O protocolo de teste/reteste no labirinto em cruz elevado (LCE) mostra que a experiência prévia no labirinto produz alterações duradouras nas respostas comportamentais de roedores. Nesse contexto, ratos submetidos ao LCE pela primeira vez apresentam um aumento característico na exploração dos braços abertos e uma redução dos comportamentos de avaliação de risco após a administração de drogas ansiolíticas. Na reexposição ao labirinto, porém, essas drogas tornam-se ineficazes em alterar as medidas tradicionais do LCE. Esse fenômeno foi inicialmente observado com o benzodiazepínico clordiazepóxido e referido como one-trial tolerance (tolerância de um ensaio OTT). A proposta do presente estudo é compreender a OTT por meio do exame dos fatores hormonais, cognitivos e neuroanatômicos envolvidos nesse fenômeno. A administração sistêmica do benzodiazepínico midazolam ou de metirapona, um bloqueador da síntese de glicocorticóides, reduziu a frequência dos comportamentos de avaliação de risco e dos níveis plasmáticos de corticosterona quando injetados antes das sessões teste ou reteste. Além disso, a reexposição de ratos ao LCE foi caracterizada por uma avaliação de risco mais proeminente, de acordo com a análise fatorial, e pela ativação de estruturas límbicas envolvidas com aspectos cognitivos do medo, como a região ventral do córtex pré-frontal medial (CPFm) e a amígdala, mostrada por meio da distribuição da proteína Fos. Midazolam administrado antes da primeira exposição ao LCE produziu uma redução significativa do número de neurônios Fos-positivos no córtex cingulado anterior, área 1 (Cg1) e nos núcleos anterior e pré-mamilar dorsal do hipotálamo. Por outro lado, midazolam causou uma redução no número de neurônios Fos-positivos no CPFm, amígdala, núcleo dorsomedial do hipotálamo e núcleos da rafe em ratos reexpostos ao LCE. Cg1 foi a única estrutura-alvo do benzodiazepínico em ambas as sessões. Resultados comportamentais similares aos produzidos pelo tratamento sistêmico foram obtidos com infusões de midazolam intra-Cg1. Esses resultados apontam para um papel crucial dos comportamentos de avaliação de risco no desenvolvimento da OTT e indicam o Cg1 como um importante sítio de ação ansiolítica dos benzodiazepínicos em roedores. / The elevated plus maze (EPM) test/retest protocol has shown that prior experience to the maze produces enduring changes in behavioral responses of rodents. In this context, rats submitted for the first time to the EPM display a characteristic increase in open arm exploration and reduced risk assessment behaviors after the administration of anxiolytic drugs. Upon re-exposure to the maze, however, these drugs become unable to change the traditional measures of the EPM. This phenomenon was initially observed with the benzodiazepine chlordiazepoxide and referred to as one-trial tolerance (OTT). The purpose of the present study is to understand the OTT through the exam of the hormonal, cognitive and neuroanatomical factors involved in this phenomenon. The systemic administration of the benzodiazepine midazolam or metyrapone, a glucocorticoids synthesis blocker, reduced the frequency of risk assessment behaviors and the corticosterone levels when injected before the test or retest sessions. Moreover, the re-exposure of rats to the EPM was characterized by more prominent risk assessment behaviors, according to the factor analysis, and by activation of limbic structures involved with cognitive aspects of fear, such as the ventral regions of the medial prefrontal cortex (mPFC) and amygdala, as shown through the distribution of the Fos protein. Midazolam injected before the first exposure to the EPM produced a significant decrease in the number of Fos-positive neurons in the anterior cingulate cortex, area 1 (Cg1), anterior and dorsal premammillary nuclei of hypothalamus. On the other hand, midazolam caused a decrease in the number of Fos-positive neurons in the mPFC, amygdala, dorsomedial nucleus of hypothalamus and raphe nuclei in rats re-exposed to the EPM. Cg1 was the only structure targeted by the benzodiazepine in both sessions. Behavioral results similar to those produced by systemic treatment were obtained with intra-Cg1 infusions of midazolam. These results point to a crucial role of the risk assessment behaviors in the development of the OTT and indicate the Cg1 as an important locus for the anxiolytic-like action of benzodiazepines in rodents.
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Papel dos receptores dopaminérgicos D1 e D2 do colículo inferior na expressão de respostas incondicionadas e condicionadas de medo / Role of dopamine D1 and D2 receptors of the inferior colliculus in the expression of unconditioned and conditioned fear responses

Ana Caroline Colombo 21 February 2014 (has links)
O colículo inferior (CI) é uma estrutura envolvida primariamente com o processamento da informação acústica, porém participa também na integração dos aspectos sensoriais, autonômicos e comportamentais da reação de defesa frente a situações de ameaça. Além disso, essa estrutura apresenta alta concentração de receptores dopaminérgicos, sendo a dopamina um dos neuromoduladores mais ativos em mecanismos subjacentes a estados de medo e ansiedade. Desta forma, o objetivo do presente estudo foi avaliar o papel dos receptores dopaminérgicos (D1 e D2) do CI na expressão de respostas defensivas incondicionadas ou condicionadas. Para tanto, ratos Wistar machos (±270g, n=186) passaram por cirurgia estereotáxica para implante bilateral de cânulas-guia direcionadas ao CI. Esses animais receberam administração intra-CI de quimpirole (agonista D2), sulpirida (antagonista D2), SKF 38393 (agonista D1) ou SCH 23390 (antagonista D1), em diferentes doses, e foram submetidos aos testes do labirinto em cruz elevado (LCE) e ao campo aberto. Uma dose de sulpirida foi avaliada também no teste do sobressalto potencializado pelo medo (SPM). Quanto à avaliação das respostas defensivas no teste do LCE, foi observado que apenas a sulpirida diminuiu as entradas e o tempo despendido nos braços abertos, ou seja, causou um efeito pró-aversivo. As outras drogas não influenciaram essas respostas defensivas. Um comprometimento no desempenho motor foi observado pela administração intra-CI de quimpirole (diminuição nas entradas nos braços fechados) e de SCH 23390 (diminuição da locomoção no campo aberto). Quanto aos efeitos de sulpirida sobre as respostas defensivas no teste do SPM, nenhuma influência sobre a resposta de amplitude do sobressalto e sobre o congelamento foi constatada. Os dados obtidos apontam para o envolvimento da modulação dopaminérgica por meio de receptores da família D2 no CI na expressão de respostas incondicionadas de medo. Dopamina no CI parece, portanto, ser importante para regular a expressão dessas respostas. Por outro lado, não obtivemos evidências de que tal modulação no CI esteja envolvida na expressão de respostas condicionadas de medo. Portanto, a neurotransmissão dopaminérgica no CI sobre a expressão de respostas defensivas parece ocorrer por meio de receptores da família D2, com ação seletiva na modulação de respostas incondicionadas de medo. / The inferior colliculus (IC) is a structure primarily involved in acoustic information processing, but it also participates in the integration of the sensory, autonomic and behavioral aspects of the defensive reaction to threatening situations. Furthermore, this structure has a high concentration of dopamine receptors, and dopamine is one of the most active neuromodulators in the mechanisms underlying states of fear and anxiety. Thus, the aim of this study was to evaluate the role of IC dopamine receptors (D1 and D2) in the expression of unconditioned and conditioned defensive responses. For this purpose, male Wistar rats (±270 g, n=186) were implanted with bilateral guide cannuli directed to the IC. These animals received intraIC quinpirole (D2 agonist), sulpiride (D2 antagonist), SKF 38393 (D1 agonist) or SCH 23390 (D1 antagonist) at different doses, and were tested in the elevated plus maze (EPM) and the open field tests. A single dose of sulpiride was also evaluated in the fear potentiated startle test (FPS). In the EPM test, it was observed that only sulpiride decreased the numbers of entries and time spent in the open arms of the maze, suggesting an ansiogenic-like effect. The other drugs did not influence these defensive responses. Impairment in motor performance was observed with intraIC quimpirole (decrease in closed arm entries) and SCH 23390 (decrease in locomotion in the open field test). In the FPS test, no significant effects in the amplitude of the startle response and freezing behavior were observed. The data point to an involvement of IC dopaminergic D2-like receptors in the expression of unconditioned fear responses. Dopamine in the IC, therefore, seems to be important for regulating the expression of these responses. On the other hand, there was no evidence that this modulation in the IC is involved in the expression of conditioned fear responses. Therefore, the influence of the dopaminergic neurotransmission in the IC on the expression of defensive responses appears to occur via D2-like receptors, which selectively modulate unconditional fear responses.
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Modelos matemáticos e computacionais para o comportamento do rato no labirinto em cruz elevado / Mathematical and computational models of the rat behavior into the Elevated Plus Maze

Hector Julian Tejada Herrera 28 May 2010 (has links)
O Labirinto em Cruz Elevado (LCE) é um modelo animal para o estudo da ansiedade, suas bases biológicas e os efeitos de diferentes tipos de fármacos sobre o comportamento. Diferentes métodos têm sido usados para estudá-lo, dentro dos quais encontra-se a modelagem computacional. O presente trabalho junta-se a esses estudos utilizando as ferramentas da modelagem computacional para desenvolver dois modelos computacionais e índices que permitiram avaliá-lo. O primeiro deles estuda a maneira como os animais exploram o labirinto usando cadeias de Markov. Esta abordagem rendeu um método de caracterização capaz de identificar os efeitos de certos tipos de fármacos sobre a maneira como o animal explora o LCE, ao mesmo tempo que levanta alguns indícios sobre a quantidade de informação que o rato usa para tomar uma decisão. O segundo foi construído baseado na ideia do conflito como o determinante do comportamento do rato no LCE, adaptando um modelo de rede neural usado para avaliar informação conflitante: o modelo de dipolo chaveado de Grossberg. O objetivo desse segundo modelo foi avaliar a viabilidade de um modelo de competição de três forças: uma que insta explorar locais considerados amedrontadores, uma outra que insta procurar proteção e a última que representa o vigor do animal. Cada uma das forças que compõem o modelo recebe sinais vindos do ambiente e a maneira como processam esses sinais pode ser afetada pelos efeitos de um determinado fármaco. O modelo reproduz os efeitos esperados dos três tipos de fármacos fazendo mudanças em no máximo dois de seus parâmetros. Da mesma maneira, o modelo reproduz parte do comportamento esperado na Arena, precisando apenas de um pequeno ajuste para reproduzir as trajetórias que o animal costuma fazer em torno das paredes desse labirinto. Pode-se concluir que o modelo computacional descreve uma possível maneira de como as variáveis que controlam o comportamento do rato no LCE interagem e de como os fármacos interagem com essas variáveis, permitindo a reprodução do comportamento do rato no LCE e em outros labirintos como a Arena. O modelo foi construído para reproduzir os efeitos de três tipos de fármacos, porém, a maneira como esses tipos de fármacos interagem com o modelo não foi condicionada a um local ou maneira específico. Esta abordagem permite procurar outras interações que não somente reproduzam os efeitos de fármacos conhecidos, mas também possam predizer os efeitos de fármacos ainda não estudados. / The Elevated Plus Maze (EPM) is an animal model for the study of anxiety, its biological foundations, and the effects of different kinds of drugs on behavior. A group of different modeling methods have been used to study the rat behavior in the EPM. One of them characterizes rat behavior the EPM using directed graphs and proposes an index which can be used to classify the drug type and dosis. The other two methods were used to construct computational models for the rat behavior. The first of these models used Markov chains to reproduce the rat behavior. This approach offers a method to characterize the rat behavior, which is able to identify the effects of certain kinds of drugs on the way the rat explores the maze and, at the same time, raises some clues on how much information is used by the animal to take a decision. The second one was built based on the idea that conflict determines the rat behavior in the EPM. Conflict was introduced in the model via an adapted version of Grossberg\'s gated dipole artificial neural network model. The goal was to evaluate the viability of a competition-based model with three kind of drives: a drive to explore threatening places, a drive to seek protection, and a drive to move, related to the energy of the animal. The model receives and processes signals from the environment according to the states of these three drives, and the way in which the signals are processed can be influenced by effects of specific drugs. This model reproduces the expected effects of three types of drugs with modifications of up to two parameters. The model also reproduces part of the expected behavior of the animal in the Arena, a different maze, by requiring only small adjustments to reproduce the trajectory of the rat around the walls. It is possible to conclude that this computational model captures elements of the interaction of variables which control the rat behavior in the EPM and how drugs interact with these variables. These elements may also be present in the rat behavior in the Arena. The tools and models presented here offer new paradigms to study rat behavior in the EPM. They can offer new benchmarks to characterize rat behavior and can be used to study the effects of different drugs and their interactions.

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