Global ETD Search

61	Cytotoxic Lymphocytes in Viral Hepatitis: a Thesis McIntyre, Kim W. 01 April 1987 (has links) The immunological mechanisms involved in virus-induced hepatitis were examined by measuring the cytotoxic capabilities and the morphological and antigenic phenotypes of leukocytes isolated from the livers of virus-infected mice. Large granular lymphocytes (LGL) of both natural killer (NK) cell and cytotoxic T lymphocyte (CTL) phenoytpes [phenotypes] accumulated in livers of mice infected with lymphocytic choriomeningitis virus (LCMV) of either the nonhepatotropic Armstrong strain (LCMV-ARM) or the hepatotropic WE strain (LCMV-WE). NK cell activity and LGL number increased 3- to 4-fold between days 1 and 5 postinfection (p.i.). These LGL were characterized as NK cells on the basis of cell surface antigens, kinetics of appearance, target cell range, and morphology. By day 7 p.i., virus-specific, H-2-restricted, Thy-1+, Lyt-2+CTL activity was present in the liver, and its appearance correlated with a second wave of LGL accumulation. Total CTL activity, leukocyte numbers, and CTL/LGL numbers were at least 5-fold higher in the livers of LCMV-WE-infected mice than in the livers of LCMV-ARM-infected mice. Mice infected with the cytopathic viruses, mouse hepatitis virus and murine cytomegalovirus, experienced greater increases in NK/LGL by day 3 p.i. than did mice either infected with LCMV or injected with poly I:C. The early and late accumulations of LGL in the virus-infected liver were associated with the appearance of two waves of LGL with blast cell morphology expressing the phenotypes of NK cells and CTL, respectively. Thus, the organ-associated accumulation, blastogenesis, and in situ proliferation of cytotoxic LGL provide a means for the localization and site-specific augmentation of a host's cell-mediated antiviral defenses. The mechanism of inhibition of virus synthesis in vivo by immune splenocytes containing virus-specific CTL was examined in mice dually infected with two different viruses and then adoptively immunized with spleen cells immune to one of the two viruses. Only the titer of the virus to which the splenocytes were immune was reduced in titer, and no nonspecific antiviral effect was seen on the titer of the 'bystander' heterologous virus. These data are consistent with an in vivo mechanism of CTL-mediated antiviral resistance involving direct cytotoxicity rather than release and dissemination of antigen-nonspecific antiviral factors, such as interferon, following recognition of appropriate viral antigen. Hepatitis Viral Human Cytotoxicity Tests Immunologic Animal Experimentation and Research Cells Digestive System Digestive System Diseases Hemic and Immune Systems
62	Doenças em caprinos diagnosticadas no Rio Grande do Sul Bassuino, Daniele Mariath January 2017 (has links) Este trabalho tem como objetivo descrever as principais doenças diagnosticadas em caprinos no Setor de Patologia Veterinária da Universidade Federal do Rio Grande do Sul no período de 2000 a 2016. No primeiro artigo foi realizado um estudo retrospectivo das causas de morte em caprinos diagnosticadas de 2000 a 2016. Do total de 322 caprinos necropsiados neste período, 290 (90%) obtiveram um diagnostico conclusivo. Dos casos conclusos, 167 (57,6%) corresponderam a enfermidades de origem infecciosa e toxi-infecciosas e 123 (42,4%) enquadrados em causas não infecciosas. Entre as doenças infecciosas foram contabilizados 54 casos de origem bacteriana, 60 casos com envolvimento parasitário, 14 casos de origem viral, além de 39 casos toxi-infecciosos. As doenças de caráter não infeccioso foram ainda agrupadas em doenças metabólicas (44 casos), intoxicações por plantas ou substâncias tóxicas (36), deficiências minerais e nutricionais (20), neoplasias e distúrbios no desenvolvimento (5). A hemoncose, eimeriose, pleuropneumonias e a enterotoxemia foram as doenças mais frequentemente diagnosticadas neste período. O segundo artigo descreve um surto de tuberculose em caprinos jovens. Onze de um total de 15 caprinos, de cinco a 15 dias de idade, foram positivos ao teste de tuberculina. Na necropsia, o parênquima pulmonar de todos os caprinos positivos apresentavam nódulos de 0,3 a 10 cm de diâmetro, coloração brancacenta a amarelada, ocasionalmente, também observados no fígado e baço Os linfonodos retrofaríngeos, mediastínicos e traqueobrônquicos apresentavam-se acentuadamente aumentados de tamanho e aspecto caseoso. Na avaliação histológica, a lesão era caracterizada por intensa necrose caseosa, com áreas de mineralização distrófica, associados a acentuado infiltrado inflamatório granulomatoso. A coloração de Ziehl-Neelsen e a marcação por imuno-histoquímica anti-complexo Micobacterium tuberculosis evidenciou discreta a moderada quantidade de bacilos álcool-ácido resistentes. O cultivo microbiológico e a análise molecular confirmaram o agente etiológico M. bovis. O terceiro artigo descreve dermatite e hepatopatia tóxica crônica natural e experimental em caprinos associadas ao consumo de farelo de arroz desengordurado. Caprinos jovens, de um a quatro meses de idade, apresentavam alopecia e formações crostosas na pele, apatia, emagrecimento, prurido discreto e, vinham a óbito em um período de 30-40 dias. À necropsia, o fígado apresentava irregularidades na superfície capsular, coloração alaranjada a avermelhada, além de rins com múltiplas áreas circulares brancacentas na superfície capsular. À análise microscópica, acentuada atrofia de hepatócitos em região periportal hepática e moderada degeneração hepatocelular microvacuolar. No estudo experimental comprovou-se a etiologia dos casos, através da manifestação de lesões de pele, hepática e renais similares ao dos casos naturais, entretanto em menor intensidade. / This work aims to describe the main diseases diagnosed in goats in the Sector of Veterinary Pathology of the Federal University of Rio Grande do Sul from 2000 to 2016. The first article describes the main causes of death in goats diagnosed between 2000 and 2016. A conclusive diagnosis was obtained in 290 (90%) cases from a total of 322 goats necropsied. Of these cases, 167 (57.6%) corresponded to infectious and toxi-infectious diseases, and 123 (42.4%) included non-infectious causes. Among the infectious diseases 54 cases were of bacterial origin, 60 cases were caused by parasite agents, 14 cases of viral origin, and 39 toxi-infectious cases. Non-infectious diseases were also grouped into metabolic diseases (44 cases), poisoning by plants or toxic substances (36), mineral and nutritional deficiencies (20), neoplasms and developmental disorders (5). Haemonchosis, eimeriosis, pleuropneumonia and enterotoxemia remain as one of the major control obstacles in goat farms. The second article describes an outbreak of tuberculosis in goat kids. Eleven of a total of 15 kids, from 5 to 15 days old, were positive to tuberculin. At necropsy, the pulmonary parenchyma of all positive goats had white to yellowish nodules of 0.3 to 10 cm in diameter, that were occasionally also observed in the liver and spleen The retropharyngeal, mediastinal and tracheobronchial lymph nodes were markedly enlarged and with a caseous aspect. Histologically, the lesion was characterized by an intense caseous necrosis, with areas of dystrophic mineralization, associated to a marked granulomatous inflammatory infiltrate. Ziehl-Neelsen histochemistry exam and immunohistochemical anti-Micobacterium tuberculosis complex evidenced mild to moderate amount of bacilli. Microbiological culture and molecular analysis confirmed M. bovis as the etiological agent. The third article describes a natural and an experimental toxic liver disease associated with the consumption of defatted rice bran in goats. These presented with alopecia and crusted formations on the skin, apathy, weight loss, mild pruritus, and death within a period of 30-40 days. At necropsy, the liver presented multifocal to coalescing orange to reddish irregular areas on the capsular surface, and the kidneys presented multiple white circular areas on the capsular surface. Microscopic analysis revealed a marked hepatocyte atrophy at the hepatic periportal region, and a moderate microvacuolar hepatocellular degeneration. In the experimental study, the etiology of the cases was demonstrated through the manifestation of lower intensity skin, liver and kidney lesions similar to those of the natural cases. Patologia veterinaria Caprinos Diagnostico veterinario : Caprinos Epidemiologia veterinaria Rio Grande do Sul Goats’ diseases Pathology Diagnosis Animal experimentation
63	Tratamento endovascular de trauma arterial periférico com uso de stents revestidos: estudo experimental em porcos / Endovascular treatment of peripheral arterial injury with covered stents: an experimental study in pigs Sergio Quilici Belczak 26 August 2011 (has links) Introdução: Os traumas arteriais e venosos são responsáveis por expressiva morbimortalidade, e, em determinados territórios, a técnica de restauração aberta acrescenta riscos elevados ao paciente, que podem ser minimizados com o uso de técnicas endovasculares. Objetivos: O objetivo deste estudo foi criar um modelo experimental de trauma vascular periférico penetrante em que se avalia a viabilidade do reparo endovascular em lesões da parede arterial com diferentes extensões cincunferenciais. Método: Vinte porcos brancos machos foram divididos em quatro grupos, de acordo com a extensão circunferencial do trauma arterial: sem lesão arterial (Grupo 1); lesão arterial com extensão circunferencial <50% (Grupo 2); lesão arterial com extensão circunferencial >50%, variando entre 50-80% (Grupo 3); e secção completa (Grupo 4). A artéria carótida comum esquerda foi dissecada com controle arterial proximal e distal, procedimento que se seguiu de secção controlada da parede arterial, fechamento dos planos e compressão manual por dez minutos, seguida de tratamento endovascular com introdução de stent revestido ViabahnTM (5mm x 50 mm) por via de acesso femoral. Resultados: A viabilidade e a reprodutibilidade do modelo experimental proposto foram confirmadas pelo sucesso no tratamento de todos os animais sem trauma e nos animais com lesões <50%. Sucesso da técnica endovascular também foi observado em quatro dos cinco animais com lesões >50% e, em um animal com secção completa. Variáveis como a duração do procedimento, parâmetros ultrassonográficos e arteriográficos, e flutuação dos sinais vitais foram devidamente monitoradas. Conclusões: O reparo endovascular do trauma arterial periférico em animais de experimentação mostrou-se factível com limitação dependendo da extensão circunferencial da lesão. Este modelo experimental, envolvendo técnicas endovasculares, indicou etapas importantes a serem consideradas em outros estudos nestes animais e com a utilização destes materiais. / Background: Additional surgical trauma often increases the risk of major morbidity and mortality associated with vascular injury, and endovascular repair could have many advantages in such situations. Objectives: The aim of this study was to create an experimental animal model of penetrating peripheral artery injury and to evaluate the feasibility of endovascular repair in different degrees of circumferential injury. Methods: Twenty white male domestic pigs were divided into four groups according to the circumferential extent of arterial injury: no injury; circumferential injury extent < 50% or > 50%, ranging between 50- 80%, and complete sectioning. Left common carotid artery was dissected with proximal and distal artery control followed by controlled section of the arterial wall. Local manual compression was applied for 10 minutes followed by endovascular treatment with a 5 x 50 mm ViabahnTM covered stent using the femoral approach. Results: The feasibility and reproducibility of the proposed experimental model was confirmed by the successful treatment of all animals with no injury and with injuries with a circumferential extent < 50%. Success was also achieved in four of the 5 animals in the group with injuries of circumferential extent > 50%, and in one pig in the complete section group. Additional variables were monitored, such as duration of procedure, ultrasound and arteriography parameters and fluctuation of vital signs. Conclusions: Endovascular repair of arterial injury is possible depending on circumferential extension of arterial lesion. This experimental model, involving endovascular techniques, shows important steps to consider in further studies in these animals and use of these materials. Experimentação animal Procedimentos endovasculares Stents Traumatismos das artérias carótidas Animal experimentation Carotid artery injuries Endovascular procedures Stents
64	Capacité de modèles in vitro de complexité différente à prédire les réponses toxiques pulmonaires observées in vivo après exposition aiguë à des nanoparticules de TiO2 et de CeO2 / Predicting the in vivo pulmonary toxicity induced by acute exposure to TiO2 and CeO2 nanoparticules by using in vitro methods Loret, Thomas 20 March 2017 (has links) Les nanoparticules (NPs) représentent un danger potentiel pour la santé des travailleurs et du grand public, notamment en cas d’exposition par voie respiratoire. Si une NP est évaluée in vivo comme toxique chez l’animal, cela peut inciter à prendre des mesures pour réduire l’exposition de l’Homme à celle-ci, avant qu’il y ait des conséquences sanitaires graves. Les études in vivo sont donc d’une importance capitale afin de diminuer les potentiels risques sanitaires des NPs pour l’Homme. Néanmoins, dans un contexte de réduction du nombre d’animaux utilisés et compte tenu du nombre important de NPs existantes et de leur grande diversité physico-chimique, la toxicologie a besoin de modèles alternatifs, comme le in vitro, permettant de prédire de manière fiable les potentiels effets pulmonaires chez l’Homme. Des progrès importants ont été faits pour développer des modèles in vitro pulmonaires plus physiologiques et des méthodes d’exposition permettant de simuler l’inhalation de NPs in vitro. Cependant, des incertitudes existent quant à la capacité de ces nouveaux modèles in vitro à prédire les réponses observées in vivo dans les poumons après exposition à des NPs. Dans ce contexte, l’objectif de ce travail a été d’évaluer la capacité de plusieurs méthodes in vitro, de complexité différente, à prédire les effets toxiques observés in vivo chez le rat après exposition aiguë (24h) pulmonaire à des NPs métalliques faiblement solubles de TiO2 et de CeO2. Dans un premier temps, des expérimentations in vitro ont été effectuées afin d’évaluer si exposer des cellules alvéolaires à l’interface air-liquide (ALI) à des aérosols de NPs de TiO2 et de CeO2, générait des résultats différents par rapport à des expositions classiques à des suspensions en submergé. Dans un second temps, des expérimentations in vivo par aspiration intratrachéale ont été réalisées afin de comparer les réponses toxiques pulmonaires in vitro avec celles obtenues in vivo. Pour comparer les réponses pulmonaires in vivo et in vitro, des référentiels de dose similaires, notamment la masse par unité de surface ou par macrophage, ont été utilisés. Après 24h d’exposition, des réponses biologiques significatives (inflammation principalement) ont été observées in vitro à des doses inférieures à l’ALI par rapport au submergé. Nous avons par ailleurs souligné la nécessité de prendre en compte les doses réellement déposées sur les cellules ainsi que le débit de dose pour effectuer les comparaisons entre les deux méthodes d’exposition in vitro utilisées. Nous avons ensuite comparé les résultats in vitro avec ceux obtenus in vivo. Nous avons constaté que la méthode ALI générait des résultats plus prédictifs du in vivo, en termes de niveau d’activation des réponses toxiques à 24h. Finalement, nous avons établi un classement des quatre NPs utilisées dans notre étude et celles-ci ont été classées similairement in vivo et in vitro et quelle que soit la méthode utilisée in vitro. Nous avons par ailleurs montré l’importance de considérer la surface active des NPs pour établir ce classement. En conclusion, notre approche nous a permis de mieux évaluer le fossé existant entre le in vivo et le in vitro. Nos résultats soulignent l’intérêt d’utiliser des méthodes in vitro plus réalistes et plus proches de la physiologie humaine dans le but de modéliser les potentiels effets indésirables des NPs pour l’Homme. Cela ouvre des perspectives quant à l’utilisation et au développement de méthodologies in vitro de plus en plus représentatives des conditions d’exposition in vivo. / Nanoparticles (NPs) represent a potential danger for workers and public, especially after inhalation. When a NP is shown toxic for the lungs in vivo in animals, this can incite regulators to implement measures to reduce human exposure risks. The in vivo studies are thus of utmost importance in reducing the potential health risks for humans. However, in a context of a diminution in the number of animals used in experimentations and considering the high number of NPs used and their physicochemical diversity, there is an urgent need for alternative methods, like the in vitro, which could be used to predict the potential health effects of NPs in human. Many progresses have been made recently to develop more physiological cell models and exposure methods simulating the inhalation of NPs in vitro. Nevertheless, uncertainties remain regarding the capacity of these new in vitro methods to predict the biological responses observed in vivo into the lungs after exposure to NPs. In this context, the aim of our study was to assess the ability of several in vitro methods, differing in complexity, to predict the adverse responses observed in vivo in rat lungs after acute exposure (24h) to several metallic and poorly soluble TiO2 and CeO2 NPs. For this, in vitro experimentations were first performed to assess if exposing alveolar cells in monoculture or in co-culture at the ALI interface to aerosols of NPs, generated different results compared to classic exposure in submerged conditions to suspensions. In a second step, rats were exposed by intratracheal aspiration of NP suspensions to compare the biological responses in vitro to those obtained in vivo. To compare the pulmonary responses in vivo and in vitro, similar dose metrics were selected, including the mass per surface unit or per macrophage. After 24h of exposure, significant biological responses (mostly inflammation) were observed at lower doses at the ALI compared to in submerged conditions. Moreover, we highlighted the necessity to take into account the deposited dose on the cells and the timing of the dose delivery in order to compare the two exposure methods used in vitro. When we compared the responses in vitro to those observed in vivo, we noticed that the ALI methods generated more predictive results than the submerged one, in term of biological activation levels after 24h of exposure. Finally, a ranking of the four NPs used in our study was provided and the NPs were ranked similarly both in vivo and in vitro and whatever the exposure method used in vitro. We also showed the importance of the surface area when ranking the poorly soluble NPs. In conclusion, the gap existing between the in vivo and the in vitro has been evaluated in our study. Our results highlighted the relevance of using more realistic in vitro exposure methods to model the potential adverse effects of NPs for human. This brings perspectives about using and developing in vitro methods mimicking more closely the in vivo exposure conditions. Toxicité respiratoire Interfaces air-liquide (ALI) NPs Nanoparticles Pulmonary toxicity In vitro In vivo Alternative to animal experimentation Air-liquid interface NPs
65	Ethanol Tolerance in the Rat Neurohypophysis: a Dissertation Knott, Thomas K. 01 January 2001 (has links) One of the main components underlying drug addiction is the emergence of tolerance. Although its development is a complex issue, and is believed to have both psychological and physiological connotations, it is clear that some physiological change must occur that would enable an organism to withstand drug concentrations lethal to a naïve system. The purpose of this thesis was to identify and study a physiological mechanism, whose characteristics were altered due to chronic exposure to ethanol. Vasopressin (AVP), whose primary function is to control water balance, release from the neurohypophysis is suppressed by an acute ethanol challenge. Therefore, I hypothesized; 1) that chronic ethanol exposure would reduce the normal suppression of AVP release during an acute ethanol challenge and 2) that the ion channels that are acutely sensitive to ethanol, involved in the control of AVP release, would exhibit a change in their ethanol sensitivity and characteristics. To study the hypothesis, I utilized the neurohypophysis from rats chronically exposed to ethanol and yoked controls to determine whether chronic exposure would modify the acute ethanol sensitivity of the neurohypophysial vasopressin release mechanism. I examined whether the long-term ethanol exposure affected the suppression of vasopressin release from either or both the intact neurohypophysis and the isolated neurohypophysial terminals. In addition, I investigated how chronic exposure affected two types of potassium channels, the ethanol sensitive large conductance Ca+2-activated (BK) channel and the fast inactivating (IA) channel known to be insensitive to physiologically relevant concentrations of ethanol. I was able to establish that chronic ethanol exposure reduced the suppression of vasopressin release by an acute ethanol challenge from both the intact neurohypophysis and the isolated neurohypophysial terminals. In addition, I discovered that oxytocin release was affected similarly. I concluded from this data that chronic exposure to ethanol affected a general mechanism, which controlled hormone release from the neurohypophysis, and that this mechanism could be isolated to the neurohypophysial terminals. I also used electrophysiological techniques to study ion channel characteristics of both the BK and IA potassium channels. I found that in naïve rats, BK channels were potentiated and IA channels insensitive to physiological relevant concentrations of ethanol. But in chronic ethanol-exposed rats the BK channels exhibited a reduced sensitivity to ethanol while IA channels were inhibited. In addition, the current density of the BK channel was significantly reduced. These results show that at least one characteristic of each potassium channel has been modified. This suggests that chronic exposure can not only modify the ethanol sensitivity of ion channels known to be ethanol-sensitive, but also those believed to be relatively insensitive. Therefore, since modifications in these channels have previously been shown to alter the duration and frequency of action potentials, I conclude that these ethanol-induced modifications play a role in the modified hormone release patterns observed in the chronically exposed rats. Ethanol Rats Vasopressins Amino Acids, Peptides, and Proteins Animal Experimentation and Research Endocrine System Mental Disorders Nervous System Organic Chemicals
66	Osteoclast Ontogeny-Experimental Studies in Two Osteopetrotic Mutations in the Rat: A Dissertation Cielinski, Matthew Joseph 01 April 1994 (has links) Osteopetrosis is a metabolic bone disease in mammals characterized by a generalized skeletal sclerosis caused by reduced bone resorption. This reduced bone resorption is manifested in afflicted animals by abnormal bone shape, reduced or absent marrow cavities, extramedullary hemopoiesis, abnormal mineral homeostasis and absent or delayed tooth eruption. The available osteopetrotic animal mutations have been a constant source of fruitful investigations concerning the systemic regulation of osteoclastogenesis and bone metabolism. Tooth eruption, on the other hand, is a localized manifestation of the timely activation of bone resorption and bone formation on opposite sides of an erupting tooth. Its rate-limiting step is the speed of bone resorption to form the eruption pathway. In this dissertation, we used two osteopetrotic rat mutations, toothless (tl) and microphthalmia blanc (mib), to investigate the abnormal development of osteoclasts and tooth eruption in mutant rats with an emphasis on the role of systemic and local factors. The significant contributions to this work are listed below. 1. In the toothless rat, a mutation lacking erupted dentition due to severely reduced bone resorption, colony-stimulating factor-1 (CSF-1) promoted tooth eruption but this was delayed compared to normal rats. Eruption was accompanied by changes in the populations of tartrate-resistant acid phosphatase-positive (TRAP+) mononuclear cells in the dental follicle and TRAP+ osteoclasts on adjacent alveolar bone surfaces. These cell populations were dramatically increased in treated mutants compared to untreated tl rats, but the timing of their appearance was delayed compared to normal littermates. This lag in the appearance of osteoclasts and their precursors corresponded to the delay in eruption of first molars in treated tl rats. 2. CSF-1 also accelerated the eruption of molars in normal rats. CSF-1 increased the number of TRAP+ mononuclear cells in the dental follicle and TRAP+ osteoclasts on adjacent alveolar bone surfaces, but had no effect on the timing of their appearance in normal rats. 3. Our data revealed a differential effect on tooth eruption of the growth factors CSF-1 and epidermal growth factor (EGF). CSF-1 accelerated eruption of molars in normal rats, but had no effect on incisor eruption. On the other hand, EGF accelerated incisor eruption; but did not affect molar eruption in normal rats. 4. We have described the mechanism for the transient, mild form of osteopetrosis inherited by mib rats. Mutant animals possess a typical sclerosis at birth, which diminished--but was not resolved--during the first postnatal month. These characteristics are caused by early reductions in osteoclast number and function which improve to normal levels by 4 weeks. Osteoclast numbers were severely reduced in mib rats between birth and 2 weeks, but improved to near normal levels by 4 weeks. Neonatal abnormalities in osteoclast function included reduced staining for the functional enzymes TRAP and TrATPase, decreased levels of mRNA for both TrATPase and CAll, and inability to form a well-developed ruffled border. None of these defects were apparent after the first postnatal month. 5. Finally, we have shown that the dental abnormalities caused by the mild, transient form of osteopetrosis in mib rats are limited to incisor defects and delayed eruption of all teeth. Histologic and radiographic examination of mutant incisors revealed that, contrary to the situation in normal rats, the apex of the incisors of mib rats failed to extend past the first molar region to the third molar. The incisor apex of newborn mib rats was misshaped due to ankylosis of incisor matrices with alveolar bone. This ankylosis was temporary, being resolved by the third postnatal day. The delayed eruption of incisors in mib rats and abnormal shape and occlusion of these teeth in older animals is a consequence of the temporary ankylosis in newborn rats. Osteopetrosis Bone Resorption Tooth Eruption Rats Mutant Strains Animal Experimentation and Research Digestive System Genetic Phenomena Musculoskeletal Diseases Stomatognathic System
67	Virus-Host Interactions in the Development of Avian Leukosis Virus-Induced Osteopetrosis: a Dissertation Foster, Rosalinda Gram 01 May 1993 (has links) Avian leukosis virus (ALV)-induced osteopetrosis is a proliferative disorder of the bone affecting the growth and differentiation of osteoblasts. Osteopetrosis is a polyclonal disease in which cells of the bone contain, on average, multiple viral DNA copies. Osteopetrotic bone is also characterized by the accumulation of unintegrated viral DNA, suggesting an atypical life cycle of the virus in the infected osteoblasts. To better understand virus-host interactions in the induction of osteopetrosis by ALVs, infected chick osteoblast cultures and osteopetrotic bone were examined for aspects of the virus life cycle and effects of infection on osteoblast function. Levels of infection and virus expression were compared in cultured osteoblasts and osteopetrotic bone. Osteopetrotic bone contained higher levels of viral DNA and correspondingly higher levels of viral proteins than infected osteoblast cultures, suggesting a higher viral load in the diseased bone. A significant level of mature Gag protein was present in the bone, suggesting the accumulation of mature virus particles in the diseased bone. It is possible that the accumulation of virus could facilitate the high levels of infection observed in the diseased bone. The mechanism by which unintegrated viral DNA persisted in osteopetrotic bone was investigated by examining the susceptibility of infected osteoblasts to superinfection. The results indicated that, in culture, infected osteoblasts were able to establish interference to superinfection. This suggests that the persistence of unintegrated viral DNA in osteopetrotic bone may not result from the continuing infection of productively infected osteoblasts. The effect of virus infection on osteoblast function was examined in the diseased bone and in osteoblast cultures. In infected chickens, osteoblast activity, as evidenced by the expression of osteoblast phenotypic markers, was increased only in chickens developing severe osteopetrosis. In culture, virus infection had no apparent effect on either the proliferation or differentiation of osteoblasts. This indicates that infection was itself not sufficient to perturb osteoblast function. Furthermore, it suggested that additional components of the bone may be required for ALV infection to induce the abnormal activity of osteoblasts observed in osteopetrosis. Avian Leukosis Osteopetrosis Virus Activation Animal Diseases Animal Experimentation and Research Genetic Phenomena Musculoskeletal Diseases Neoplasms Virus Diseases
68	Dynamics of Neuron-Specific Gene Expression During Development and in Response to Selective Lesions of the Rat Central Nervous System: A Dissertation Melloni, Richard H. 01 April 1993 (has links) Synapse development and injury-induced reorganization in the nervous system have been extensively characterized morphologically, although, relatively little is known regarding the molecular and biochemical events that underlie these processes. In an attempt to better understand, at the molecular level, the role of the expression of synaptic proteins during synapse establishment and regeneration, this dissertation examines the dynamics of expression of the neuron-specific gene synapsin I during development and in response to selective lesions of the rat central nervous system. Synapsin I is the best characterized member of a family of nerve-terminal specific phosphoproteins implicated in the regulation of neurotransmitter release. During development, the expression of synapsin I correlates temporally and topographically with synapse formation, and recent physiological studies by Lu et al., (1992) have suggested that synapsin I may participate in the functional maturation of synapses. To better understand the temporal relationship between synapsin I gene expression and particular cellular events during development, we have used in situhybridization histochemistry to localize synapsin I mRNA in the rat central and peripheral nervous systems throughout embryonic and postnatal development, and into the adult period. During development, from the earliest embryonic time point examined (E12), the expression of the synapsin I gene was detectable in both the rat central and peripheral nervous systems. While, in general, levels of synapsin I mRNAs were high in utero, synapsin I cDNA probes revealed specific patterns of hybridization in different regions of the embryonic nervous system. To precisely determine the temporal onset of expression of the synapsin I gene during neuronal development, we examined in detail the appearance of synapsin I mRNA during the well characterized postnatal development of the cerebellum and hippocampus. In both regions, the onset of synapsin I gene expression correlated with the period of stem cell commitment to terminal differentiation. In a second phase, in accord with prior analyses, synapsin I gene expression increases to a maximum for a given neuronal population during synapse formation. In the adult rat brain, our data demonstrates a widespread yet regionally variable pattern of expression of synapsin I mRNA similar to that seen at earlier time points, with noteworthy exceptions. The greatest abundance of synapsin I mRNA was found in the pyramidal neurons of the CA3 and CA4 fields of the hippocampus, and in the mitral and internal granular cell layers of the olfactory bulb. Other areas abundant in synapsin I mRNA were the layer n neurons of the piriform and entorhinal cortices, the granule cell neurons of the dentate gyrus, the pyramidal neurons of hippocampal fields CA1 and CA2, and the cells of the parasubiculum. In general, the pattern of expression of synapsin I mRNA paralleled those encoding other synaptic terminal-specific proteins, such as synaptophysin, VAMP-2, and SNAP-25. Then, to determine specifically how synapsin I mRNA levels are related to levels of synapsin I protein in the adult rat brain, we employed in situhybridization histochemistry and immunohistochemistry to examine in detail the local distribution of both synapsin I mRNA and protein in the hippocampus. In short, these data revealed differential levels of expression of synapsin I mRNA and protein within defined synaptic circuits of the rat hippocampus. Based on these data we hypothesized that locally high levels of synapsin I mRNA in neuronal somata may reflect the ability of the nervous system to respond to select enviromental stimuli and/or injury by producing longterm changes in synaptic circuitry. To test this hypothesis and to better understand the regulation and putative role of synapsin I gene expression in the development of functional synapses in the central nervous system, we first examined the developmental pattern of expression of the synapsin I gene; in dentate granule neurons of the dentate gyrus and their accompaning mossy fibers during the main period of synaptogenic differentiation in the rat hippocampus. The results of these studies indicate a significant difference between the temporal expression of synapsin I mRNA in dentate granule cell somata and the appearence of protein in their mossy fiber terminals during the posmatal development of these neurons. Next, to investigate the regulation and putative role of synapsin I gene expression during the restoration of synaptic contacts in the central nervous system, we examined the expression of the synapsin I mRNA and protein following lesions of hippocampal circuitry. These studies show marked changes in the pattern and intensity of synapsin I immunoreactivity in the dendritic fields of dentate granule cell neurons following perforant pathway transection. In contrast, changes in synapsin I mRNA expression in target neurons, and in those neurons responsible for the reinnervation of this region of the hippocampus, were not found to accompany new synapse formation. On a molecular level, both developmental and lesion data suggest that the expression of the synapsin I gene is tightly regulated in the central nervous system, and that considerable changes in synapsin I protein may occur in neurons without concommitant changes in the levels of its mRNA. From a functional standpoint, our results suggest that the appearance of detectable levels of synapsin I protein in developing and sprouting synapses does not reflect simply synaptogenesis, but coincides with the acquisition of function by those central synapses. Central Nervous System Gene Expression Regulation Rats Synaptins Animal Experimentation and Research Developmental Biology Developmental Neuroscience Genetic Phenomena Nervous System
69	Cytoskeletal Regulation and Morphogen Signaling During Synaptic Outgrowth at the <em>Drosophila</em> Larval Neuromuscular Junction : A Dissertation Ramachandran, Preethi 10 August 2009 (has links) Synaptic plasticity, in its broadest sense, can be defined as the ability of synapses to be modified structurally and functionally in response to various internal and external factors. Growing evidence has established that at the very core of these modifications are alterations in the cytoskeletal architecture. This discovery has led to the unearthing of a number of signaling pathways that might be involved in cytoskeletal regulation and also in the regulation of other aspects of synapse development and plasticity. In this regard, polarity proteins and secreted morphogens such as the Wnt proteins, typically involved in embryonic development, are emerging as critical determinants of synaptic growth and plasticity. However, their mechanism of action at synapses needs further investigation. Additionally, not much is known about how these morphogens are secreted or transported across synapses. Using the Drosophila larval NMJ as a model system, I have addressed aspects related to the issues mentioned above in the subsequent body of work. In the first half of my thesis, I have uncovered a role for the aPKC/Baz/Par-6 polarity protein complex in the regulation of the postsynaptic actin cytoskeleton in conjunction with the lipid and protein phosphatase PTEN. In the second half of my thesis, I have contributed to the elucidation of mechanisms underlying the secretion of Wg, the Drosophila Wnt homolog. Our findings suggest that Wnts might be secreted via a previously unidentified mechanism involving the release of exosome like vesicles from the presynapse and this process requires Evi/Wntless (Evi), a protein dedicated to Wnt secretion. Alterations in signaling pathways and aberrant cytoskeletal regulation lead to a variety of neurological disorders. The body of work in this thesis will provide a deeper understanding of the mechanisms involved in synaptic plasticity and provide a basis for uncovering similar pathways in the context of vertebrate synapses. Synapses Actins Cytoskeleton Protein Kinase Wnt Proteins Amino Acids, Peptides, and Proteins Animal Experimentation and Research Enzymes and Coenzymes Macromolecular Substances
70	The Circadian Clock in Monarch Butterfly: A Tale of Two CRYs: A Dissertation Yuan, Quan 08 May 2009 (has links) Every fall, Northeastern America monarch butterflies (Danaus plexippus) undergo an extraordinary migration to their overwintering site in Central Mexico. During their long migration, monarch migrants use sun compass to navigate. To maintain a southward flying direction, monarch migrants compensate for the continuously changing position of the sun by providing timing information to the compass using their circadian clock. Animal circadian clocks depend primarily on a negative transcriptional feedback loop to track time. I started my work to re-construct the monarch butterfly circadian clock negative feedback loop in cell culture, focusing on homologs of Drosophila clock genes. It turned out that in addition to a Drosophila-like cryptochrome (cry1) gene, a second mammalian-like cry2 gene exists in monarch butterflies and many other insects, except in Drosophila. The two CRYs showed distinct functions in our initial assays in cultured Drosophila Schneider 2 (S2) cells. CRY2 functions as a potent transcriptional repressor, while CRY1 is light sensitive but shows no obvious transcriptional activity. The existence of two cry genes in insects changed the Drosophila-centric view of insect circadian clock. During the course of my study, our lab obtained a monarch cell line called DpN1 cells. These cells possess a light-driven clock and contributed tremendously to the research on monarch circadian clock. Using this cell line, I provided strong evidence supporting monarch CRY2’s role as a major circadian clock repressor and identified a protein-protein protective interaction cascade underlying the CRY1-mediated resetting of the molecular oscillator in DpN1 cells. I continued my work trying to understand how insect CRY2 inhibits transcription. I provided evidence suggesting the involvement of monarch PER in promoting CRY2 nuclear entry in both S2 cells and DpN1 cells. Finally, I mapped CRY2’s transcriptional inhibitory activity onto its N-terminal domain. Collectively, my research helped to change our view of insect clocks from a Drosophila-centric standpoint to a much more diverse picture. My studies also advanced the understanding of monarch circadian clock mechanism, and provides a foundation for further studies. circadian clock monarch butterfly Circadian Rhythm Butterflies Biological Clocks Drosophila Proteins Flavoproteins Amino Acids, Peptides, and Proteins Animal Experimentation and Research

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