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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.
1

Inefficient repair of double-strand breaks at telomeres in Werner syndrome : a dissertation /

Cavazos, David Antonio. January 2007 (has links)
Dissertation (Ph.D.).--University of Texas Graduate School of Biomedical Sciences at San Antonio, 2007. / Vita. Includes bibliographical references.
2

Profil du transcriptome des cellules embryonnaires dérivées de souris mutantes pour les gènes codant les protéines Werner et/ou Poly(ADP-ribose) polymérase-1 /

Deschênes, François. January 2005 (has links)
Thèse (M.Sc.)--Université Laval, 2005. / Bibliogr.: f. 75-90. Publié aussi en version électronique.
3

Molecular mechanisms of premature ageing in a worm model of human Werner syndrome

Lees, Hayley Diane January 2014 (has links)
Investigating the biological basis of ageing is both fascinating and medically relevant, as we strive to understand both how organisms age, and how our knowledge might be put to good use in an increasingly long-lived human population. Despite the complexity of ageing biology, it is very striking that longevity, in a wide variety of organisms, can be modified by manipulating single genes. In this thesis, I investigate phenotypes associated with mutations in C. elegans homologues of human WRN, the gene mutated in the progeroid Werner syndrome (WS). Mutant phenotypes in the worm recapitulate aspects of the pathophysiology observed in WS patients, including premature ageing, genomic instability, and sensitivity to DNA damaging agents. wrn-1 overexpression, on the other hand, appears to enhance longevity, suggesting that wrn-1 acts as a bona fide anti-gerontogene. The combination of wrn-1 mutations with mutation in the worm p53 homologue, cep-1, unexpectedly triggers a novel and very striking enhanced lifespan and healthspan phenotype, termed synthetic super-viability (SSV). The SSV phenotype is modulated by various environmental inputs such as temperature stress. The data presented here can be incorporated into a model in which stress sensing (involving p53) is the crucial determinant of longevity outcomes. Several theories of ageing incorporate the idea that 'that which does not kill us, makes us stronger' - encapsulated in a biological sense in the idea of hormesis, a physiological shift in response to stress. Here, this hypothesis is expanded to include the notion that intrinsic <strong>responses</strong> to stress may themselves act to limit lifespan - too much of a good thing can be bad.
4

Molecular basis for genetic instability in Werner syndrome /

Prince, Polly Rodgers. January 1999 (has links)
Thesis (Ph. D.)--University of Washington, 1999. / Vita. Includes bibliographical references (leaves 93-105).
5

Mechanisms of alternative telomere elongation in human cancer cells

Gocha, April Renee Sandy 18 December 2012 (has links)
No description available.
6

Étude d’un modèle murin de vieillissement sur la sténose valvulaire aortique

Trapeaux, Juliette 12 1900 (has links)
La sténose valvulaire aortique (SVA) est une pathologie associée au vieillissement et aux facteurs de risque cardiovasculaire. Afin d’étudier la SVA et d’explorer de nouvelles thérapies, plusieurs modèles animaux ont été récemment développés, mais la plupart de ces modèles ciblent les mécanismes de développement de la SVA reliés à l’hypercholestérolémie. Le syndrome de Werner (WS) est une maladie caractérisée par un vieillissement prématuré. Récemment, il a été découvert que des souris mutantes ayant une délétion du domaine hélicase du gène Werner, responsable du WS, démontraient un profile hémodynamique typique de la SVA. De ce fait, nous avons émis l’hypothèse que ces souris pourraient développer une SVA plus rapidement que des souris de type sauvage. Nous avons donc étudié les effets cette mutation chez des souris WrnΔhel/Δhel, en comparant le taux de progression d’une SVA entre des souris WrnΔhel/Δhel (WrnΔhel) et des souris de type sauvage comme groupe contrôle. À la suite d’une diète riche en sucre et en gras sur une période de 24 semaines, les souris WrnΔhel ont démontré une diminution plus prononcée de leur aire de valve aortique (mesures échocardiographiques) que les souris contrôles, supportée par les analyses histologiques concernant la fibrose des valves aortiques. Les souris n’ont toutefois développé aucun signe évident d’athérosclérose comme l’infiltration de lipides ou l’inflammation, bien que certaines caractéristiques liées à la dysfonction endothéliale semblent être augmentées chez les souris WrnΔhel. D’autres mesures échocardiographiques indiquant une SVA, comme une hypertrophie du ventricule gauche dans le groupe WrnΔhel, ont été obtenues. Nous avons aussi observé des indices de vieillissement plus marqués quant aux analyses sanguines et de la moelle osseuse des souris WrnΔhel en comparaison avec les souris contrôles. Par conséquent, ce modèle expérimental de vieillissement pourrait être utilisé pour les études futures sur la SVA sans les principaux effets athérogéniques des autres modèles expérimentaux. / Aortic valve stenosis (AVS) is associated with aging and classical cardiovascular risk factors. Different animal models were recently developed to study AVS and explore new therapies, however, most of these models rely almost exclusively on hypercholesterolemia-related mechanisms for AVS development. Werner syndrome (WS) is a disorder characterized by premature aging. It was recently demonstrated that mutant mice with a deletion of the helicase domain of the Werner gene, the gene responsible for WS, showed hemodynamic profile typical of AVS. We therefore hypothesized that mice with the WrnΔhel deletion could develop AVS earlier than wild-type (WT) mice. We studied the effect of the WrnΔhel mutation by comparing the rate of progression of AVS in homozygous mutant versus WT mice. By twenty-four weeks on a high-fat/high-carbohydrate diet, WrnΔhel/Δhel (WrnΔhel) mice showed a stronger decrease of the aortic valve area measured by serial echocardiography than WT mice, supported by histological analyses of valve fibrosis but without developing major signs of atherosclerosis such as lipid infiltration or increased inflammation. Some features linked to endothelial dysfunction also appeared to be increased in WrnΔhel mice. Other echocardiographic measurements were typical of AVS, such as left ventricle hypertrophy in the WrnΔhel group. We also observed stronger aging properties from WrnΔhel mice bone marrow and blood analyses compared to the WT group. Consequently, this experimental aging model could be used for AVS research without the major confounding atherogenic effects of other experimental models.
7

Étude d’un modèle murin de vieillissement sur la sténose valvulaire aortique

Trapeaux, Juliette 12 1900 (has links)
La sténose valvulaire aortique (SVA) est une pathologie associée au vieillissement et aux facteurs de risque cardiovasculaire. Afin d’étudier la SVA et d’explorer de nouvelles thérapies, plusieurs modèles animaux ont été récemment développés, mais la plupart de ces modèles ciblent les mécanismes de développement de la SVA reliés à l’hypercholestérolémie. Le syndrome de Werner (WS) est une maladie caractérisée par un vieillissement prématuré. Récemment, il a été découvert que des souris mutantes ayant une délétion du domaine hélicase du gène Werner, responsable du WS, démontraient un profile hémodynamique typique de la SVA. De ce fait, nous avons émis l’hypothèse que ces souris pourraient développer une SVA plus rapidement que des souris de type sauvage. Nous avons donc étudié les effets cette mutation chez des souris WrnΔhel/Δhel, en comparant le taux de progression d’une SVA entre des souris WrnΔhel/Δhel (WrnΔhel) et des souris de type sauvage comme groupe contrôle. À la suite d’une diète riche en sucre et en gras sur une période de 24 semaines, les souris WrnΔhel ont démontré une diminution plus prononcée de leur aire de valve aortique (mesures échocardiographiques) que les souris contrôles, supportée par les analyses histologiques concernant la fibrose des valves aortiques. Les souris n’ont toutefois développé aucun signe évident d’athérosclérose comme l’infiltration de lipides ou l’inflammation, bien que certaines caractéristiques liées à la dysfonction endothéliale semblent être augmentées chez les souris WrnΔhel. D’autres mesures échocardiographiques indiquant une SVA, comme une hypertrophie du ventricule gauche dans le groupe WrnΔhel, ont été obtenues. Nous avons aussi observé des indices de vieillissement plus marqués quant aux analyses sanguines et de la moelle osseuse des souris WrnΔhel en comparaison avec les souris contrôles. Par conséquent, ce modèle expérimental de vieillissement pourrait être utilisé pour les études futures sur la SVA sans les principaux effets athérogéniques des autres modèles expérimentaux. / Aortic valve stenosis (AVS) is associated with aging and classical cardiovascular risk factors. Different animal models were recently developed to study AVS and explore new therapies, however, most of these models rely almost exclusively on hypercholesterolemia-related mechanisms for AVS development. Werner syndrome (WS) is a disorder characterized by premature aging. It was recently demonstrated that mutant mice with a deletion of the helicase domain of the Werner gene, the gene responsible for WS, showed hemodynamic profile typical of AVS. We therefore hypothesized that mice with the WrnΔhel deletion could develop AVS earlier than wild-type (WT) mice. We studied the effect of the WrnΔhel mutation by comparing the rate of progression of AVS in homozygous mutant versus WT mice. By twenty-four weeks on a high-fat/high-carbohydrate diet, WrnΔhel/Δhel (WrnΔhel) mice showed a stronger decrease of the aortic valve area measured by serial echocardiography than WT mice, supported by histological analyses of valve fibrosis but without developing major signs of atherosclerosis such as lipid infiltration or increased inflammation. Some features linked to endothelial dysfunction also appeared to be increased in WrnΔhel mice. Other echocardiographic measurements were typical of AVS, such as left ventricle hypertrophy in the WrnΔhel group. We also observed stronger aging properties from WrnΔhel mice bone marrow and blood analyses compared to the WT group. Consequently, this experimental aging model could be used for AVS research without the major confounding atherogenic effects of other experimental models.
8

Type I Interferon Induction in Cutaneous DNA Damage Syndromes

Klein, Benjamin, Günther, Claudia 24 March 2023 (has links)
Type I interferons (IFNs) as part of the innate immune system have an outstanding importance as antiviral defense cytokines that stimulate innate and adaptive immune responses. Upon sensing of pattern recognition particles (PRPs) such as nucleic acids, IFN secretion is activated and induces the expression of interferon stimulated genes (ISGs). Uncontrolled constitutive activation of the type I IFN system can lead to autoinflammation and autoimmunity, which is observed in autoimmune disorders such as systemic lupus erythematodes and in monogenic interferonopathies. They are caused by mutations in genes which are involved in sensing or metabolism of intracellular nucleic acids and DNA repair. Many authors described mechanisms of type I IFN secretion upon increased DNA damage, including the formation of micronuclei, cytosolic chromatin fragments and destabilization of DNA binding proteins. Hereditary cutaneous DNA damage syndromes, which are caused by mutations in proteins of the DNA repair, share laboratory and clinical features also seen in autoimmune disorders and interferonopathies; hence a potential role of DNA-damage-induced type I IFN secretion seems likely. Here, we aim to summarize possible mechanisms of IFN induction in cutaneous DNA damage syndromes with defects in the DNA double-strand repair and nucleotide excision repair. We review recent publications referring to Ataxia teleangiectasia, Bloom syndrome, Rothmund–Thomson syndrome, Werner syndrome, Huriez syndrome, and Xeroderma pigmentosum. Furthermore, we aim to discuss the role of type I IFN in cancer and these syndromes.
9

The role of topoisomerase II in replication in mammalian cells

Muftic, Diana January 2011 (has links)
Topoisomerase 2α (Topo2α) is an essential protein with DNA decatenating enzymatic properties, indispensable for chromosome decatenation and segregation. It is a target for a plethora of antitumour drugs and Topo2α protein levels have been associated with the success of treatment, but also drug resistance and secondary malignancies. Although unique in its ability to resolve catenated chromosomes, the role of Topo2α in other steps of DNA metabolism, such as DNA replication elongation and termination have been elusive. A thorough understanding of the role of Topo2α in the cell will not only allow for increased insight into the mechanisms it is involved in, but it will also shed light on proteins and pathways that can act as back-up in its absence, and therefore hopefully expand the basis on which to improve treatment options. Through a synthetic lethal interaction (SLI) screen with an siRNA library targeting 200 DNA repair and signalling genes, Topo2α emerged as being synthetic lethal to Werner protein (WRN), a RecQ helicase involved in maintaining genome integrity mainly in S phase, and the loss of which leads to Werner Syndrome (WS), a segmental progeroid syndrome. The screen was performed in WRN deficient cells, with the initial aim to find proteins that act to buffer against loss of viability, which is the central idea in the concept of synthetic lethality in the absence of WRN. The screen revealed an SLI between WRN and Topo2α and although we were unable to fully validate this, it spurred the question of Topo2α’s role in DNA replication. The findings in this thesis suggest that Topo2α is not required for DNA elongation and timely completion of S phase, and that simultaneous loss of the closely related isoform Topo2β does not affect replication, suggesting that these proteins do not act in parallel back-up pathways during replication. Interestingly, cells accumulate in the polyploid fraction after both depletion and inhibition of Topo2α, albeit with different kinetics. The mechanistic basis of this phenotype remains to be understood through further research, but it is highly interesting as aneuplidity and polyploidy are implicated in the initial stages of tumour development.

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