Global ETD Search

1	Envolvimento de diferentes sub-regiões do núcleo dorsal da rafe no mecanismo de ação antipânico de fármacos antidepressivos / Involvement of different subregions of the dorsal raphe nucleus in the anti-panic action mechanism of antidepressant drugs Costa, Heloísa Helena Vilela 17 October 2017 (has links) Diversas evidências indicam que o núcleo dorsal da rafe (NDR), principal fonte de inervação serotonérgica para estruturas límbicas, é uma estrutura heterogênea composta por populações de neurônios serotonérgicos anatômica e funcionalmente distintas, as quais têm sido diferentemente implicadas na fisiopatologia dos transtornos de ansiedade, como o transtorno do pânico. Fármacos antidepressivos são a primeira escolha para o tratamento de tais transtornos e o atraso para a manifestação dos efeitos terapêuticos desses fármacos tem sido, consistentemente, associado a alterações na neurotransmissão serotonérgica. Entretanto, ainda é desconhecido se estas alterações podem ser heterogêneas entre as diferentes sub-regiões do NDR e é este o foco de investigação do presente estudo. Inicialmente, foi investigado o perfil de ativação neuronal das diferentes sub-regiões do NDR, através da avaliação da expressão de proteína Fos, em ratos submetidos à tarefa de fuga no modelo do labirinto em T elevado, após administração aguda ou crônica com a fluoxetina ou a imipramina. Nestes mesmos animais, foram também avaliado o número de células triptofano hidroxilase positivas. Para fins comparativos, o efeito do tratamento com a imipramina em animais submetidos à esquiva inibitória também foi avaliado. A análise imunoistoquímica indicou que a tarefa de fuga promoveu um aumento na expressão da proteína Fos em neurônios nãoserotonérgicos localizados na sub-região das asas laterais do NDR. Efeito este que não foi observado em animais tratados cronicamente com a fluoxetina e a imipramina. Além disso, o tratamento prolongado com a fluoxetina, mas não com a imipramina, foi capaz de aumentar a ativação de neurônios serotonérgicos nesta mesma sub-região. Diferente do que foi observado na tarefa de fuga, a tarefa de esquiva inibitória promoveu um aumento na ativação de neurônios serotonérgicos nas sub-regiões DRC, DRD e DRV. Perfil que não foi observado nos grupos aguda e cronicamente tratados com imipramina. Além disso, somente o tratamento prolongado com a imipramina promoveu uma diminuição no recrutamento de neurônios não-serotonérgicos em diversas sub-regiões do NDR. Diante do resultado imunoistoquímico observado no experimento com a fluoxetina, avaliamos a participação dos autorreceptores 5-HT1A das asas laterais no efeito observado. Através da técnica whole-cell patch clamp, em uma linhagem de camundongos transgênicos que apresenta neurônios serotonérgicos fluorescentes, foi avaliada a responsividade destes receptores após o tratamento com a fluoxetina. Os resultados indicam que os animais tratados cronicamente com fluoxetina apresentam aumento na excitabilidade basal com diminuída sensibilidade ao agonista de receptores 5-HT1A, 8-OHDPAT. Assim, é possível sugerir que o efeito antipânico da fluoxetina administrada cronicamente parece estar relacionado com uma redução na ativação de neurônios não-serotonérgicos e um aumento no recrutamento de neurônios serotonérgicos localizados nas asas laterais, sendo que esta última pode ser explicada pela dessensibilização dos autorreceptores 5-HT1A. Com relação à imipramina, é possível sugerir que o efeito panicolítico promovido pelo tratamento prolongado pode ser devido à diminuição no recrutamento de neurônios não-serotonérgicos das asas laterais. Já para o efeito ansiolítico, tanto a diminuição no recrutamento de neurônios não-serotonérgicos em diferentes sub-regiões do NDR, quanto a diminuição na ativação de neurônios serotonérgicos no DRC, DRD e DRV parecem estar envolvidas. / A wealth of evidence indicates that the dorsal raphe nucleus (DR) is a heterogeneous structure, composed of anatomically and functionally distinct populations of serotonergic neurons, which have been differently implicated in the pathophysiology of anxiety, such as panic disorder. Antidepressant drugs are the first choice in treatment of anxiety disorders, and the delay for the therapeutic effect have consistently been associated with changes in serotonergic neurotransmission within the DR. However, it is unknown whether these alterations can be heterogeneous among the different subregions of the DR, and this is the focus of investigation of the present study. First, it was investigated the profile of neuronal activation of different subregions of the DR - by using the evaluation of Fos protein expression of rats exposed to the escape task in the elevated T-maze test, after acute or chronic administration of fluoxetine or imipramine. In the same animals, it was also investigated the number of positive triptophan hidroxylasis cells. For comparative reasons, it was evaluated the behavioral and immunohistochemical effects of imipramine treatment on inhibitory avoidance acquisition in the elevated T-maze, a response associated with anxiety. The results of the immunohistochemical analysis indicated that animals exposed to escape behavior exhibited higher expression of Fos protein in non-serotonergic neurons in the DR lateral wings. This effect was not observed in fluoxetine or imipramine chronically treated animals. Moreover, chronic treatment with fluoxetine, but not imipramine, was able to increase the activation of serotonergic neurons on this subregion. On the other hand, the inhibitory avoidance task promoted an increase in the activation of serotonergic neurons in the sub-regions DRC, DRD, and DRV. This profile was not observed after acute or chronic treatment with imipramine. Additionally, only the long-term treatment with imipramine showed a decrease in the activation of non-serotonergic neurons in different subregions of the DR. Based on the results obtained with fluoxetine experiment, we evaluated the role of the 5-HT1A autoreceptors located in the lateral wings. For this, we used the whole-cell patch clamp technique in a transgenic mouse line, which exhibit fluorescence in serotonergic neurons. The results indicate that the animals treated chronically with fluoxetine presented an increase in the basal excitability, with lower responsivity to the 5-HT1A agonist - 8-OH-DPAT. Altogether, the results suggest that the anti-panic effect caused by chronic fluoxetine treatment is associated with a reduction in the activation of non-serotonergic neurons, and an increase in the recruitment of non-serotonergic neurons in lateral wings. This last observation seems to be related to a 5-HT1A autoreceptor desensitization in the lateral wings. Regarding imipramine, this panicolytic effect caused by chronic administration of this drug seems to be related to a decreased activation of the non-serotonergic neurons in the lateral wings. Finally, the anxiolytic effect, of imipramine may be associated to a decrease in the recruitment of non-serotonergic neurons in different DR subregions, allied with a decreased activation of serotonergic neurons in the DRC, DRD and DRV. 5-HT1A receptor Antidepressant Antidepressivo Dorsal raphe nucleus Núcleo dorsal da rafe Panic Pânico Receptor 5-HT1A
2	Envolvimento de diferentes sub-regiões do núcleo dorsal da rafe no mecanismo de ação antipânico de fármacos antidepressivos / Involvement of different subregions of the dorsal raphe nucleus in the anti-panic action mechanism of antidepressant drugs Heloísa Helena Vilela Costa 17 October 2017 (has links) Diversas evidências indicam que o núcleo dorsal da rafe (NDR), principal fonte de inervação serotonérgica para estruturas límbicas, é uma estrutura heterogênea composta por populações de neurônios serotonérgicos anatômica e funcionalmente distintas, as quais têm sido diferentemente implicadas na fisiopatologia dos transtornos de ansiedade, como o transtorno do pânico. Fármacos antidepressivos são a primeira escolha para o tratamento de tais transtornos e o atraso para a manifestação dos efeitos terapêuticos desses fármacos tem sido, consistentemente, associado a alterações na neurotransmissão serotonérgica. Entretanto, ainda é desconhecido se estas alterações podem ser heterogêneas entre as diferentes sub-regiões do NDR e é este o foco de investigação do presente estudo. Inicialmente, foi investigado o perfil de ativação neuronal das diferentes sub-regiões do NDR, através da avaliação da expressão de proteína Fos, em ratos submetidos à tarefa de fuga no modelo do labirinto em T elevado, após administração aguda ou crônica com a fluoxetina ou a imipramina. Nestes mesmos animais, foram também avaliado o número de células triptofano hidroxilase positivas. Para fins comparativos, o efeito do tratamento com a imipramina em animais submetidos à esquiva inibitória também foi avaliado. A análise imunoistoquímica indicou que a tarefa de fuga promoveu um aumento na expressão da proteína Fos em neurônios nãoserotonérgicos localizados na sub-região das asas laterais do NDR. Efeito este que não foi observado em animais tratados cronicamente com a fluoxetina e a imipramina. Além disso, o tratamento prolongado com a fluoxetina, mas não com a imipramina, foi capaz de aumentar a ativação de neurônios serotonérgicos nesta mesma sub-região. Diferente do que foi observado na tarefa de fuga, a tarefa de esquiva inibitória promoveu um aumento na ativação de neurônios serotonérgicos nas sub-regiões DRC, DRD e DRV. Perfil que não foi observado nos grupos aguda e cronicamente tratados com imipramina. Além disso, somente o tratamento prolongado com a imipramina promoveu uma diminuição no recrutamento de neurônios não-serotonérgicos em diversas sub-regiões do NDR. Diante do resultado imunoistoquímico observado no experimento com a fluoxetina, avaliamos a participação dos autorreceptores 5-HT1A das asas laterais no efeito observado. Através da técnica whole-cell patch clamp, em uma linhagem de camundongos transgênicos que apresenta neurônios serotonérgicos fluorescentes, foi avaliada a responsividade destes receptores após o tratamento com a fluoxetina. Os resultados indicam que os animais tratados cronicamente com fluoxetina apresentam aumento na excitabilidade basal com diminuída sensibilidade ao agonista de receptores 5-HT1A, 8-OHDPAT. Assim, é possível sugerir que o efeito antipânico da fluoxetina administrada cronicamente parece estar relacionado com uma redução na ativação de neurônios não-serotonérgicos e um aumento no recrutamento de neurônios serotonérgicos localizados nas asas laterais, sendo que esta última pode ser explicada pela dessensibilização dos autorreceptores 5-HT1A. Com relação à imipramina, é possível sugerir que o efeito panicolítico promovido pelo tratamento prolongado pode ser devido à diminuição no recrutamento de neurônios não-serotonérgicos das asas laterais. Já para o efeito ansiolítico, tanto a diminuição no recrutamento de neurônios não-serotonérgicos em diferentes sub-regiões do NDR, quanto a diminuição na ativação de neurônios serotonérgicos no DRC, DRD e DRV parecem estar envolvidas. / A wealth of evidence indicates that the dorsal raphe nucleus (DR) is a heterogeneous structure, composed of anatomically and functionally distinct populations of serotonergic neurons, which have been differently implicated in the pathophysiology of anxiety, such as panic disorder. Antidepressant drugs are the first choice in treatment of anxiety disorders, and the delay for the therapeutic effect have consistently been associated with changes in serotonergic neurotransmission within the DR. However, it is unknown whether these alterations can be heterogeneous among the different subregions of the DR, and this is the focus of investigation of the present study. First, it was investigated the profile of neuronal activation of different subregions of the DR - by using the evaluation of Fos protein expression of rats exposed to the escape task in the elevated T-maze test, after acute or chronic administration of fluoxetine or imipramine. In the same animals, it was also investigated the number of positive triptophan hidroxylasis cells. For comparative reasons, it was evaluated the behavioral and immunohistochemical effects of imipramine treatment on inhibitory avoidance acquisition in the elevated T-maze, a response associated with anxiety. The results of the immunohistochemical analysis indicated that animals exposed to escape behavior exhibited higher expression of Fos protein in non-serotonergic neurons in the DR lateral wings. This effect was not observed in fluoxetine or imipramine chronically treated animals. Moreover, chronic treatment with fluoxetine, but not imipramine, was able to increase the activation of serotonergic neurons on this subregion. On the other hand, the inhibitory avoidance task promoted an increase in the activation of serotonergic neurons in the sub-regions DRC, DRD, and DRV. This profile was not observed after acute or chronic treatment with imipramine. Additionally, only the long-term treatment with imipramine showed a decrease in the activation of non-serotonergic neurons in different subregions of the DR. Based on the results obtained with fluoxetine experiment, we evaluated the role of the 5-HT1A autoreceptors located in the lateral wings. For this, we used the whole-cell patch clamp technique in a transgenic mouse line, which exhibit fluorescence in serotonergic neurons. The results indicate that the animals treated chronically with fluoxetine presented an increase in the basal excitability, with lower responsivity to the 5-HT1A agonist - 8-OH-DPAT. Altogether, the results suggest that the anti-panic effect caused by chronic fluoxetine treatment is associated with a reduction in the activation of non-serotonergic neurons, and an increase in the recruitment of non-serotonergic neurons in lateral wings. This last observation seems to be related to a 5-HT1A autoreceptor desensitization in the lateral wings. Regarding imipramine, this panicolytic effect caused by chronic administration of this drug seems to be related to a decreased activation of the non-serotonergic neurons in the lateral wings. Finally, the anxiolytic effect, of imipramine may be associated to a decrease in the recruitment of non-serotonergic neurons in different DR subregions, allied with a decreased activation of serotonergic neurons in the DRC, DRD and DRV. Antidepressivo Núcleo dorsal da rafe Pânico Receptor 5-HT1A 5-HT1A receptor Antidepressant Dorsal raphe nucleus Panic
3	Transcriptional Regulatory Mechanisms of Freud-1, a Novel Mental Retardation Gene Souslova, Tatiana 31 May 2011 (has links) The mechanisms that govern the repression of 5-HT1A receptor gene expression mediated by a novel mental retardation gene, Freud-1, were examined in HEK293 and SKNSH cells. This study provides a possible mechanism of 5-HT1A receptor gene regulation by Freud-1, which, to mediate its action, recruits Swi/Snf and Sin3A/histone deacetylase (HDAC) complexes in non-neuronal HEK293 cells and Swi/Snf only in neuronal, 5-HT1A receptor-expressing SKNSH cells. Thus, Freud-1 has a dual mechanism of repression depending on cell type: HDAC dependent in HEK293 cells and HDAC independent in SKNSH cells. In addition, I present evidence that Freud-1 is not sumoylated at its consensus sumoylation sites and I present the lipid binding properties of Freud-1 and Freud-1 mutants. Freud-1 non-syndromic mental retardation transcriptional regulation 5-HT1A receptor gene
4	Transcriptional Regulatory Mechanisms of Freud-1, a Novel Mental Retardation Gene Souslova, Tatiana 31 May 2011 (has links) The mechanisms that govern the repression of 5-HT1A receptor gene expression mediated by a novel mental retardation gene, Freud-1, were examined in HEK293 and SKNSH cells. This study provides a possible mechanism of 5-HT1A receptor gene regulation by Freud-1, which, to mediate its action, recruits Swi/Snf and Sin3A/histone deacetylase (HDAC) complexes in non-neuronal HEK293 cells and Swi/Snf only in neuronal, 5-HT1A receptor-expressing SKNSH cells. Thus, Freud-1 has a dual mechanism of repression depending on cell type: HDAC dependent in HEK293 cells and HDAC independent in SKNSH cells. In addition, I present evidence that Freud-1 is not sumoylated at its consensus sumoylation sites and I present the lipid binding properties of Freud-1 and Freud-1 mutants. Freud-1 non-syndromic mental retardation transcriptional regulation 5-HT1A receptor gene
5	Transcriptional Regulatory Mechanisms of Freud-1, a Novel Mental Retardation Gene Souslova, Tatiana 31 May 2011 (has links) The mechanisms that govern the repression of 5-HT1A receptor gene expression mediated by a novel mental retardation gene, Freud-1, were examined in HEK293 and SKNSH cells. This study provides a possible mechanism of 5-HT1A receptor gene regulation by Freud-1, which, to mediate its action, recruits Swi/Snf and Sin3A/histone deacetylase (HDAC) complexes in non-neuronal HEK293 cells and Swi/Snf only in neuronal, 5-HT1A receptor-expressing SKNSH cells. Thus, Freud-1 has a dual mechanism of repression depending on cell type: HDAC dependent in HEK293 cells and HDAC independent in SKNSH cells. In addition, I present evidence that Freud-1 is not sumoylated at its consensus sumoylation sites and I present the lipid binding properties of Freud-1 and Freud-1 mutants. Freud-1 non-syndromic mental retardation transcriptional regulation 5-HT1A receptor gene
6	Transcriptional Regulatory Mechanisms of Freud-1, a Novel Mental Retardation Gene Souslova, Tatiana January 2011 (has links) The mechanisms that govern the repression of 5-HT1A receptor gene expression mediated by a novel mental retardation gene, Freud-1, were examined in HEK293 and SKNSH cells. This study provides a possible mechanism of 5-HT1A receptor gene regulation by Freud-1, which, to mediate its action, recruits Swi/Snf and Sin3A/histone deacetylase (HDAC) complexes in non-neuronal HEK293 cells and Swi/Snf only in neuronal, 5-HT1A receptor-expressing SKNSH cells. Thus, Freud-1 has a dual mechanism of repression depending on cell type: HDAC dependent in HEK293 cells and HDAC independent in SKNSH cells. In addition, I present evidence that Freud-1 is not sumoylated at its consensus sumoylation sites and I present the lipid binding properties of Freud-1 and Freud-1 mutants. Freud-1 non-syndromic mental retardation transcriptional regulation 5-HT1A receptor gene
7	Effects of Pharmacological Manipulation of the Serotonergic/Cholinergic Systems on Sleep Structure in Two 5-HT1A Genotypes: Implications for a Model of Depression Biard, Kathleen January 2015 (has links) The serotonergic and cholinergic systems are jointly involved in regulating sleep but this balance is theorized to be disturbed in depressed individuals (Janowsky 1972, Jouvet 1972). One potential cause of disturbed neurotransmission is genetic predisposition. The G(-1019) allele of the 5-HT1A receptor predicts an increased risk for depression compared to the wild-type C(-1019) allele. The goal of this study was to use pharmacological probes in normal controls to model the serotonergic/cholinergic imbalance of depression and its associated abnormalities in sleep structure while controlling for 5-HT1A receptor genotype. Seventeen healthy female participants homozygous for either C (n=11) or G (n=6) alleles, age 18-27 years were tested on four non-consecutive nights. Participants were given galantamine (an anti-acetylcholinesterase), buspirone (a serotonergic agonist), both drugs together, or placebos before sleeping. Buspirone suppressed tonic REM: there was a significant increase in REM latency (p<0.001). Galantamine increased tonic REM sleep, leading to more time spent in stage REM (p<0.001) and shorter REM latency (p<0.01). Galantamine and buspirone given together tended to negate the effects of each other on REM sleep measures but disrupted sleep more than either drug alone, showing lower SE and N3% and increased awakenings, Wake% and N1% (p<0.019). There was no main effect of genotype nor was there a significant multivariate interaction between genotype and drug condition. These findings are partially consistent with the literature about sleep in depression, notably short REM latency, higher percentage of total sleep time spent in REM, and increased sleep fragmentation. The C/G mutation in the 5-HT1A receptor does not appear to cause noticeable differences in the sleep patterns of healthy young females. Sleep Depression Sleep structure REM serotonin acetylcholine buspirone galantamine neurotransmission 5-HT1A receptor genetic risk factors
8	The potential utility of 5-HT1A receptor antagonists in the treatment of cognitive dysfunction associated with Alzheimer s disease. Schechter, L.E., Dawson, L.A., Harder, Josie A. January 2002 (has links) No / The 5-HT1A receptor has been extensively studied over the last two decades. There is a plethora of information describing its anatomical, physiological and biochemical roles in the brain. In addition, the development of selective pharmacological tools coupled with our understanding of psychiatric pathology has lead to multiple hypotheses for the therapeutic utility of 5- and in particular 5-HT1A receptor antagonists. Over the last decade it has been suggested that 5-HT1A receptor antagonists may have therapeutic utility in such diseases as depression, anxiety, drug and nicotine withdrawal as well as schizophrenia. However, a very compelling rationale has been developed for the therapeutic potential of 5-HT1A receptor antagonists in Alzheimer s disease and potentially other diseases with associated cognitive dysfunction. Receptor blockade by a 5-HT1A receptor antagonist appears to enhance activation and signaling through heterosynaptic neuronal circuits known to be involved in cognitive processes and, as such, represents a novel therapeutic approach to the treatment of cognitive deficits associated with Alzheimer s disease and potentially other disorders with underlying cognitive dysfunction. 5-HT1A receptor antagonists HT1A agents Alzheimer s disease Cognitive dysfunction
9	Lecozotan (SRA-333): a selective serotonin1A receptor antagonist that enhances the stimulated release of glutamate and acetylcholine in the hippocampus and possesses cognitive-enhancing properties. Harder, Josie A., Womack, Matthew D., Schechter, L.E., Smith, D.L., Childers, W., Rosenzweig-Lipson, S., Sukoff, S. January 2005 (has links) No / Recent data has suggested that the 5-HT1A receptor is involved in cognitive processing. A novel 5- HT1A receptor antagonist, 4-cyano-N- [(2R)-[4- (2,3-dihydrobenzo [1,4] dioxin-5-yl) piperazin-1-yl] propyl]-N-pyridin-2-yl-benzamide hydrochloride (lecozotan), which has been characterized in multiple in vitro and in vivo pharmacologic assays as a drug to treat cognitive dysfunction, is reported. In vitro binding and intrinsic activity determinations demonstrated that lecozotan is a potent and selective 5-HT1A receptor antagonist. Using in vivo microdialysis, lecozotan (0.3 mg/kg sc) antagonized the decrease in hippocampal extracellular 5-HT induced by a challenge dose (0.3 mg/kg sc) of 8 OH-DPAT and had no effects alone at doses 10-fold higher. Lecozotan significantly potentiated the potassium chloride-stimulated release of glutamate and acetylcholine in the dentate gyrus of the hippocampus. Chronic administration of lecozotan did not induce 5-HT1A receptor tolerance or desensitization in a behavioral model indicative of 5- HT1A receptor function. In drug discrimination studies, lecozotan (0.01-1 mg/kg im) did not substitute for 8-OH-DPAT and produced a dose-related blockade of the 5-HT1A agonist discriminative stimulus cue. In aged rhesus monkeys, lecozotan produced a significant improvement in task performance efficiency at an optimal dose (1 mg/kg po). Learning deficits induced by the glutamatergic antagonist MK-801 (assessed by perceptually complex and visual spatial discrimination) and by specific cholinergic lesions of the hippocampus (assessed by visual spatial discrimination) were reversed by lecozotan (2 mg/kg im) in marmosets. The heterosynaptic nature of the effects of lecozotan imbues this compound with a novel mechanism of action directed at the biochemical pathologies underlying cognitive loss in AD. 5-HT1A 5-HT1A receptor Alzheimer's Disease Cognition Lecozotan Serotonin antagonist
10	Efeitos do canabidiol no comportamento agressivo induzido por isolamento social em camundongos / Cannabidiol effects on agressive-like behaviors induced by social isolation in mice Alice Hartmann dos Santos 28 January 2016 (has links) O Canabidiol (CBD), principal composto não-psicotomimético da Cannabis sativa, possui diversas propriedades farmacológicas, incluindo a indução de efeitos tipoantidepressivos e ansiolíticos em roedores após administração sistêmica. O isolamento social aumenta comportamentos agressivos em camundongos, condição denominada agressão induzida pelo isolamento social ou agressão territorial. Drogas ansiolíticas e antidepressivas podem atenuar comportamentos agressivos. Desse modo, o objetivo do presente trabalho foi avaliar se o CBD atenuaria comportamentos agressivos induzidos pelo isolamento social em camundongos. Camundongos Suíços machos (7-8 semanas de idade no dia do isolamento, 30-40 g no dia do teste) foram mantidos isolados (camundongos residentes) para indução dos comportamentos agressivos. Paralelamente, camundongos co-específicos (camundongos intrusos) foram mantidos agrupados (oito por caixa). Neste modelo, um camundongo intruso da mesma linhagem, sexo e idade foi colocado na caixa moradia do residente. As interações entre os camundongos residente e intruso foram gravadas por 20 min e a latência para a primeira mordida contra o intruso, o número de ataques e o tempo total de ataques foram analisados por um observador cego aos grupos experimentais. Após 10 dias de isolamento social, foi testado se a administração aguda (i.p.) de CBD (5, 15, 30 ou 60 mg/kg), 30 min antes do teste, atenuaria comportamentos agressivos dos camundongos residentes contra os intrusos. Para avaliar a participação de receptores 5-HT1A e CB1 nos efeitos do CBD, grupos independentes de animais receberam 1 injeção prévia de WAY 100635 (antagonista dos receptores 5-HT1A, 0,3 mg/kg) ou AM251 (antagonista dos receptores CB1, 1 mg/kg), 30 min antes do CBD (15 mg/kg). Para controlar possíveis efeitos motores da droga, grupos independentes de animais tratados com doses efetivas de CBD ou não efetivas de WAY100635 ou AM251 foram submetidos ao actímetro para avaliação da atividade locomotora total. O CBD (15 mg/kg) aumentou a latência para o residente atacar o intruso e este efeito foi atenuado tanto pela administração prévia de AM251 (VEI+VEI: 186,62±83,16; VEI+CBD: 956,25±150,77; AM+VEI: 271,71±156,18; AM+CBD: 395,86±208,24; p=0,030) quanto WAY100635 (VEI+VEI: 116,33±29,38; VEI+CBD: 860,87±177,36; WAY+VEI: 305,12±159,16; WAY+CBD: 302,57±154,68; p=0,011). Além disso, o CBD reduziu o número de ataques em todas as doses testadas (VEI: 23,00±3,66; CBD 5: 12,25±2,43; CBD 15: 6,62±2,43; CBD 30: 7,71±3,24; CBD 60: 8,16±2,36; p=0,002) e as doses intermediárias (15 e 30 mg/kg) foram capazes de diminuir o tempo total de ataques (VEI: 114,37±22,65; CBD 5: 80,87±23,83; CBD 15: 40,00±14,58; CBD 30: 25,86±12,88; CBD 60: 54,67±9,68; p=0,018), ambos os efeitos sendo atenuados pelo AM251 (Número de ataques - VEI+VEI: 19,25±2,56; VEI+CBD: 3,25±2,36; AM+VEI: 22,86±4,97; AM+CBD: 14,14±4,10; p=0,028; Tempo total de ataques - VEI+VEI: 66,62±9,19; VEI+CBD: 11,75±9,56; AM+VEI: 118,86±31,00; AM+CBD: 58,71±17,45; p=0,049) e WAY100635 (Número de ataques - VEI+VEI: 30,83±6,77; VEI+CBD: 7,87±4,68; WAY+VEI: 22,50±5,06; WAY+CBD: 23,57±6,74; p=0,059; Tempo total de ataques - VEI+VEI: 151,17±32,65; VEI+CBD: 16,75±10,88; WAY+VEI: 113,75±24,66; WAY+CBD: 76,29±21,36; p=0,002). Não foi observado efeito motor do CBD em nenhuma das doses testadas, bem como do WAY100635 e AM251. Esses resultados evidenciam que o CBD atenua comportamentos agressivos em camundongos e nos permitem sugerir um mecanismo misto, visto que há o envolvimento de receptores CB1 e 5-HT1A. Desse modo, este fitocanabinoide poderia ser uma alternativa terapêutica para tratar comportamentos agressivos associados a transtornos psiquiátricos / Cannabidiol (CBD), a major non-psychotomimetic compound from Cannabis sativa plant, induces anxiolytic- and antidepressant-like effects in rodents after systemic administration. Long-term individual housing increases aggressive behavior in mice, a condition named isolation-induced aggression or territorial aggression, which can be attenuated by anxiolytic and antidepressant drugs. Thus, the aim of the present study was to verify whether CBD would attenuate the aggressive behavior induced by social isolation. Male Swiss mice (7-8 weeks of age on the isolation day, 30-40 g on the test day) were individually housed (resident mice) to induce aggressive behavior, while conspecific mice (intruder mice) were grouped housed (eight per cage). In this model, an intruder mouse of the same strain, sex and age is placed in the resident home cage. The resident-intruder interactions were videotaped for 20 min and the latency to the first bite against the intruder, the number of attacks and the total duration of aggressive encounters were recorded and later analyzed by an observer blind to the treatment groups. After 10 days of social isolation, we tested if acute intraperitoneal CBD administration (5, 15, 30 and 60 mg/kg) to the resident mice 30 min prior to the test would attenuate aggressive-like behavior towards the intruder animal. To evaluate the involvement of 5-HT1A and CB1 receptors in the CBD effects, independent groups of animals were injected with WAY100635 (0.3 mg/kg) or AM251(1 mg/kg) 30 min prior to CBD (15 mg/kg). To control possible motor effects, independent animals treated with effective doses of CBD or ineffective doses of WAY100635 or AM251 were submitted to the actimeter to evaluate the total locomotor activity. CBD (15 mg/kg) increased latency to attack the intruder and this effect was attenuated by the prior administration of AM251 (VEI+VEI: 186.62±83.16; VEI+CBD: 956.25±150.77; AM+VEI: 271.71±156.18; AM+CBD: 395.86±208.24; p=0.030) or WAY100635 (VEI+VEI: 116.33±29.38; VEI+CBD: 860.87±177.36; WAY+VEI: 305.12±159.16; WAY+CBD: 302.57±154.68; p=0.011). Moreover, CBD reduced the number of attacks in all tested doses (VEI: 23.00±3.66; CBD 5: 12.25±2.43; CBD 15: 6.62±2.43; CBD 30: 7.71±3.24; CBD 60: 8.16±2.36; p=0.002) as well as the duration of aggressive behavior encounters in the intermediary doses (15 and 30 mg/kg; VEI: 114.37±22.65; CBD 5: 80.87±23.83; CBD 15: 40.00±14.58; CBD 30: 25.86±12.88; CBD 60: 54.67±9.68; p=0.018), both effects were attenuated by AM251 (Number of attacks - VEI+VEI: 19.25±2.56; VEI+CBD: 3.25±2.36; AM+VEI: 22.86±4.97; AM+CBD: 14.14±4.10; p=0.028; Total time of attacks - VEI+VEI: 66.62±9.19; VEI+CBD: 11.75±9.56; AM+VEI: 118.86±31.00; AM+CBD: 58.71±17.45; p=0.049) and WAY100635 (Number of attacks - VEI+VEI: 30.83±6.77; VEI+CBD: 7.87±4.68; WAY+VEI: 22.50±5.06; WAY+CBD: 23.57±6.74; p=0.059; Total time of attacks - VEI+VEI: 151.17±32.65; VEI+CBD: 16.75±10.88; WAY+VEI: 113.75±24.66; WAY+CBD: 76.29±21.36; p=0.002). CBD, in all tested doses, as well as WAY100635 and AM251, did not induce locomotor changes. These findings suggest that CBD decreases aggressive behaviors in mice and allow us to suggest that this effect involves CB1 and 5-HT1A receptors. Therefore, this phytocannabinoid may be therapeutically useful to treat aggressive behaviors that are usually associated with psychiatric disorders Agressividade Canabidiol Receptor 5-HT1A Receptor CB1 Residente-Intruso 5-HT1A Receptor Agressiveness Cannabidiol CB1 Receptor Resident-Intruder

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