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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Development and characterisation of a transgenic mouse model to investigate the mechanisms and treatment options for Androgen independent metastatic prostate cancer

Jeet, Varinder , Clinical School - Prince of Wales Hospital, Faculty of Medicine, UNSW January 2009 (has links)
Currently, there are no preclinical immunocompetent mouse models that adequately represent all stages of prostate cancer (PC) especially, androgen depletion independent (ADI) and bone metastatic PC. The best characterized, Transgenic Adenocarcinoma of the Mouse Prostate (TRAMP) model is logistically a difficult model for in vivo assessments and it does not adequately represent all stages of PC. Therefore, the aim of this study was to broaden the TRAMP model to include ADI and bone metastatic PC. Three ADI sublines were derived from androgen-sensitive (AS) TRAMP C1 (TC1) and TRAMP C2 (TC2) parental lines in vitro by dihydrotestosterone (TC1-T5 and TC2-T5) deprivation and in vivo by growing in TRAMP female mice (TC1-F1). The new sublines showed several characteristic features of ADI-PC 1.) faster growth rates in vitro and in vivo 2.) increased invasiveness 3.) androgen depletion independence in vitro and in vivo 4.) variable expression of androgen receptor 5.) downregulation of metastasis suppressor genes, E-cadherin and KAI-1. Genetic and molecular studies of ADI sublines showed alteration of genes representing major cancer related pathways. ADI TC1-T5, that displayed the most aggressive phenotype/genotype was selected to expand the TRAMP model to represent PC metastases Metastatic ability of TC1-T5 to migrate to bone and other soft tissues after intracardiac injections was shown in contrast to AS TC1 cells. Bone metastatic lesions displayed both osteoblastic and osteolytic features in multiple locations. Additionally, unlike AS TC1, the TC1-T5 tumours were able to grow with 100% incidence in the prostate and as lungs pseudometastases. The ADI PC lines were used to explore Aurora Kinases (AKs) as therapeutic targets for ADI PC. Compared to TC1, ADI-TC1-T5 cells showed a significant upregulation of AK-A and AK-B and their downstream regulators, survivin and phosphorylated-histone H3. Enhanced sensitivity of TC1-T5 to AK inhibitor VX680 functionally validated this and together with docetaxel led to enhanced efficacy which correlated with implication of AK-A/B in development of docetaxel-resistance. Thus, TRAMP model now represents ADI-PC that can grow in the bone, lungs and in the prostate; a significant step towards a well rounded preclinical model with greater clinical relevance.
12

Characterization of Liver Damage Mechanisms Induced by Hepatitis C Virus

Soare, Catalina P. January 2011 (has links)
Hepatitis C Virus (HCV) is one of the most important causes of chronic liver disease, affecting more than 170 million people worldwide. The mechanisms of hepatitis C pathogenesis are unknown. Viral cytotoxicity and immune mediated mechanisms might play an important role in its pathogenesis. HCV infection and alcohol abuse frequently coexist and together lead to more rapid progression of liver disease, increasing the incidence and prevalence of cirrhosis and hepatocellular carcinoma. The cytopathic effect of HCV proteins, especially the core, E1 and E2 structural proteins, which induce liver steatosis, oxidative stress and cell transformation may be amplified by alcohol abuse. The purpose of this study was to characterize the liver damage mechanisms induced by HCV structural proteins and alcohol and to determine the potential molecular mechanism(s) that may promote chronic, progressive liver damage. A transgenic mouse model expressing HCV core, E1 and E2 was used to investigate whether alcohol increased HCV RNA expression. Real-time RT-PCR analysis of genes involved in lipid metabolism and transport confirmed their abnormal expression in the alcohol-fed transgenic mice. In addition, light and electron microscopy analysis were performed on liver tissues of transgenic mice on an alcoholic diet versus those on a normal diet, in order to identify histological changes. The severe hepatopathy in HCV transgenic mice was exacerbated by alcohol. Mitochondria and endoplasmic reticulum had severe abnormalities in the electron microscopy analysis. The second part of this study focused on adaptive immune responses, which may also play an important role in HCV pathogenesis. I focused my analysis on dendritic cells (DC), which have been the main suspects to explain immune impairment in HCV infection. Their powerful antigen-presenting function allows them to stimulate the antiviral response of CD4+ and CD8+ T cells, the effector cells of the immune system. This unique function of the DC makes them possible targets for immune evasion by the Hepatitis C virus. In this study, DCs were generated from mouse bone marrow cells. I investigated their maturation capacity in the presence of structural proteins of HCV. The impact of HCV core/E1/E2 polyprotein on DCs cytokine expression and ability to activate T-cell lymphocytes was also analyzed. A dysfunctional CD4 T cell response was observed after exposure of DCs to core/E1/E2 polyprotein, indicating inefficient CD4 priming, which might lead to chronic HCV infection in humans. The presence of the core/E1/E2 polyprotein reduced the DC maturation capacity and the expression of certain cytokines (IL-12, IFNg, IL-6, MCP-1) important for stimulation and chemotaxis of T cells and other immune cells. My studies contribute to the understanding of HCV pathogenesis and may have implications to the development of better therapies for HCV infection.
13

Booster, a Red-Shifted Genetically Encoded Förster Resonance Energy Transfer (FRET) Biosensor Compatible with Cyan Fluorescent Protein/Yellow Fluorescent Protein-Based FRET Biosensors and Blue Light-Responsive Optogenetic Tools / シアン・黄色蛍光タンパク質を用いたフェルスター共鳴エネルギー移動(FRET) バイオセンサー、および青色光応答性光遺伝学ツールとの併用を可能にする、長波長蛍光タンパク質を用いたFRETバイオセンサー “Booster”の開発

Watabe, Tetsuya 23 March 2021 (has links)
京都大学 / 新制・課程博士 / 博士(医学) / 甲第23066号 / 医博第4693号 / 新制||医||1049(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 渡邊 直樹, 教授 溝脇 尚志, 教授 藤田 恭之 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM
14

B-cell Lymphoma-2 (Bcl-2) Is an Essential Regulator of Adult Hippocampal Neurogenesis

Ceizar, Maheen 19 September 2012 (has links)
Of the thousands of dividing progenitor cells (PCs) generated daily in the adult brain only a very small proportion survive to become mature neurons through the process of neurogenesis. Identification of the mechanisms that regulate cell death associated with neurogenesis would aid in harnessing the potential therapeutic value of PCs. Apoptosis, or programmed cell death, is suggested to regulate death of PCs in the adult brain as overexpression of B-cell lymphoma 2 (Bcl-2), an anti-apoptotic protein, enhances the survival of new neurons. To directly assess if Bcl-2 is a regulator of apoptosis in PCs, this study examined the outcome of removal of Bcl-2 from the developing PCs in the adult mouse brain. Retroviral mediated gene transfer of Cre into adult floxed Bcl-2 mice eliminated Bcl-2 from developing PCs and resulted in the complete absence of new neurons at 30 days post viral injection. Similarly, Bcl-2 removal through the use of nestin-induced conditional knockout mice resulted in reduced number of mature neurons. The function of Bcl-2 in the PCs was also dependent on Bcl-2-associated X (BAX) protein, as demonstrated by an increase in new neurons formed following viral-mediated removal of Bcl-2 in BAX knockout mice. Together these findings demonstrate that Bcl-2 is an essential regulator of neurogenesis in the adult hippocampus.
15

Immunopathogenesis of cortical demyelination in Multiple Sclerosis

Lagumersindez Denis, Nielsen 09 November 2015 (has links)
No description available.
16

Efeitos da deleção do gene Cx43 sobre o desenvolvimento fetal de camundongos de diferentes backgrounds genéticos: ênfase na osteogênese / Effects of Cx43 gene deletion on mouse fetal development in different genetics backgrounds: Emphasis in osteogenesis

Chaible, Lucas Martins 03 April 2009 (has links)
Conexinas são proteínas que compõem as junções comunicantes do tipo gap, e a diminuição na sua expressão tem sido relacionada com diversas alterações fisiológicas, entre elas algumas síndromes, malformações genéticas, o aumento da proliferação celular e a carcinogênese. Dentre as isoformas das conexinas presentes nos tecidos animais, a Cx43 é a mais abundante e a mais estudada, tendo a sua importância relatada in vivo em camundongos que tiveram um dos alelos de Cx43 deletado (Cx43+/-), devido a morte desses animais logo após o nascimento devido a malformações cardíacas. Considerando o fato de esse gene ser expresso em dezenas de tipos celulares, tivemos como objetivo avaliar os outros tecidos em busca de anomalias ocorridas durante o desenvolvimento, e a possível interferência do background gentético. Para isso acompanhamos dia-a-dia o último terço gestacional de camundongos de background C57BL/6 e CD1, avaliando histologica e morfologicamente os fetos em busca de anomalias nos animais Cx43+/- e Cx43-/- em relação aos animais Cx43+/+. Exceto pelo tecido ósseo, não encontramos alterações nos órgãos que expressam esse gene, bem como alterações causadas pelo refluxo de sangue causado pela malformação da válvula tricúspide. Durante a osteogênese, por meio da avaliação das costelas e tíbia, percebemos um retardo no desenvolvimento, que se agrava conforme a deficiência do gene Cx43. Percebemos nitidamente que o processo de diferenciação celular ocorre de maneira menos eficiente, atrasando processos como deposição de colágeno e de matriz óssea. Conclui-se que a Cx43 é importante para o desenvolvimento ósseo na fase fetal em camundongos. / Connexins are proteins that compose the gap junctions, and the reduction in its expression has been related with diverse physiological alterations, like some syndromes, malformations, the increase of the cellular proliferation and carcinogenesis. Among isoforms of the connexins in animal cells, the Cx43 is the most abundant and studied, having its importance been shown up in alive mice that had one allele of Cx43 (Cx43+/-) deleted. REAUME et al. related that Cx43-/- mice presented cardiac malformation and died immediately after birth. Considering the fact that this gene is expressed in many cell types, we evaluate the possibility of other tissues also to present alterations during the fetal development. Due to this, we studied the mouse development initiating in 12.5 to 19.5 DE (embryologic day) and evaluated the histology of C57BL/6 and CD1 mice searching for anomalies of Cx43+/- and Cx43-/- mice in relation to the Cx43+/+ animals. We did not find alterations in the main organs that express Cx43, nor alterations due to blood out flow related to cardiac malformations. We only found significant difference was the bones; through the evaluation of the ribs and tibia. It has been observed a delay in the development, that was more important in Cx43 knockout mice. We observed clearly that the process of cellular differentiation occurs in less efficient way, delaying processes as deposition of collagen and bone matrix. In conclusion, this study showed that Cx43 is important for bone development in mice.
17

Efeitos da deleção do gene Cx43 sobre o desenvolvimento fetal de camundongos de diferentes backgrounds genéticos: ênfase na osteogênese / Effects of Cx43 gene deletion on mouse fetal development in different genetics backgrounds: Emphasis in osteogenesis

Lucas Martins Chaible 03 April 2009 (has links)
Conexinas são proteínas que compõem as junções comunicantes do tipo gap, e a diminuição na sua expressão tem sido relacionada com diversas alterações fisiológicas, entre elas algumas síndromes, malformações genéticas, o aumento da proliferação celular e a carcinogênese. Dentre as isoformas das conexinas presentes nos tecidos animais, a Cx43 é a mais abundante e a mais estudada, tendo a sua importância relatada in vivo em camundongos que tiveram um dos alelos de Cx43 deletado (Cx43+/-), devido a morte desses animais logo após o nascimento devido a malformações cardíacas. Considerando o fato de esse gene ser expresso em dezenas de tipos celulares, tivemos como objetivo avaliar os outros tecidos em busca de anomalias ocorridas durante o desenvolvimento, e a possível interferência do background gentético. Para isso acompanhamos dia-a-dia o último terço gestacional de camundongos de background C57BL/6 e CD1, avaliando histologica e morfologicamente os fetos em busca de anomalias nos animais Cx43+/- e Cx43-/- em relação aos animais Cx43+/+. Exceto pelo tecido ósseo, não encontramos alterações nos órgãos que expressam esse gene, bem como alterações causadas pelo refluxo de sangue causado pela malformação da válvula tricúspide. Durante a osteogênese, por meio da avaliação das costelas e tíbia, percebemos um retardo no desenvolvimento, que se agrava conforme a deficiência do gene Cx43. Percebemos nitidamente que o processo de diferenciação celular ocorre de maneira menos eficiente, atrasando processos como deposição de colágeno e de matriz óssea. Conclui-se que a Cx43 é importante para o desenvolvimento ósseo na fase fetal em camundongos. / Connexins are proteins that compose the gap junctions, and the reduction in its expression has been related with diverse physiological alterations, like some syndromes, malformations, the increase of the cellular proliferation and carcinogenesis. Among isoforms of the connexins in animal cells, the Cx43 is the most abundant and studied, having its importance been shown up in alive mice that had one allele of Cx43 (Cx43+/-) deleted. REAUME et al. related that Cx43-/- mice presented cardiac malformation and died immediately after birth. Considering the fact that this gene is expressed in many cell types, we evaluate the possibility of other tissues also to present alterations during the fetal development. Due to this, we studied the mouse development initiating in 12.5 to 19.5 DE (embryologic day) and evaluated the histology of C57BL/6 and CD1 mice searching for anomalies of Cx43+/- and Cx43-/- mice in relation to the Cx43+/+ animals. We did not find alterations in the main organs that express Cx43, nor alterations due to blood out flow related to cardiac malformations. We only found significant difference was the bones; through the evaluation of the ribs and tibia. It has been observed a delay in the development, that was more important in Cx43 knockout mice. We observed clearly that the process of cellular differentiation occurs in less efficient way, delaying processes as deposition of collagen and bone matrix. In conclusion, this study showed that Cx43 is important for bone development in mice.
18

Effects of Adoptive Transfer of Beta-Amyloid Sensitive Immune Cells in a Mouse Model for Alzheimer’s Disease

Shippy, Daniel 08 June 2005 (has links)
One major therapeutic target for preventing and treating Alzheimer's Disease (AD) is removal of excess β-amyloid (Aβ) from the brain. Both active and passive immunotherapies targeting Aβ have proven effective in reducing brain Aβ levels and improving cognitive function in mouse transgenic models of AD. However, these approaches can induce adverse neuropathologic effects and immunologic over-activation. Indeed, clinical trials of active Aβ immunotherapy in AD patients were halted due to development of meningoencephalitis, apparently resulting from wide-spread neuroinflammation. Here we show that a more restricted and specific immune re-activation through a single adoptive transfer of Aβ-specific T cells can provide long-term benefits to APPsw+PS1 transgenic mice that last at least 1 1/2 months. Aβ-sensitive splenocytes and lymphocytes were generated in normal mice, re-stimulated with Aβ in vitro, and then adoptively transferred into cognitively-impaired APPsw+PS1 mice. Compared to control transgenic mice through 1 1/2 month post-infusion, those mice that received Aβ-sensitive T cells exhibited a reversal of pre-infusion working memory impairment and demonstrated superior basic mnemonic processing. Step-wise forward Discriminant Function Analysis of behavioral results clearly demonstrated that T cell infused mice performed comparably to wild-type non-transgenics, further emphasizing the extent of cognitive benefit this therapeutic technique afforded. Importantly, a global inflammatory response did not accompany these benefits. Though no overall reductions in Aβ deposition were noted for T cell recipient mice, a subset of T cell infused mice that benefited most in cognitive function had reduced hippocampal burdens, suggesting that hippocampal Aβ burdes did play a role in determining performance capabilities of these mice. Since chronically high levels of beta-amy loid such as those found in APPsw+PS1 mice cause immune hypo-responsive/tolerance to Aβ, our results indicate that adoptive transfer of Aβ-sensitive T-cells can supercede such immune tolerance to Aβ, and may provide a safe, long-lasting therapy for AD.
19

Role of the Prader-Willi syndrome proteins necdin and Magel2 in the nervous system

Tennese, Alysa 11 1900 (has links)
Prader-Willi syndrome (PWS) is a rare, neurodevelopmental disorder with multiple features caused by hypothalamic deficiency, including infantile failure to thrive, hyperphagia leading to obesity, growth hormone deficiency, hypogonadism, and central adrenal insufficiency. Other features of PWS including global developmental delay, hypotonia, pain insensitivity, gastrointestinal dysfunction, and psychiatric disorders are caused by deficits in other regions of the nervous system. PWS is caused by the loss of a subset of paternally-expressed genes on chromosome 15, which includes NDN and MAGEL2. Necdin and Magel2 are both members of the melanoma antigen (MAGE) family of proteins and are expressed throughout development, particularly in the nervous system. This thesis describes experiments that examine the loss of function of necdin and Magel2 in mice and their potential roles in the pathogenesis of PWS. Targeted inactivation of Ndn and Magel2 in mice has aided in determining how loss of function of these proteins affects the development and function of the nervous system. Loss of necdin causes reduced axonal outgrowth and neuronal differentiation in the central and peripheral sensory nervous systems. I examined the autonomic nervous system in Ndn-null embryos and identified a defect in the migration of the most rostral sympathetic chain ganglion and consequently increased neuronal cell death and reduced innervation of target tissues supplied by this ganglion. Reduced axonal outgrowth was observed throughout the sympathetic nervous system in Ndn-null embryos although no gross deficits in the parasympathetic and enteric nervous systems were identified. Loss of Magel2 causes reduced fertility and abnormal circadian rhythm patterns in mice. I further identified an altered response to stress, a delayed response to insulin-induced hypoglycemia, a reduced stimulated growth hormone response, and lower thyroid hormone levels in Magel2-null mice, indicative of deficits in multiple hypothalamic-pituitary axes. The findings presented in this thesis support a role for necdin and Magel2 in the development and function of the nervous system. The data also indicates that these MAGE proteins play a key role in multiple features of PWS, including endocrine deficiencies and autonomic dysfunction
20

B-cell Lymphoma-2 (Bcl-2) Is an Essential Regulator of Adult Hippocampal Neurogenesis

Ceizar, Maheen 19 September 2012 (has links)
Of the thousands of dividing progenitor cells (PCs) generated daily in the adult brain only a very small proportion survive to become mature neurons through the process of neurogenesis. Identification of the mechanisms that regulate cell death associated with neurogenesis would aid in harnessing the potential therapeutic value of PCs. Apoptosis, or programmed cell death, is suggested to regulate death of PCs in the adult brain as overexpression of B-cell lymphoma 2 (Bcl-2), an anti-apoptotic protein, enhances the survival of new neurons. To directly assess if Bcl-2 is a regulator of apoptosis in PCs, this study examined the outcome of removal of Bcl-2 from the developing PCs in the adult mouse brain. Retroviral mediated gene transfer of Cre into adult floxed Bcl-2 mice eliminated Bcl-2 from developing PCs and resulted in the complete absence of new neurons at 30 days post viral injection. Similarly, Bcl-2 removal through the use of nestin-induced conditional knockout mice resulted in reduced number of mature neurons. The function of Bcl-2 in the PCs was also dependent on Bcl-2-associated X (BAX) protein, as demonstrated by an increase in new neurons formed following viral-mediated removal of Bcl-2 in BAX knockout mice. Together these findings demonstrate that Bcl-2 is an essential regulator of neurogenesis in the adult hippocampus.

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