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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.
131

Characterisation of mutants influencing epigenetic gene silencing in the mouse

Bruxner, Timothy James January 2008 (has links)
Doctor of Philosophy (PhD) / The field of epigenetics emerged primarily from studies in Drosophila, and is now being studied intensively by mammalian biologists. In order to increase our knowledge of epigenetic gene control in the mouse, I have studied modifiers of epigenetic gene silencing. My main method of investigation involved the characterisation of mutants from a sensitised ENU mutagenesis screen performed previously in our laboratory. The screen was carried out in an FVB/NJ strain carrying a variegating GFP transgene expressed in erythrocytes. To date we have recovered 12 dominant (D) and seven recessive (R) mutant mouse lines from this screen that display altered transgene expression. We have named these Mommes (Modifiers of murine metastable epialleles). I investigated the phenotype and attempted to identify the underlying causative mutation of two of these Momme mutants. MommeD6 is a semi-dominant, homozygous lethal mutation that acts as a suppressor of variegation with respect to the GFP transgene. This mutation has a large effect on the level of expression of the transgene in expressing cells, but little effect on the percentage of cells expressing the transgene. MommeD6 is linked to a 2.5 Mbp interval on chromosome 14. MommeD9 is a semi-dominant, homozygous lethal mutation that acts as an enhancer of variegation with respect to the GFP transgene. Mutants have a tendency to become obese as they age, show abnormal haematology profiles, and females develop infertility. MommeD9 is linked to a 17.4 Mbp region on chromosome 7. I produced and studied a strain carrying the same GFP transgene but in a new strain background, C57BL/6J. This strain provided an opportunity to look for strain-specific modifiers of expression of the GFP transgene. Several regions were mapped to chromosomal locations. Further work will be needed to identify the genes involved. This mouse will be useful in future mutagenesis screens of this type.
132

Germ lineage specification from a pluripotent primitive ectoderm-like substrate: a role for cell-cell contacts.

Hughes, James Nicholas January 2008 (has links)
During mammalian development a small number of pluripotent cells proliferate and differentiate to give rise to all the mature cell types of the organism. Among the earliest differentiation events is the process of gastrulation, in which pluripotent primitive ectoderm cells form the three germ lineages, mesoderm, ectoderm and endoderm under the control of complex signalling and environmental cues. This process can be modelled using embryonic stem cells, which have proven to respond to embryologically relevant signals during in vitro differentiation and promise to uncover additional insights into the process of germ lineage specification. This thesis describes the differentiation of mouse ES cells to committed cell types via a second intermediate population of pluripotent cells termed Early Primitive Ectoderm-Like (EPL) cells. The similarity of EPL cells to primitive ectoderm and the rapid acquisition of lineage specific markers and loss of pluripotent characteristics upon differentiation of EPL cells suggest they are an excellent model for the cells in the embryo that undergo germ lineage commitment. EPL cells can be differentiated as EPLEBs, which are highly enriched in mesodermal cell types and contain essentially no ectodermal derivatives and no visceral endoderm. Here it is shown that EPLEBs can be generated from EPL cells grown either adherently or in suspension culture provided the cells are reduced to a single cell suspension before reaggregation as EPLEBs. Since EPLEBs are a rich source of mesoderm and contain less non-mesodermal cell types than traditional ESEBs, they were assayed for definitive blood formation, however none was detected. Alternately, EPL cells can be differentiated in the presence of MEDII in aggregates termed EBMs, which are restricted to ectodermal cell fates. Here it is demonstrated that the switch from mesodermal to ectodermal differentiation observed in ELPEBs and EBMs relies on two variables; a mesoderm suppressing activity within MEDII and the pro-mesodermal activity of cell dissociation as undertaken during EPLEB formation. Evidence has been presented that interventions that modulate the epithelial identity of EPL cells are capable of influencing subsequent differentiation such that protection of the epithelial cell state favours ectoderm while disruption favours mesoderm. Staurosporine (SSP) is a kinase inhibitor that has been shown to induce an epithelial to mesenchymal transition in chick neural tube. Here it was added to EPL cells with the result that mesodermal differentiation was enhanced at the expense of ectoderm. DAPT is a potent inhibitor of ƴ-secretase, which cleaves a number of protein targets including the adherens junction component E-cadherin. Addition of DAPT to differentiating EPL cells has the opposite effect to SSP, with an increase in ectodermal differentiation at the expense of medoderm. It is proposed that DAPT is acting by preventing E-cadherin cleavage and thus stabilising the epithelial state. Modulation of epithelial contacts between pluripotent cells represents a novel way to control lineage induction and as such the incorporation of these findings into methodologies for directed differentiation in defined culture conditions is likely to provide improved outcomes in the production of desired cell types. / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2008
133

The Identification and Characterization of Estrogen Receptors in the Mouse and Human Lens and Their Role in Cataract Development

Kirker, Mary Rachel 08 December 2011 (has links)
The increased risk of age-related cataracts in postmenopausal women and studies in animal models suggest that estrogen may have a protective role in the lens. However, very little is known regarding the role of estrogen and its receptors in the lens. To begin unraveling the estrogen signaling mechanism in the lens, the following aims were investigated: 1) to determine if estrogen receptors are expressed in the lens, [125I]-17beta-estradiol binding and mRNA expression of ERalpha, ERbeta, and GPR30 were examined in the mouse and human lens; 2) to determine if the loss of ERalpha and/or ERbeta receptors will induce spontaneous development of cataracts and to examine their role in an inducible cataract model; and 3) to identify estrogen-regulated genes in the lens that influence cataract development in the ERdelta3-induced cataract model. High-affinity, saturable binding sites for 17beta-estradiol were identified in the nuclear, cytosolic, and membrane fractions of the mouse and human lens. Additionally, detectable binding in the membrane fraction and expression of GPR30 mRNA in the mouse and human lens are the first evidence of this novel transmembrane estrogen receptor in the lens of any species. Transcripts for ERalpha, ERbeta, and GPR30 were expressed in the mouse lens which suggests that one or more of these estrogen receptor subtypes are responsible for the binding detected. With the loss of nuclear ER in the lens, spontaneous cataracts did not occur; however, diminished levels or loss of ERalpha in ERdelta3 female mice increased the severity of cortical cataracts with age. These results suggest that ERalpha in the lens may provide protection against the progression of cataracts in the ERdelta3 model. Together with the cataract induction and gene expression studies, six genes were identified to be differentially expressed with estrogen versus vehicle treatment in the lenses of ERdelta3 mice. The pax6, tcfap2a, tgfbeta2, six3, sox2, and pdgfalpha genes are known to have a critical role in lens development, proliferation, differentiation and maintenance of lens homeostasis. Therefore, future examination of these genes and their pathways in the lens may contribute to the understanding of the mechanisms of estrogen-mediated protection of lens transparency. Knowledge of pathways that function to maintain lens transparency and how estrogen regulated these pathways will assist in the development of estrogen therapies that can be clinically used to delay the onset and/or progression of cataracts. / Mylan School of Pharmacy and the Graduate School of Pharmaceutical Sciences; / Pharmacology-Toxicology / PhD; / Dissertation;
134

Mouse Models of Menopause and Ovarian Cancer Risks

Wang, Ying 02 December 2011 (has links)
Epithelial ovarian cancer (EOC) is the leading cause of death from gynecological malignancy in Western countries. A better understanding of the etiology and risk factors associated with this disease is crucial for the development of early detection protocols as well as more effective therapies. Epidemiological data has shown that the risks of EOC are highest among peri- or post- menopause women, while increased parity or the use of oral contraceptives is preventive. These data suggest that alterations in reproductive factors are associated with ovarian cancer risks; however, the molecular mechanisms underlying such a link remain to be understood. For decades, EOC was believed to arise from the epithelium that surrounds the ovarian surface, yet this concept fails to explain the morphological resemblance of ovarian epithelial neoplasms with the epithelial cells of the Müllerian-derived female reproductive tract. Alternative ideas have argued that EOC may originate from extra- or para-ovarian tissues such as the fallopian tube and ovarii rete. Studies of the origin of EOC will provide a better understanding of the disease and advance the protocols for early diagnosis. The aims for this thesis are to establish in vivo ovarian tumor models based on the germ cell deficient Wv/Wv mice that mimicking menopausal physiology. The Wv mice harbor a point mutation in c-Kit, which reduces its tyrosine kinase activity to about 1%, resulting in a premature loss of ovarian germ cells and follicles that recapitulates the initiation of menopause in human. We have developed ovarian tumor models by deleting the tumor suppressor genes p53 or p27kip1 in Wv/Wv mice. We found that both Wv/Wv:p27+/- and Wv/Wv :p27 -/- mice developed ovarian epithelial tumors, which consist of papillary structures lined by hyperchromatic neoplastic cells. Positive Cytokeratin 8 (CK8) staining indicated the epithelial origin of these tumors. In vitro primary cultures of mouse ovarian surface epithelial (MOSE) cells from wildtype, p27+/- and p27 -/- mice further confirmed the growth advantage caused by p27 deficiency. However, neither p27 +/- nor p27 -/- MOSE cells were transformed in vitro, probably due to the compensatory increase of cyclin dependent kinase inhibitor (CKI) proteins including p21, p16, p19. When p53 was deleted unilaterally in the ovarian surface epithelial cells of Wv/Wv:p53 loxP/loxP mice by single administration of Adenovirus containing Cre activity (Ad-Cre), ovarian tumors developed after long latency. The ovarian tumors were significantly enlarged when compared with the uninfected ovary from the same mouse. However, most of the lesions in Wv:p53 conditional knockout tumors was negative for epithelial and follicular markers. In vitro deletion of p53 in MOSE cells significantly increased the proliferation and passage numbers of these cells. A compensatory increase of the CKI protein p16, as well as the cellular senescence level was also observed in p53 deleted MOSE cells, suggesting that p53 deletion alone was not sufficient to bypass p16- mediated tumor defense mechanisms in MOSE cells. Taken together, single deletion of p27 and p53 significantly amplified the phenotype of benign tubular adenomas in Wv/Wv mouse. However, neither p27 nor p53 deletion was sufficient to induce the development of malignant ovarian carcinomas in Wv/Wv mice, probably due to the up-regulation of CKI family proteins such as p21, p16 or p19.
135

A SNP Associated With Autism Affects Dlx5/Dlx6 Regulation in the Forebrain

Lesage-Pelletier, Cindy 08 November 2011 (has links)
Autism is a severe childhood neuropsychiatric condition characterized by impairments in socialization and communication, and by restricted and repetitive behaviours. Autism spectrum disorder (ASD) is a complex and largely unknown disease with a strong genetic basis, multiple genes involved and environmental factors determining its phenotype. Interestingly, the DLX1/DLX2 and DLX5/DLX6 bigene clusters are located in autism susceptibility loci and Dlx genes are involved in GABAergic interneurons differentiation and migration to the cortex during forebrain development. Dlx gene expression is controlled by different cis-regulatory elements. Of these, 4 are active in the forebrain, URE2, I12b, I56ii and I56i. In order to determine the role of the DLX genes in ASD, variants were found in gene exons and in cis-regulatory elements in autistic individuals. A single nucleotide polymorphism (SNP), a change of an adenine for a guanine, was identified in I56i enhancer. Finding a SNP in I56i was very surprising considering that it is located in a Dlx binding motif highly conserved among >40 species. We showed, using in vitro approaches, that the presence of this SNP affects the affinity of Dlx for their binding site and reduces the transcriptional activation of the enhancer. The SNP also affects activity of the I56i enhancer in transgenic mice. In order to determine the real impact of the SNP in vivo, mutant mice harboring the SNP in their I56i enhancer were produced. That involved the insertion of the I56i enhancer with the SNP, using homologous recombination in mouse embryonic stem cells to replace the wild type version of the enhancer. With these mutant mice, we demonstrated that, in vivo, this SNP reduces Dlx5 and Dlx6 expression in the forebrain. Furthermore, this decrease in Dlx5/Dlx6 expression could affect the differentiation and/or migration of specific populations of inhibitory interneurons in the forebrain. No distinct iv behavioural phenotypes were observed between wild type mice and those carrying the SNP, during social interaction and anxiety tests. Therefore, these results suggest that even a subtle change in a regulatory element can have an impact in the development of the forebrain and may even contribute to disorders such as autism.
136

Development of the Mouse Notochord

Tamplin, Owen James 08 March 2011 (has links)
During development of the vertebrate embryo, a highly conserved tissue called the organizer forms during gastrulation, and is required for establishment of the basic body plan. In mouse, the organizer gives rise to the node and notochord, which are both transient signaling centres involved in patterning the body axes. The genetic regulation and morphogenesis of these tissues, particularly in the mouse, is not well understood. To follow the formation of these tissues we used time-lapse live imaging together with conventional cell lineage tracking. This showed that the notochord has distinct morphogenetic origins along the anterior-posterior axis: anterior head process forms by condensation of dispersed midline organizer cells; trunk forms by convergent extension of node cells; tail forms from posteriorly migrating node cells—this challenges the previously accepted model that tail notochord forms by node regression. We have also found there are distinct genetic requirements within these different regions. Previous mouse mutant analysis showed that conserved transcription factors Foxa2 and Noto are required for either all notochord regions or just tail notochord, respectively. We found a novel genetic interaction between the two demonstrated Foxa2 compensates for Noto specifically in the trunk notochord. Furthermore, we found Noto has a conserved role in regulating axial (notochord) versus paraxial (somite) cell fate. Therefore, we proposed there are three distinct regions within the mouse notochord, each with its own unique morphogenetic origins and genetic control. We have also conducted two microarray-based screens to identify novel gene expression patterns in the node and notochord. First, we compared Foxa2 mutant and wild type gastrula embryos. Second, we isolated notochord progenitors from early somite stage embryos. Extensive in situ hybridization screening based on both data sets revealed over 50 node and notochord expression patterns. Lastly, we screened Foxa2-bound chromatin regions near these notochord-specific genes using a transient zebrafish expression assay, and identified two novel notochord cis-regulatory modules. Together, we found a combination of classical genetics, embryology, and novel imaging techniques, has given us a better understanding of the morphogenesis and genetic regulation of pattern formation in the developing mouse embryo.
137

The Role of BERP in Mammalian Systems

Cheung, Carol Chui-San 17 January 2012 (has links)
p53 functions as an important tumour suppressor through its ability to regulate a number of important cellular processes such as cell cycle arrest, apoptosis, DNA repair, senescence, and angiogenesis. An in vivo genetic modifier screen performed using Drosophila melanogaster resulted in the identification of D. melanogaster brain tumour (brat) as a putative modifier of of the p53 small eye phenotype. Mammalian homologs of brat are members of the tripartite motif family that contain a c-terminal NHL domain. We focus on elucidating the in vivo role of one such homolog, BERP, through the generation and characterization of a classical gene-deletion mouse mutant. We report that BERP-deficient mice exhibit enhanced learning/memory, increased fear, impaired motor coordination, and increased resistance to PTZ -induced seizures. Electrophysiological and biochemical studies show a decrease in mIPSC amplitude along with a decrease in cell surface expression of gamma2 subunit-containing GABA A receptors in the brains of BERP-deficient mice. In addition, no effect of genotype is apparent when examining BERP mRNA levels in the brain. This suggests that the decreased cell surface expression of gamma2 subunit-containing GABA A receptors is likely a posttranscriptional phenomenon and supports the possibility that BERP may be involved in the intracellular trafficking of GABA A receptors. In investigating the possible relationship between BERP and p53, we identify the presence of a transcriptionally competent p53 response element within the first intron of the human BERP genomic locus and demonstrate that the BERP expression is up regulated in a p53-dependent manner both in vitro and in vivo. These results support the interpretation that BERP is a novel p53-regulated gene and suggest a new role for p53 in the regulation of GABA A receptor trafficking and epileptogenesis.
138

The Biological Basis of Joint Ankylosis: Studies in the ank/ank Mouse

Las Heras, Facundo 08 March 2011 (has links)
The first objective of my work was to use the ank/ank (progressive ankylosis) mutant mice, which have a deficiency in inorganic pyrophosphate transport, to address the role of Ank in joint ankylosis. I observed the presence of hypertrophic chondrocytes in the uncalcified ank/ank mice articular cartilage. This novel phenotype is likely due to a dysregulation of chondrocyte maturation as these chondrocytes expressed hypertrophic chondrocyte markers (collagen type X and tissue non-specific alkaline phosphatase). I also showed by immunohistochemical staining that beta-catenin expression was upregulated and localized in the nuclei of articular ank/ank chondrocytes, suggesting activation of Wnt/beta-catenin signaling in these chondrocytes. The second objective was to use ank/ank mice as an informative model for understanding ankylosis mechanisms in human ankylosing spondylitis (AS) patients, as WNT/beta-catenin signaling plays an important role in ankylosis in AS patients. We attempted rescue of joint ankylosis in ank/ank mice by gene transfer of noggin, an antagonist of BMP signaling. Paradoxically, noggin-treated ank/ank mice had accelerated ankylosis, as evidenced by joint pathology and IHC staining of beta-catenin showed more intense signals in the spinal chondrocytes of the treated mice. As noggin and sclerostin (an antagonist of beta-catenin signaling) form a mutually inhibitory complex, we hypothesize that the formation of this complex results in relieving suppression of both beta-catenin and BMP signaling, leading to more severe ankylosis in ank/ank mice. By quantitative molecular imaging, I have demonstrated that ankylosis in these mutant mice developed simultaneously in distal and axial joint, instead of being a centripetal process. In summary, I have made three original observations in the ank/ank mice: the hypertrophic chondrocyte phenotype; activation of beta-catenin signaling and the simultaneous development of ankylosis in distal and axial joints. These mutant mice serve as valuable model for pre-clinical studies which enable modeling and testing of novel anti-ankylosis treatments.
139

Functional Dissection of Lupus Susceptibility Loci on the New Zealand Black Mouse Chromosome 1

Cheung, Yui Ho 14 February 2011 (has links)
Systemic lupus erythematosus (SLE) is a multisystem autoimmune disease with a strong and complex genetic basis. To dissect the function of the lupus susceptibility loci on New Zealand black (NZB) mouse chromosome 1, the lab had previously generated congenic mice with an introgressed homozygous NZB chromosome 1 intervals extending from ~35 or ~82 to 106 cM on the C57BL/6 background. Although both mouse strains made IgG anti-nuclear antibodies (ANAs), ANA titres and cellular activation were significantly higher in mice with the longer interval. These studies suggest the presence of two susceptibility genes. In this thesis I have sought to further characterize the cellular abnormalities and underlying genetic polymorphisms that produce them in these mice. Using mixed hematopoietic chimeric mice, with a mixture of tagged-B6 and congenic bone marrow I demonstrate that there are intrinsic B and T cell functional defects in chromosome 1 congenic mice. I further show that an intrinsic B cell defect is required for efficient recruitment of B cells into the spontaneous germinal centres and differentiation of autoantibody producing cells in these mice. To more precisely localize the susceptibility loci, I produced and characterized a number of additional subcongenic mouse strains. This revealed surprising genetic complexity with the presence of at least four lupus susceptibility loci and a suppressor locus on chromosome 1, several of which appeared to impact on T cell function. Finally, I generated bicongenic mice carrying both NZB chromosome 1 and 13 intervals, hypothesizing that since these were two of the major intervals associated with autoimmune disease in NZB mice they would fully recapitulate the autoimmune phenotypes. Although this hypothesis was incorrect, several novel phenotypes developed including marked expansion of the plasmacytoid and myeloid dendritic cell compartments and increased BAFF and IgA autoantibody production. Although this expansion was associated with TLR hyper-responsiveness, disease severity remained mild, possibly due to the lack of IFN- production, which appeared to be inhibited in these mice. Thus, lupus arises from immune defects affecting several cellular populations, which are the product of multiple genetic polymorphisms that interact in a complex fashion to produce the autoimmune phenotype.
140

Production of Collagenase Inhibitor by Mouse Calvaria in Tissue Culture

SAKAMOTO, SEIZABURO, NAGAYAMA, MASARU 11 1900 (has links)
No description available.

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