Global ETD Search

61	Padrão da atividade locomotora e expressão de EAAC1 e GLT1 no córtex pré-frontal e entorrinal de ratos criados em isolamento a partir do desmame / Pattern of locomotor activity and expression of EAAC1 and GLT1 in prefrontal and entorhinal cortex of rats reared in isolation from weaning Nayanne Beckmann Bosaipo 20 July 2012 (has links) O estresse por isolamento social aplicado em ratos a partir do desmame e mantido durante o desenvolvimento encefálico tem sido utilizado como um modelo experimental de desordens psiquiátricas como a esquizofrenia. Tem sido demonstrado que o isolamento induz alterações morfológicas, comportamentais (como hiperatividade em um novo ambiente) e neuroquímicas semelhantes àquelas que ocorrem em humanos esquizofrênicos. Evidências sugerem que as sinapses glutamatérgicas sejam o sitio primário das anormalidades que ocorrem na esquizofrenia, sendo as alterações dopaminérgicas secundárias às glutamatérgicas. Nesse sentido, alterações nos mecanismos de regulação desta neurotransmissão pelos transportadores de glutamato podem contribuir para o desenvolvimento e/ou manutenção da esquizofrenia. Neste estudo analisamos o padrão de atividade locomotora e a expressão de transportadores de glutamato (EAAC1 e GLT1) no córtex pré-frontal e córtex entorrinal de ratos criados em isolamento a partir do desmame. Ratos Wistar machos (PND21) foram aleatoriamente alocados em 2 grupos (n=11-12): controle (agrupados, 3 animais/caixa) ou isolados (1 animal/caixa) por 10 semanas. Os animais foram testados no campo aberto (arena) durante 20 min. e registrados: números de cruzamentos (exploração horizontal), número de levantamentos (exploração vertical) e tempo despendido, tanto no centro como na periferia da arena. Os grupos foram comparados utilizando ANOVA ou teste t de Student (significante quando p 0.05). Os animais foram anestesiados (uretana-Sigma, 25%, 5ml/kg), perfundidos e os encéfalos retirados, congelados e posteriormente utilizados nos experimentos de imunoistoquímica. Secções (40m) do córtex pré-frontal (CPF) e córtex entorrinal (CE) foram utilizadas para o estudo da expressão de EAAC1 e GLT1. A criação em isolamento induziu hiperatividade, com um aumento no número total de cruzamentos em relação aos animais agrupados (F1,22=0,38; p<0,05), sendo mais consistente na periferia da arena e após 5 minutos de teste (73%, (F1,22=14,08; p<0,001). Em contraste, o isolamento induziu redução no número total de levantamentos (F1,22=0,27; p=0,05), principalmente no centro da arena (58%, F1,22=12,48; p<0,01), nos primeiros 15 minutos de teste e significante no 1° e 3° blocos de tempo (BT1 e BT3). Na periferia o isolamento induziu aumento significante no número de levantamentos em BT2 e BT3. O tempo despendido no centro e na periferia da arena pelos animais criados em isolamento foi, respectivamente, reduzido (54%; F1,22=11,11; p<0,001) e aumentado (65%; F1,22=11,20; p<0,01) quando comparados aos animais agrupados. A expressão de EAAC1 foi significantemente aumentada pelo isolamento no CPF (38%, t= 2,730, p=0,017). Em contraste, nenhuma diferença foi encontrada no CE (t= 1,892; p= 0,081). O isolamento não induziu alteração no número de células imunopositivas para GLT1 no CPF (t=-1,28; p=0,21). Entretanto, marcação fluorescente de GLT1 foi observada associada a células gliais e neuroniais do CPF e CE. Os resultados comportamentais sugerem: i) ratos Wistar criados em isolamento social apresentam hiperatividade em novo ambiente; ii) a hiperatividade locomotora somente é detectável após períodos maiores que cinco minutos de exposição a um novo ambiente; iii) o padrão de exploração apresentado pelos animais demonstra clara preferência pela periferia da arena. Os resultados moleculares fornecem evidências para a participação dos transportadores de glutamato na redução da neurotransmissão glutamatérgica no CPF de ratos criados em isolamento a partir do desmame. / Isolation rearing of rats from weaning has been used as an experimental model of psychiatric disorders like schizophrenia. It has been demonstrated that isolation induces morphological, behavioral (like hyperactivity in a novel environment) and neurochemical changes similar to those reported for humans with schizophrenia. Evidence suggest that glutamatergic synapses might be the site of primary abnormalities in this disorder with the dopaminergic changes being secundary to the glutamatergic ones. In this context, changes on the mechanisms of regulation of the glutamatergic neurotransmission through glutamate transporters may contribute to the development and/or maintenance of schizophrenia. In this study we analyzed the pattern of locomotor activity and the expression of glutamate transporters (EAAC1 and GLT1) in prefrontal cortex and entorhinal cortex of rats reared in social isolation from weaning. Male Wistar rats (PND 21) were randomly allocated in 2 groups (n=11-12): control (grouped, 3 animals/cage) or isolated (1 animal/cage) for 10 weeks. The animals were tested in the open field (arena) for 20min. and recorded: number of crossings (horizontal exploration), number of rearings (vertical exploration) and time spent either at the center or at the periphery of the arena. The groups were compared using ANOVA or Sudents \"t\" test (significance level was set at p 0.05). The animals were anesthetized (urethane-Sigma, 25%, 5ml/kg), perfused and the brains removed, frozen and further used on the experiments of immunohistochemistry. Sections (40m) of the prefrontal córtex (PFC) and entorhinal córtex (EC) were used for studying the expression of EAAC1 and GLT1. Isolation rearing induced hyperactivity, with an increase in the number of crossings related to grouped animals (F1,22=0,38; p<0,05), being more consistent at the periphery of the arena and after 5 minutes of test (F1,22=14,08; p<0,001). In contrast, isolation induced a decrease in the total number of rearings (F1,22=0,27; p=0,05), mainly in the center of the arena (58%, F1,22=12,48; p<0,01), in the first 15 minutes of test and significant on the 1st and 3rd blocks of time (BT1 e BT3). In the periphery isolation induced a significant increase in the number of rearings in BT2 and BT3. The time spent in both center and periphery of the arena by the rats reared in isolation was, respectively, decreased (54%; F1,22=11,11; p<0,01) and increased (65%; F1,22=11,20; p<0,01) when compared to grouped rats. The expression of EAAC1 was significantly increased by isolation in PFC (38%, t = 2,730, p = 0,017). In contrast, no change was found in EC (t = 1,892, p = 0,081). Isolation rearing did not induce alterations in the number of immunopositive cells for GLT1 in PFC (t= -1,28; p = 0,21). However, fluorescent labeling of GLT1 was seen associated to both glial cells and neuronal cells. The behavioral results suggest: i) Wistar rats reared in social isolation present hyperactivity in a novel environment; ii) the hyperactivity is only detectable after periods longer than 5 minutes; iii) the pattern of exploration showed by the animals demonstrate clear preference for the periphery of the arena. The molecular results provide evidence for the involvement of glutamate transporters on the reduction of glutamatergic neurotranmission in PFC of rats reared in isolation from weaning. Atividade Locomotora Campo aberto Córtex entorrinal. Córtex pré-frontal EAAC1 Esquizofrenia GLT1 Imunoistoquímica Isolamento social EAAC1 Entorhinal cortex. GLT1 Immunohistochemistry Isolation rearing Locomotor activity Open field. Prefrontal cortex Schizophrenia
62	Epilepsia espontânea em Trinomys yonenagae (Rodentia, Echimyidae): ocorrência e comportamento / Spontaneous epilepsy in trinomys yonenagae (rodentia, echimyidae): occurrence and behavior Laís Mendes Ruiz Cantano 02 July 2013 (has links) Apresentamos dados e argumentos que indicam que: a) as crises epilépticas apresentadas por Trinomys yonenagae em campo e em cativeiro são espontâneas e idiopáticas; e b) elas podem ser decorrentes de processos evolutivos. A epilepsia nesta espécie foi caracterizada em cativeiro a partir de um cadastro iniciado há 16 anos, formado por progenitores e descendentes de seis colônias de T. yonenagae, coletados na Caatinga de Ibiraba (BA), e adultos (129,90 ± 5,92g) e filhotes nascidos em cativeiro num total de 295 indivíduos. A prevalência e a incidência em indivíduos epilépticos (EE) foram estimadas e as crises epilépticas foram analisadas por meio das manifestações comportamentais, baseando-se na escala de Racine. Aspectos da procriação (n=11), a locomoção, a ansiedade (testes de arena, n= 35) e índices fisiológicos (balanço hídrico-alimentar, n=6), importantes ao fitness, foram mensurados. Somente duas colônias apresentaram EE representando 9% e 28% dos nascimentos. Do total de indivíduos (165 e 130) 9,8% são EE (n=29; 14 e 15), sendo que as representam 52% e os 48%. A prevalência é de 20 a 30% e a incidência variou de 2 a 10 casos/ano, nos últimos cinco anos. As crises são observadas somente em adultos (n=24) a menor latência é de 13m e a frequência é variável (1 a 24 em seis anos). A maioria iniciou-se por congelamento e 50% atingiram o estágio 5 da escala de Racine. Em todos os casais, de 5 a 50% dos filhotes são EE e ocorreu estro pós-parto, como esperado para a espécie. Os filhotes são saudáveis e tanto a média de filhotes por ninhada (1,9±0,3), como a média do número de ninhadas por casal (6,5±5,0) é igual à de casais não epilépticos (NE). O teste de arena indica que descendentes de EE (DE) e as EE são menos ansiosas que as NE. Não há diferença entre os grupos dos índices fisiológicos estimados. A diferença no número de EE nas colônias, a alta prevalência e % de filhotes EE, e a diferença de comportamento das fêmeas DE indicam a base genética desta epilepsia. Neste contexto, consideramos que em Trinomys yonenagae, a epilepsia límbica não compromete o fitness, o que abre possibilidades de ser decorrente de processos evolutivos envolvendo o escalonamento de respostas de anti-predação / We present data and discuss the possibility that: a) the seizures presented by Trinomys yonenagae in the wild and in captivity are spontaneous and idiopathic, and b) they may be due to evolutionary processes. Epilepsy was characterized in this species in captivity from a survey started 16 years ago, made up of parents and descendants from six colonies of T. yonenagae collected in the Caatinga of Ibiraba (BA), and adults (129.90 ± 5.92 g) and pups born in captivity in a total of 295 individuals. The prevalence and incidence in individuals with epilepsy (EE) were estimated and seizures were analyzed by behavioral manifestations, based on Racine´s scale. Locomotion and anxiety indexes (open-field test, n = 35), as well as aspects of breeding (n = 11) and physiological indicators (balance food and water, n = 6), important to fitness were measured. Only two colonies showed EE, representing 9% and 28% of births. Approximately 10% of total individuals (165 and 130 ) are EE (n = 29, 14 and 15 ), and the represent 52 and 48%. In the last five years prevalence is 20-30%, and incidence ranged from 2 to 10 cases/ year. Seizures are only observed in adults (n = 24), the lowest latency is 13 months and the frequency is variable (1 to 24 in six years). The first stage is freezing and 50% reached stage 5 of Racine´s scale. In all couples, 5-50% of puppies are EE and occurred postpartum estrus, as expected for the species. The puppies are healthy and both the average offspring per litter (1.9 ± 0.3), as well as the average number of litters per couple (6.5 ± 5.0) is equal to values presented by non-epileptic couples (NE). The open-field test indicates that descendants of EE (DE) and EE are less anxious than NE. There is no difference between EE and NE regarding food and water intake. The difference in the number of EE in the colonies, the high percentage of EE pups, and the difference in the behavior of DE indicate the genetic basis of this epilepsy. In this context, we consider that in Trinomys yonenagae the limbic epilepsy seems to not compromise the fitness, which opens possibilities to be the result of evolutionary processes involving the escalation of antipredator responses Balanço hídrico e alimentar Crises epilépticas límbicas Equimídeo Escala de Racine Reprodução Teste de arena Trinomys yonenagae Echimyidae Food and hydric balance Limbic epileptic seizures Open-field test Racine´s scale Reproduction Trinomys yonenagae
63	Lentiviral vector mediated haematopoietic stem cell gene therapy for mucopolysaccharidosis type IIIA Langford-Smith, Alexander William Walker January 2012 (has links) Mucopolysaccharidosis type III (Sanfilippo) is comprised of four phenotypically similar lysosomal storage disorders (MPS IIIA-D) caused by the deficiency of enzymes that catabolise heparan sulphate (HS). Progressive accumulation of HS results in abnormal behaviour, progressive cognitive and motor impairment and death in mid-teens. There are currently no treatments for MPS III. To assess the effect of novel therapeutics in the mouse models of MPS III it is necessary to examine the effect on primary storage of HS, secondary storage and behaviour. The reported behaviour of MPS IIIA and B mice is conflicting therefore we developed a one-hour open field test, performed at the same time of day during a period of hyperactivity observed in a previous circadian rhythm study of MPS IIIB mice. At 8 months of age MPS IIIB mice were hyperactive, with increased rapid exploratory behaviour and a reduction in immobility time. The MPS IIIA mice presented with the same behavioural phenotype as the MPS IIIB mice and were significantly hyperactive at 4 and 6 months of age and also displayed a reduced sense of danger. The hyperactivity and reduced sense of danger observed in the mice is consistent with the patient phenotype. Whilst haematopoietic stem cell transplant (HSCT) is the standard therapy used to treat the similar HS storage disorder MPS I Hurler, it is ineffectual in MPS IIIA. We hypothesise that HSCT failure in MPS IIIA is due to insufficient enzyme production in the brain by donor-derived microglial cells. By increasing expression of N-sulphoglucosamine sulphohydrolase (SGSH) we may be able to treat MPS IIIA. Therefore we compared the effect of HSCT using normal haematopoietic stem cells (WT-HSCT) to lentiviral overexpression of SGSH in normal cells (LV-WT-HSCT) or MPS IIIA cells (LV-IIIA-HSCT) in MPS IIIA mice, using the behavioural tests developed.SGSH activity in the brain of MPS IIIA recipients was not significantly increased by WT-HSCT, but was significantly increased by LV-IIIA-HSCT and LV-WT-HSCT. HS was significantly reduced by all transplants but the best treatment was LV-WT-HSCT. Neuroinflammation, indicated by the number of microglia in the brain, was significantly reduced by all treatments but remains significantly elevated. GM2 gangliosides were significantly reduced by WT-HSCT and LV-WT-HSCT and were no longer significantly elevated, but LV-IIIA-HSCT had no significant effect. Critically LV-WT-HSCT corrected the behaviour at 4 and 6 months of age whilst the other treatments had no significant effect. LV-WT-HSCT and WT-HSCT reduced GM2 gangliosides and neuroinflammation equally but only LV-WT-HSCT corrected behaviour and primary HS storage, suggesting they are the important factors in MPS IIIA pathology. LV-WT-HSCT corrects the neurological phenotype in MPS IIIA mice and is a clinically viable approach to treat MPS IIIA and other neuropathic lysosomal storage disorders. 616.8
64	Avaliação das atividades locomotora e nociceptiva diárias e sazonais de lagartos mantidos em condições ambientais controladas / Evaluation of daily and seasonal locomotor and nociceptive activities of lizards under controled environmental conditions Shayne Pedrozo Bisetto 15 December 2016 (has links) O uso de répteis como modelos experimentais é limitado, principalmente devido às particularidades fisiológicas da classe, como as oscilações diárias e sazonais em seu comportamento. O objetivo deste estudo foi avaliar a atividade locomotora e nociceptiva de teiús (Salvator merianae) e iguanas-verdes (Iguana iguana) submetidos a testes comportamentais, ao longo do dia e do ano. Foram utilizados seis exemplares de cada espécie, mantidos em sala com temperatura ambiental (24 a 30°C) e fotoperíodo (12h:12h) controlados. Esses foram avaliados ao longo do dia (0:00h, 6:00h, 12:00h, 18:00h) e ao longo do ano (análise mensal). A análise locomotora foi realizada através do teste de campo aberto (teiús e iguanas), no qual o animal foi colocado no centro de uma arena circular por 15 minutos, e recebeu um ponto por cada ultrapassagem pelas subdivisões da mesma; e pelo teste de natação forçada (iguanas), no qual o tempo de atividade foi mensurado em piscina sem saída por 2 minutos. A resposta nociceptiva foi avaliada por meio de mensuração do período de latência do membro em resposta a estímulo nocivo térmico (25 segundos; 245 ± 7 mW/cm2) na superfície plantar do membro do animal. Não foram detectadas oscilações ao longo do ano no teste de campo aberto em nenhuma das espécies. Ao longo do dia, oscilações foram detectadas de Fevereiro a Dezembro em teiús; e em Abril, Maio, Junho e Outubro em iguanas. O tempo de atividade das iguanas foi menor em Janeiro e às 0:00h. Maiores latências de retirada do membro foram observadas nos meses de Maio e Agosto e às 6:00h em ambas espécies. Conclue-se que teiús e iguanas-verdes em ambiente controlado apresentam oscilações significativas em comportamento observado em teste de campo aberto, teste de natação forçada (somente iguanas) e teste plantar, que aparentemente não seguem padrões anuais claros, sendo provavelmente influenciado por fatores múltiplos ainda não compreendidos para as espécies. / The use of reptiles as experimental models is limited due to their physiological particularities, such as daily and annual fluctuations in behavior. The aim of this study was to evaluate locomotor and nociceptive activities of tegus (Salvator merianae) and green iguanas (Iguana iguana) throughout the day and the year, when undergoing behavioral tests. Six animals from each species, kept under controlled room temperature (24 to 30°C) and photoperiod (12h:12h), were used. They were evaluated throughout the day (0:00h, 6:00h, 12:00h and 18:00) and the year (monthly). Locomotor activity was measured by the open field test, in which the animal was placed in the center of a round arena for 15 minutes and the number of crossings through the subdivisions of the arena was counted, and by the forced swim test (iguanas), in which the activity period was timed after animals were placed in a pool with no scape for 2 minutes. Nociceptive activity was measured as the latency to limb withdrawal reflex in response to a noxious thermal stimulus (25 seconds, 245 ± 7 mW/cm2) in the plantar surface of the animal\'s limb. No differences were detected in locomotor activity in the open field test throughout the year in both species. Throughout the day, fluctuations were detected from February to December in tegus, and in April, May, June and October in iguanas. Activity period in iguanas were shorter in January and at 0:00h. Longer latencies to withdrawal reflex were detected in May and August and at 6:00h in both species. In conclusion, tegus and green iguanas kept in controlled environment have fluctuations in behavior presented in the open field test, the forced swim (only iguanas) test and the plantar test, which apparently do not follow a clear seasonal pattern and are probably influenced by multiple factors that are still unknown for both species. Iguana iguana Salvator merianae Rítmo circadiano Ritmo circanual Teste de campo aberto Teste de natação forçada Teste plantar Iguana iguana Salvator merianae Circadian rhythm Circannual rhythm Forced swim test Open field test Plantar test
65	Effets de la densité parasitaire et de la condition corporelle sur les traits de personnalité et les performances cognitives d’un poisson d’eau douce (Lepomis gibbosus) Thelamon, Victoria 03 1900 (has links) Le parasitisme est omniprésent dans l’environnement et une attention croissante est récemment apportée sur son impact sur les communautés écologiques. En effet, les parasites peuvent affecter la valeur adaptative des animaux sauvages, en altérant leur physiologie et/ou leur comportement. Ainsi, le rôle des parasites dans le maintien ou l’érosion des différences persistantes comportementales et cognitives entre individus est le sujet de nombreux débats et recherches. La relation entre l’infection parasitaire et le comportement de l’hôte est souvent complexe. Le comportement des individus agit sur leur susceptibilité au parasitisme, mais l’infection parasitaire peut aussi modifier le comportement de l’hôte, favorisant parfois la transmission du parasite. En outre, l’inclusion d’un proxy de santé, tel que la condition corporelle est importante à considérer dans des populations naturellement infectées où la santé des individus peut varier. Dans cette étude, nous avons examiné la relation entre un gradient de densité parasitaire, la personnalité (exploration et témérité), la cognition (apprentissage par stimuli aversifs) et la condition corporelle (Indice K de Fulton) chez les crapets-soleil (Lepomis gibbosus) sauvages, naturellement infectés par des endoparasites, comme le trématode responsable de la maladie du point noir (Trematoda : Apophallus sp. et Uvulifer sp.) et le ver solitaire de l’achigan (Cestoda : Proteocephallus ambloplites). Nous avons trouvé que l’exploration, mais pas la témérité, était répétable ce qui suggère que ce trait reflète la personnalité. De plus, l’exploration a diminué avec l’augmentation de la densité de parasites et la diminution de la condition corporelle de l’hôte. Ainsi, étant donné que la relation entre le comportement explorateur et la densité de parasites variait avec la condition corporelle, il est possible que les parasites aient un effet indirect sur le comportement de l’hôte en impactant sa physiologie. L’exploration variait également selon la densité de points noirs et la densité de cestodes, suggérant un potentiel conflit entre ces deux parasites, leurs hôtes finaux étant différents. Les individus avec plus de cestodes ont moins bien exécuté la tâche d’apprentissage, ce qui laisse à penser que ces parasites imposeraient un coût énergétique qui réduit les performances cognitives de l’hôte. Nos résultats contribuent à démontrer que les parasites et la condition corporelle de l’hôte doivent être pris en considération dans les études écologiques, comportementales ou physiologiques afin de mieux comprendre le maintien des variations inter-individuelles au sein des populations sauvages. / Parasites are ubiquitous in nature and increasing attention is given to their impact on ecological communities. Indeed, parasites can affect host fitness through changes in physiology and/or behaviour. Thus, their role in maintaining or eroding persistent inter-individual differences in behaviour (i.e. personality) and cognitive abilities in hosts is the subject of increasing study and debate. The relationship between parasite infection and host behaviour can sometimes be complex. For instance, personality traits may affect an individuals’ susceptibility to parasites. Conversely, parasite infection can itself modify host behaviour, sometimes favouring the parasite’s own transmission. In addition, including a general fitness proxy, such as body condition, is important when studying naturally infected populations, where individual health can vary greatly among individuals. Here, we examine the relationships among host body condition (Fulton’s K index), personality (i.e. exploration, boldness), cognition (aversive learning) and parasite density in wild pumpkinseed sunfish (Lepomis gibbosus), naturally infected with endoparasites, including trematodes causing blackspot disease (Trematoda: Apophallus sp. and Uvulifer sp.) and bass tapeworms (Cestoda: Proteocephallus ambloplites). We found that exploration but not boldness was repeatable, which suggests that this trait reflects personality. Host exploration decreased with both increasing parasite density and decreasing host body condition. Because the relationship between exploration and parasite density varied with body condition, this suggests a possible indirect effect of parasites on host behaviour through effects on host physiology. Exploration varied depending on blackspot and bass tapeworm density suggesting a possible conflict between these two parasites, as their final hosts are different. Inhibitory avoidance learning decreased with increasing cestode density, suggesting that these parasites could impose an energetic cost which decreases host cognitive performances. Our results provide more evidence that including host body condition and parasite density in ecological, behavioural or physiological studies can help better understand the persistence of inter-individual differences in wild populations. Interactions hôte/parasite poisson d’eau douce Apophallus sp. Proteocephalus ambloplites test en espace ouvert test du refuge trait compartmental behavioural trait freshwater fish host/parasite interactions open field test shelter test
66	Phänotypische und molekulare Analyse einer Maus mit Insertionsmutation und axonaler Reorganisation im Hippocampus / Phenotypic and molecular analysis of a mouse insertional mutation with axonal reorganization in hippocampal brain Böhm, Detlef 02 May 2001 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Hippocampus Moosfaser-Sprouting TIMM Insertionsmutante PLC-ß1 Phospholipase C beta 1 PKC NMDA Radial Labyrinth Offenes Feld hippocampus mossy fiber sprouting TIMM insertional mutation PLC-ß1 phospholipase C beta 1 PKC NMDA radial maze open field 42.13 42.15 42.20 WJL 000: Molekulargenetik {Biologie}
67	Characterization of Behavioral Profiles for Inbred P and NP and Congenic P.NP and NP.P Rats Jensen, Meredith 27 August 2012 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Alcoholism inheritance rates have been estimated as high as 60% in a human population. Many significant features of alcohol dependence have been replicated in rodent animal models of alcoholism, however not in totality. These animal models include inbred preferring (iP) and nonpreferring (iNP) rat types. Congenic rats have been engineered from the iP and iNP strains whereby a P congenic rat has in its genome a well-chosen chromosomal portion taken from an NP rat (P.NP) and, reciprocally, an NP congenic rat has acquired the analogous DNA from a P rat (NP.P). In this case, a quantitative trait locus (QTL) from chromosome 4 is the donor genetic material for the congenic rats. It is of great interest to further study this chromosome 4 QTL because it has been found to control a significant portion of ethanol consumption behavior in iP and iNP rats. This study aimed to behaviorally profile the iP, iNP and reciprocal congenic rats. As a result of the behavioral profiling of these genetically related groups, some conclusions could be made regarding which behaviors appear to be controlled by the chromosome 4 donor DNA.This study primarily utilized the Multivariate Concentric Square Field apparatus (MCSF) to characterize behavioral profiles for the inbred and congenic rats. The Open field (OF) and Elevated plus maze (EPM) supported this effort. The MCSF is valuable in that it allows for the animals to interact within an environment that has ethological value. The 12 different zones that make up the field are characterized by some functional quality in terms of type and duration of behavior performed, etc. The behavioral data is aggregated and finally represented in terms of five functional categories, the elements of the behavioral profile: general activity, exploratory activity, risk assessment, risk taking, and shelter seeking. The study hypotheses were shaped by prior research suggesting that iPs should display lower general activity and risk taking strategy than iNPs in the MCSF. Inbred Ps should be more active in the OF and spend more time in the center of the EPM. Generally, it is expected that the iP QTL confer behavioral phenotypes to the iNP strain that deviate toward a "P" behavioral phenotype and reciprocally, the iNP QTL confer behavioral phenotypes to the iP strain that deviate toward an "NP" behavioral phenotype. The results showed that iP rats performed more risk assessment and risk taking behavior and less shelter seeking and anxiety-like behavior than iNP rats. It followed that P.NP congenic rats significantly downgraded their risk assessment and risk taking behavior when compared to iP rats. This decrease can be attributed to the chromosome 4 QTL donated from the iNP breed. All together this study concludes that risk assessment and risk taking behavior in the iP rats is controlled by the same DNA region that, in part, determines voluntary intake of ethanol consumption. Further fine mapping of the QTL region should help in discovering if the same DNA sequences that influence ethanol intake also significantly influence risk behavior. Congenic rats Preferring rats Nonpreferring rats Alcohol Multivariate concentric square field Open field Elevated plus maze Alcoholism -- Genetic aspects Neuropsychology Neurotoxicology Rats -- Functional genomics Rats as laboratory animals Genomics Reinforcement (Psychology) Risk-taking (Psychology) -- Testing Risk assessment Cognition in animals Animal behavior Rats -- Genetics
68	Effets d'une infection parasitaire sur la condition corporelle et les traits de comportement du crapet-soleil (Lepomis gibbosus) Gradito, Maryane 08 1900 (has links) Le parasitisme est de plus en plus considéré comme un facteur écologique pouvant créer des variations dans le comportement des individus. Toutefois, la direction de causalité entre le comportement et le parasitisme reste incertaine. Les infections expérimentales sont le plus souvent réalisées en laboratoire, limitant les inférences écologiques. À l’aide d’une infection expérimentale semi-naturelle, nous avons infecté avec succès des crapets-soleils (Lepomis gibbosus) dans un lac où ils ont été exposés à une variété de vers parasites (trématodes, cestodes), permettant d’examiner les effets de la co-infection naturelle chez les hôtes. Nous avons mesuré la témérité, l’exploration et l’activité avant et après l’infection expérimentale. En utilisant une approche bayésienne, nous avons trouvé que les traits de comportement initiaux exercent une forte influence sur la susceptibilité à l’infection : les poissons les plus téméraires et/ou les moins actifs au départ ont acquis une plus grande densité de points noirs (c.-à-d. points noirs visibles sous la peau, les nageoires et dans les muscles du poisson) et de cestodes lors de l’infection. Par ailleurs, nous avons montré que la condition corporelle est réduite par la densité de cestodes, suggérant la débilitation de l’hôte. La condition corporelle était corrélée positivement avec la distance parcourue, quel que soit le statut d’infection individuel. Nous avons également trouvé une relation négative entre la distance parcourue après l’infection et la densité de trématodes, suggérant que l’infection causant la maladie des points noirs diminue le niveau d’activité des hôtes. La témérité et l'exploration n'étaient pas affectées par la densité parasitaire ou la condition corporelle. Nous suggérons que la diminution de l’activité est causée par une réponse adaptative de l’hôte, visant à rediriger son énergie pour combattre l’infection. Sachant que les points noirs ont un cycle de vie complexe et que le crapet-soleil est un hôte intermédiaire, ce changement dans le comportement de l’hôte pourrait aider le parasite à compléter sa transmission aux oiseaux-hôtes piscivores en augmentant la prédation sur les poissons infectés. Bien que nous ne puissions confirmer la direction de causalité, nos résultats montrent qu’il existe un lien étroit entre le comportement et le parasitisme. Nous suggérons que deux mécanismes peuvent simultanément agir : le comportement initial des individus influence le risque d’infection, et l’infection peut créer de la variation au niveau de la plasticité comportementale des individus. / Parasitism is increasingly seen as an ecological factor that can create variations in individual behaviour. However, the direction of causality between behaviour and parasitism remains uncertain. Experimental infections are most often conducted in laboratories, limiting ecological inferences. Using a semi-natural experimental infection, we successfully infected pumpkinseed sunfish (Lepomis gibbosus) in a lake where they were exposed to various parasitic worms (trematodes, cestodes), allowing us to examine the effects of natural co-infection in hosts. We measured boldness, exploration, and activity before and after the experimental infection. Using a Bayesian approach, we found that initial behavioural traits strongly influence infection susceptibility: initially bolder and/or less active fish acquired a higher density of black spots (i.e., visible black spots under the skin, fins, and in the fish's muscles) and cestodes during the infection. Additionally, we found that body condition was reduced by cestode density, suggesting host debilitation. Body condition was positively correlated with distance swam, regardless of individual infection status. We also found a negative relationship between distance swam after infection and trematode density, suggesting that infection causing black spot disease decreases host activity levels. Boldness and exploration were not affected by parasite density or body condition. We suggest that a decrease in activity is caused by an adaptive host response to redirect its energy to combat the infection. However, since trematode parasites have a complex life cycle and pumpkinseed sunfish are intermediate hosts, decreases in activity levels following infection may make infected fish more susceptible to predation by piscivorous birds, which is needed for trematodes to complete their life cycles. While we cannot confirm the direction of causality, our results show a close link between behaviour and parasitism. We propose that two mechanisms may simultaneously operate: the initial behaviour of individuals influences their risk of infection, and infection can create variation in behavioural plasticity of individuals. Comportement animal Comportement de maladie Hôte-parasite interactions Indice K de Fulton Poisson d’eau douce Ténia de l’achigan Uvulifer sp. Animal behaviour Bass tapeworm Freshwater fish Fulton condition index Open field test Shelter emergence test Sickness behaviour Host-parasite interactions Biology / Biologie (UMI : 0306)

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