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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.
161

Chromatin Modified! Dynamics, Mechanics, Structure, and HIV Integration

Simon, Marek 20 June 2012 (has links)
No description available.
162

Histone H2A exogène induit à différenciation et la sénescence des cellules cancéreuses

Hadnagy, Annamaria January 2008 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
163

Histone H2A exogène induit à différenciation et la sénescence des cellules cancéreuses

Hadnagy, Annamaria January 2008 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal
164

Overcoming frataxin gene silencing in Friedreich's ataxia with small molecules: studies on cellular and animal models

Rai, Myriam 05 January 2010 (has links)
Friedreich’s ataxia (FRDA) is an inherited recessive disorder characterized by progressive neurological disability and heart disease. It is caused by a pathological intronic hyperexpansion of a GAA repeat in the FXN gene, encoding the essential mitochondrial protein frataxin. At the homozygous state, the GAA expansion induces a heterochromatin state with decreased histone acetylation and increased methylation, resulting in a partial deficiency of frataxin expression. This was established in cells from FRDA patients. We showed that the same chromatin changes exist in a GAA based mouse model, KIKI, generated in our laboratory. Furthermore, treatment of KIKI mice with a novel Histone Deacetylase Inhibitor (HDACi), 106, a pimelic diphenylamide that increases frataxin levels in FRDA cell culture, restored frataxin levels in the nervous system and heart of KIKI mice and induced histone hyperacetylation near the GAA repeat. As shown by microarrays, most of the differentially expressed genes in KIKI were corrected towards wild type. In an effort to improve the pharmacological profile of compound 106, we synthesized more compounds based on its structure and specificity. We characterized two of these compounds in FRDA patients’ peripheral blood lymphocytes and in the KIKI mouse model. We observed a sustained frataxin upregulation in both systems, and, by following the time course of the events, we concluded that the effects of these compounds last longer than the time of direct exposure to HDACi. Our results support the pre-clinical development of a therapeutic approach based on pimelic diphenylamide HDACis for FRDA. Laboratory tools to follow disease progression and assess drug efficacy are needed in a slowly progressive neurodegenerative disease such as FRDA. We used microarrays to characterize the gene expression profile in peripheral lymphocytes from FRDA patients, carriers and controls. We identified gene expression changes in heterozygous, clinically unaffected GAA expansion carriers, suggesting that they present a biochemical phenotype, consistent with data from animal models of frataxin deficiency. We identified a subset of genes changing in patients as a result of pathological frataxin deficiency establishing robust gene expression changes in peripheral lymphocytes. These changes can be used as a biomarker to monitor disease progression and potentially assess drug efficacy. To this end, we used he same methodology to characterize the gene expression profiles in peripheral lymphocytes after treatment with pimelic diphenylamide HDACi. This treatment had relevant effects on gene expression on peripheral patients’ blood lymphocytes. It increased frataxin levels in a dose-dependent manner, and partially rescued the gene expression phenotype associated with frataxin deficiency in the tested cell model, thus providing the first application of a biomarker gene set in FRDA. / Doctorat en sciences biomédicales / info:eu-repo/semantics/nonPublished
165

Caractérisation du rôle de HSM3 en transcription génique chez Saccharomyces cerevisiae

Guérin, Valérie January 2012 (has links)
La chromatine est une structure composée d'ADN et de protéines, principalement des histones, permettant la compaction du génome à l'intérieur du noyau des cellules eucaryotes. Cette compaction de l'ADN, bien qu'essentielle, représente dans un même temps une barrière à plusieurs processus cellulaires exigeant un accès à l'ADN, dont la transcription génique. L'échange d'histones canoniques par des variants d'histones, tel H2A.Z, est un des moyens utilisés par les cellules pour reconfigurer la chromatine, et ainsi contrôler l'expression des gènes. Connaître les interactions protéiques de H2A.Z est donc une façon de mieux comprendre cette histone, mais également les mécanismes de transcription génique. Dans ce but, nous avons utilisé et optimisé une méthode basée sur une purification par affinité en tandem de protéines complexées à H2A.Z sur la chromatine, chez la levure Saccharomyces cerevisiae . Les partenaires protéiques de H2A.Z isolés de cette façon ont par la suite pu être identifiés à l'aide de la spectrométrie de masse, et c'est ainsi que la protéine Hsm3 a été relevée. La protéine Hsm3 était déjà connue comme étant importante pour la réparation des bases mal appariées, ainsi que comme chaperonne dans l'assemblage de la base de la sous-unité 19S du protéasome, mais aucun rôle en transcription ne lui était jusqu'à présent associé. Nous avons tenté de mieux caractériser cette protéine en construisant une souche de levure n'exprimant plus le gène HSM3 , puis en faisant des essais de croissance avec cette souche sur différents milieux. Ceci nous a permis de constater que Hsm3 est importante pour la croissance des cellules sur un milieu contenant de la caféine. À l'aide d'autres immunoprécipitations, nous avons par la suite pu confirmer l'interaction de cette protéine avec les histones H2A et H2A.Z sur la chromatine. Des essais d'expression ont finalement démontré la nécessité de Hsm3 pour l'induction de l'expression des gènes INO1, SUC2, GAL1 et GAL10 , mais seulement sous certaines conditions de croissance. Puisque cette protéine était déjà connue en tant que chaperonne du protéasome, nous avons vérifié si les phénotypes associés à la suppression de Hsm3 provenaient seulement d'un retard dans l'assemblage de ce complexe. Pour ce faire, nous avons comparé les effets de l'inactivation du protéasome à une suppression de Hsm3 sur l'induction de l'expression des gènes, mais nos résultats ne nous ont pas permis de confirmer ni d'infirmer cette hypothèse. En conclusion, la protéine Hsm3 interagit directement avec la chromatine, et est impliquée dans certains mécanismes de transcription génique, cette implication étant fortement dépendante des conditions de croissance utilisées.
166

Cellular prostatic acid phosphatase (cPAcP) serves as a useful biomarker of histone deacetylase (HDAC) inhibitors in prostate cancer cell growth suppression

Chou, Yu-Wei, Lin, Fen-Fen, Muniyan, Sakthivel, Lin, Frank C., Chen, Ching-Shih, Wang, Jue, Huang, Chao-Cheng, Lin, Ming-Fong January 2015 (has links)
BACKGROUND: Prostate cancer (PCa) is the most commonly diagnosed solid tumor and the second leading cancer death in the United States, and also one of the major cancer-related deaths in Chinese. Androgen deprivation therapy (ADT) is the first line treatment for metastatic PCa. PCa ultimately relapses with subsequent ADT treatment failure and becomes castrate-resistant (CR). It is important to develop effective therapies with a surrogate marker towards CR PCa. METHOD: Histone deacetylase (HDAC) inhibitors were examined to determine their effects in androgen receptor (AR)/ cellular prostatic acid phosphatase (cPAcP)-positive PCa cells, including LNCaP C-33, C-81, C4-2 and C4-2B and MDA PCa2b androgen-sensitive and androgen-independent cells, and AR/cPAcP-negative PCa cells, including PC-3 and DU 145 cells. Cell growth was determined by cell number counting. Western blot analyses were carried out to determine AR, cPAcP and PSA protein levels. RESULTS: cPAcP protein level was increased by HDAC inhibitor treatment. Valproic acid, a HDAC inhibitor, suppressed the growth of AR/cPAcP-positive PCa cells by over 50% in steroid-reduced conditions, higher than on AR/cPAcP-negative PCa cells. Further, HDAC inhibitor pretreatments increased androgen responsiveness as demonstrated by PSA protein level quantitation. CONCLUSION: Our results clearly demonstrate that HDAC inhibitors can induce cPAcP protein level, increase androgen responsiveness, and exhibit higher inhibitory activities on AR/cPAcP-positive PCa cells than on AR/cPAcP-negative PCa cells. Upon HDAC inhibitor pretreatment, PSA level was greatly elevated by androgens. This data indicates the potential clinical importance of cPAcP serving as a useful biomarker in the identification of PCa patient sub-population suitable for HDAC inhibitor treatment.
167

Activation of lytic cycle of Epstein-barr virus of histone deacetylaseinhibitors

Hui, Kwai-fung., 許貴鋒. January 2008 (has links)
published_or_final_version / Paediatrics and Adolescent Medicine / Master / Master of Philosophy
168

Study of the StpA protein from Salmonella typhimurium and Escherichia coli

Sonnenfield, Jean Marie January 1997 (has links)
No description available.
169

Effects of Histone Deacetylase Inhibitors on the Maintenance of Midbrain Neurons and Glia

Forgione, Nicole Louise 21 August 2012 (has links)
Perturbations of the complex intrinsic and extrinsic factors that contribute to cellular differentiation can have many consequences ranging from dedifferentiation to cell death. The overall objective of my research is to investigate the factors that contribute to the maintenance of mature midbrain neurons and glia. In order to address this objective, I first carried out a detailed immunocytochemical analysis to demonstrate that histone deacetylase inhibitor (HDACI) treatment of differentiated midbrain neurons in culture results in an overall destabilization of neuronal phenotype, which leads to caspase-independent cell death. GFAP positive astrocytes are refractory to the effects of HDACI treatment, suggesting that inhibition of HDACs has differential effects on neurons and glia. HDACI treatment alone was not sufficient to induce neuronal dedifferentiation as evidenced by RT-PCR analysis of stem/progenitor markers, and recovery experiments. Finally, I demonstrate that cortical neurons do not undergo cell death in response to HDACI treatment, suggesting that there may be microenvironmental factors that promote the susceptibility of midbrain neurons to the neurotoxic effects of HDACI. In the second part of this thesis I determined the molecular mechanism that was at least partly responsible for the effects of HDACI treatment on midbrain neurons. Gene expression profiling of HDACI treated midbrain cultures revealed a strong down-regulation of immune related factors. This observation is supported by the loss of microglia in HDACI treated midbrain cultures. I also provide evidence that Toll-like receptor (TLR) signaling, likely through the activation of Interleukin-6 (IL-6) expression, mediates HDAC-dependent neuronal survival. These data provide new evidence that the neuroimmune system is an extrinsic regulator for the homeostasis and survival of neurons.
170

Genetic and Epigenetic Mechanisms Underlying Stress-Induced Behavioral Change

McCann, Katharine E 09 May 2016 (has links)
Social stress is the most common stressor experienced by humans and exposure to social stress is thought to cause or exacerbate neuropsychiatric illness. Social stress also leads to behavioral and physiological responses in many animal models that closely mirror the symptoms of fear and anxiety in humans. Our laboratory uses Syrian hamsters to study behavioral responses to social stress. Hamsters are highly territorial, but after losing an agonistic encounter, hamsters exhibit a striking behavioral change, abandoning all territorial aggression and instead becoming highly submissive. This behavioral shift is termed conditioned defeat. Epigenetic modifications, such as changes in histone acetylation, are a possible molecular mechanism underlying such behavioral shifts. Histone deacetylase (HDAC) inhibitors have been shown to enhance fear learning and conditioned place preference for drugs of abuse, while suppressing histone acetylation with histone acetyltransferase (HAT) inhibitors impairs long-term memory formation. The first goal of this study was to test the hypothesis that histone acetylation is a molecular mechanism underlying conditioned defeat. We found that animals given an HDAC inhibitor systemically before social defeat later exhibited increased conditioned defeat. This treatment also suppressed defeat-induced immediate-early gene activity in the infralimbic cortex but not the basolateral amygdala. Next, we demonstrated that administration of an HDAC inhibitor in the infralimbic cortex before defeat enhanced stress-induced behavioral responses while HAT inhibition blocked these behavioral changes. Although both males and females exhibit conditioned defeat, the behavioral expression is more pronounced in males. We next used transcriptomic analysis to investigate potential genetic mechanisms leading to this sexually dimorphic expression and to further delineate the role of acetylation in stress-induced behavioral changes. We sequenced the whole brain transcriptome of male and female hamsters as well as the transcriptome of basolateral amygdala, a nucleus necessary for the acquisition and expression of conditioned defeat, of dominant, subordinate, and control animals. Our analysis revealed that numerous genes relating to histone acetylation, including several HDACs, were differentially expressed in animals of different social status and between sexes. Together, these data support the hypotheses that histone modifications underlie behavioral responses to social stress and that some of these modifications are sexually dimorphic.

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