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Investigating the pathogenesis and therapy of Friedreich ataxiaSandi, Chiranjeevi January 2010 (has links)
Friedreich ataxia (FRDA) is an inherited autosomal recessive neurodegenerative disorder caused by a GAA trinucleotide repeat expansion mutation within the first intron of the FXN gene. Normal individuals have 5 to 30 GAA repeats, whereas affected individuals have from approximately 70 to more than 1,000 GAA triplets. In addition to progressive neurological disability, FRDA is associated with cardiomyopathy and an increased risk of diabetes mellitus. Currently there is no effective therapy for FRDA and this is perhaps due to the lack of an effective system to test potential drugs. Therefore, the main aim of this thesis is to develop a novel cell culture system, to aid in rapid drug screening for FRDA. Firstly, I have demonstrated the establishment of novel cell culture systems, including primary fibroblasts, neural stem cells (NSC) and splenocytes, from FRDA YAC transgenic mouse models (YG8 and YG22). Then, I have shown the differentiation of NSCs into neurons, oligodendrocytes and astrocytes. The presence of these cells was confirmed by using cell specific immunofluorescence assays. I have also shown that both YG8 and YG22 rescue mice have less tolerance to hydrogen peroxide induced oxidative stress than WT mice, as similarly seen in FRDA patient fibroblasts. Recent findings indicate that FRDA is associated with heterochromatin-mediated silencing of the FXN gene accompanied by histone changes, flanking the GAA repeats. This suggested potential therapeutic use of compounds which can reduce the methylation and increase the acetylation of histone proteins. Therefore, using human and mouse primary fibroblast cell lines I have investigated the efficacy and tolerability of various DNA demethylating agents, GAA interacting compounds and class III histone deacetylase (HDAC) inhibitors. Although DNA demethylating agents showed increased FXN expression, no correlation between the level of DNA methylation and FXN expression was identified. Nevertheless, the use of GAA interacting compounds, particularly DB221, and the HDAC inhibitor, nicotinamide, have shown encouraging results, provoking us to use such compounds in future long-term in vivo studies. In addition, I have also investigated the long-term efficacy of two benzamide-type HDAC inhibitors, RGFA 136 and RGFP 109, on the FRDA YAC transgenic mice. No overt toxicity was identified with either drug, indicating a safe administration of these compounds. Both compounds produced improved functional analysis together with significantly reduced DRG neurodegeneration. However, neither of these compounds was shown to significantly increase the FXN mRNA expression. Nevertheless, elevated levels of frataxin protein in the brain tissues were obtained with RGFP 109, suggesting that RGFP 109 is capable of crossing the blood-brain barrier. I have also found increased levels of global acetylated H3 and H4 histone proteins in brain tissues, along with significant increase in aconitase enzyme activity, particularly with RGFP 109 treatments. Overall, these results support future clinical trial development with such compounds.
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Thérapie du mésothéliome pleural malin par lutilisation du valproate, un inhibiteur de désacétylasesVandermeers, Fabian 15 December 2008 (has links)
Le mésothéliome pleural est un cancer de la plèvre provoqué principalement par linhalation de fibres damiante. Nous avons émis lhypothèse que la dérégulation de lexpression génique est un paramètre important du développement de cette maladie. Or, les histones désacétylases (HDACs) peuvent jouer le rôle de répresseur transcriptionnel en modifiant la conformation de la chromatine. Dans ce contexte, nous avons étudié lactivité anticancéreuse du valproate, un inhibiteur dHDAC, en combinaison avec différents types de traitements utilisés en chimiothérapie. Nous avons démontré leffet synergique entre la chimiothérapie et le valproate dans des lignées cellulaires et dans des biopsies isolées à partir de patients. Nous avons étudié les processus impliqués dans lapoptose et révélé limplication des caspases, des espèces oxygéno-réactives et le rôle important de la protéine Bid. Nous avons ensuite réalisé une étude transcriptomique par microdamiers dans le but de mieux caractériser les mécanismes impliqués. Enfin, nous avons démontré lefficacité du valproate dans un modèle préclinique murin. Ces recherches ont permis la mise en place dun essai clinique de deuxième ligne sur des patients réfractaires à une première chimiothérapie.
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Synthesis and Biological Evaluation of HDAC Inhibitors with 1-(1H-imidazol-2-yl)ethan-1-one Moiety as the Metal-Binding GroupDlamini, Samkeliso Mpendulo, Dlamini January 2017 (has links)
No description available.
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HR23B, a biomarker for HDAC inhibitorsKhan, Omar Ali January 2013 (has links)
As our understanding of cancer biology increases and novel therapies are developed, an increasing number of predictive biomarkers are becoming clinically available. Aberrant acetylation has been strongly linked to tumourigenesis and the modulation of acetylation through targeting histone deacetylase (HDAC) has led to the introduction of many HDAC inhibitors. To date, two have had regulatory approval for the treatment of cutaneous T cell lymphoma (CTCL). Modifications in chromatin control underpin the mechanism of action of HDAC inhibitors. A genome wide loss-of-function screen identified HR23B as a gene that governs sensitivity to HDAC inhibitors. HR23B shuttles ubiquitinated cargo proteins to the proteasome and elevated levels may contribute to cell death mediated by this pathway. It also governs cell sensitivity to drugs that act directly on the proteasome. HDAC inhibitors influence proteasome activity and there may be a synergistic interaction with proteasome inhibitors. HR23B and HDAC6 interact and HDAC6 may be a negative regulator of apoptosis and a positive regulator of autophagy and through its ability to down-regulate HR23B, may impact on the cellular outcome of HDAC inhibitor treatment. Expression of HR23B has been correlated with clinical response to HDAC inhibitors in a retrospective analysis of CTCL patients. The tissue expression of HR23B and the autophagy marker LC3 has been investigated and there may be a reciprocal relationship in their expression in some tumours which may provide prognostic information and patients with low HR23B expression but high levels of autophagy appear to have a particularly poor prognosis. Well designed, biomarker-driven prospective clinical trials are needed to clarify the predictive and prognostic roles of HR23B.
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Histone désacétylases, signalisation œstrogénique et cancer du sein : établissement d’outils bioluminescents pour la détection d’inhibiteurs sélectifs de HDAC : expression et rôle de HDAC9 dans les lignées cellulaires de cancer du sein / Histone deacetylases, estrogen signaling and breast cancer : bioluminescent cell lines as screening tools for selective HDAC inhibitors : expression and role of HDAC9 in breast cancer cell linesLinares, Aurélien 18 February 2011 (has links)
Le récepteur des oestrogènes (RE) peut moduler l’expression de gènes impliqués dans les processus de prolifération et d’apoptose cellulaires. Cette régulation est possible par le recrutement de complexes corégulateurs. Dans ces complexes, l’activité répressive s’explique essentiellement par la présence d’histones désacétylases (HDAC). Cette famille de protéines est composée de 18 membres classés en 4 groupes. Cette répartition est due aux similarités structurales et de fonctions de ces enzymes. Il y a la classe I (HDAC 1, -2, -3, -8), la classe II (HDAC 4, -5, -6, -7, -9, -10) et la classe IV (HDAC 11) qui ont une activité Zn2+ dépendante alors que la classe III (Sirt1-7) recense les HDAC avec une activité NAD+ dépendante. Des résultats récents du laboratoire ont montré, qu’au niveau ARNm, il y avait un important différentiel d’expression de HDAC9 entre les lignées cellulaires de cancer du sein RE positive et négative ou résistante au tamoxifène. Durant ma thèse, j’ai démontré que la régulation de HDAC9, au niveau de son expression, comme au niveau de ses fonctions, affecte la signalisation oestrogénique en modulant l’expression et l’activité transcriptionnelle de REα. De plus, de nombreuses études ont montré l’activité antiangiogénique d’inhibiteurs de HDAC (HDI) à large spectre comme la TSA (Tricostatin A). La conception et l’identification de HDI, potentiellement sélectifs, comme agents anti-tumoraux et/ou anti-métastatique représente une nouvelle approche de thérapie seule ou combinée avec les produits déjà utilisés dans le traitement du cancer. Ainsi, afin d’identifier et caractériser de nouveaux HDI, j’ai établi un outil bioluminescent pour la détection d’inhibiteurs sélectifs de HDAC. Plusieurs lignées cellulaires Gal4-VP16-HDAC ont été générées dans ce but / The estrogen receptor (ER) can modulate the gene expression with consequences in the cell proliferation, apoptosis. This modulation is possible by the recruitment of coactivator or corepressor complexes. The repression activity is in particular explained by the histones deacetylases (HDACs). This protein family is composed by eighteen members who have been classified in four groups. These HDACs are subdivided on structural and functional similarities. The class I isoforms (HDACs 1, 2, 3 and 8), class II (HDACs 4, 5, 6, 7, 9, 10) and class IV (HDAC11) are Zn-dependent enzymes, whereas class III HDACs (Sirtuins 1-7) are NAD+-dependent. Recent data from the laboratory have shown, at the mRNA level, there is an enormous expression differential of HDAC9 between breast cancer cell line ER positive and negative or OHT resistant cell line. During my thesis, I demonstrated that the regulations of the HDAC9 on the level of its expression as of its role in the various breast cancer cell lines were implicated in the estrogen signaling. This regulation takes place at the transcriptional level and in the ERet#945; activity.In addition, using broad spectrum HDAC inhibitors (HDIs) such as TSA (Tricostatin A), many studies have shown that these inhibitors had antiangiogenic activity. Thus, the design or the identification of selective and potent HDAC inhibitors as agents anti-tumoral and/or anti-metastatic can emerge in a novel opportunity used alone or in combination with the already existing agents for the treatment of cancers. In order to identify and characterize new HDIs, my thesis works consisted to establish bioluminescent cell lines for screening HDAC inhibitors. Different cell GAL4-VP16-HDACs chimeras' models were generated to determine the selectivity of HDIs for the different HDACs.
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The Smn-Independent Beneficial Effects of Trichostatin A on an Intermediate Mouse Model of Spinal Muscular AtrophyYazdani, Armin A. 25 March 2014 (has links)
Trichostatin A (TSA) is a histone deacetylase inhibitor with beneficial effects in spinal muscular atrophy mouse models that carry the human SMN2 transgene. Whether TSA specifically targets the upregulation of the SMN2 gene or whether other genes respond to TSA and in turn provide neuroprotection in SMA mice is unclear. We have taken advantage of the Smn2B/- mouse model that does not harbor the human SMN2 transgene, to test the hypothesis that TSA has its beneficial effects through a non-Smn mediated pathway. Daily intraperitoneal injection of TSA from postnatal day 12 to 25 was performed in the Smn2B/- mice and littermate controls. Previous work from our laboratory demonstrated that treatment with TSA increased the median lifespan of Smn2B/- mice from twenty days to eight weeks. As well, there was a significant attenuation of weight loss and improved motor behavior. Pen test and righting reflex both showed significant improvement, and motor neurons in the spinal cord of Smn2B/-mice were protected from degeneration. Both the size and maturity of neuromuscular junctions were significantly improved in TSA treated Smn2B/- mice. Here, we have shown that TSA treatment does not increase the levels of Smn protein in mouse embryonic fibroblasts or myoblasts obtained from the Smn2B/- mice. Further, qPCR analysis revealed no changes in the level of Smn transcripts in the brain or spinal cord of TSA-treated SMA mice. Similarly, western blot analysis revealed no significant increase in Smn protein levels in the brain, spinal cord, hind limb muscle, heart muscle, or the liver of TSA treated Smn2B/- mice. However, TSA has beneficial effects in the muscles of Smn2B/- mice and improves motor behavior and myofiber size. TSA improves muscle development by enhancing the activity of myogenic regulatory factors independent of the Smn gene. The beneficial effect of TSA is therefore likely through an Smn-independent manner. Identification of these protective pathways will be of therapeutic value for the treatment of SMA.
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The Smn-Independent Beneficial Effects of Trichostatin A on an Intermediate Mouse Model of Spinal Muscular AtrophyYazdani, Armin A. January 2014 (has links)
Trichostatin A (TSA) is a histone deacetylase inhibitor with beneficial effects in spinal muscular atrophy mouse models that carry the human SMN2 transgene. Whether TSA specifically targets the upregulation of the SMN2 gene or whether other genes respond to TSA and in turn provide neuroprotection in SMA mice is unclear. We have taken advantage of the Smn2B/- mouse model that does not harbor the human SMN2 transgene, to test the hypothesis that TSA has its beneficial effects through a non-Smn mediated pathway. Daily intraperitoneal injection of TSA from postnatal day 12 to 25 was performed in the Smn2B/- mice and littermate controls. Previous work from our laboratory demonstrated that treatment with TSA increased the median lifespan of Smn2B/- mice from twenty days to eight weeks. As well, there was a significant attenuation of weight loss and improved motor behavior. Pen test and righting reflex both showed significant improvement, and motor neurons in the spinal cord of Smn2B/-mice were protected from degeneration. Both the size and maturity of neuromuscular junctions were significantly improved in TSA treated Smn2B/- mice. Here, we have shown that TSA treatment does not increase the levels of Smn protein in mouse embryonic fibroblasts or myoblasts obtained from the Smn2B/- mice. Further, qPCR analysis revealed no changes in the level of Smn transcripts in the brain or spinal cord of TSA-treated SMA mice. Similarly, western blot analysis revealed no significant increase in Smn protein levels in the brain, spinal cord, hind limb muscle, heart muscle, or the liver of TSA treated Smn2B/- mice. However, TSA has beneficial effects in the muscles of Smn2B/- mice and improves motor behavior and myofiber size. TSA improves muscle development by enhancing the activity of myogenic regulatory factors independent of the Smn gene. The beneficial effect of TSA is therefore likely through an Smn-independent manner. Identification of these protective pathways will be of therapeutic value for the treatment of SMA.
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Approaches to the Search of Platinum Anticancer Agents: Derivatizing Current Drugs and Incorporating HDAC InhibitionFeng, Chao 01 January 2019 (has links)
Platinum-based anticancer drugs, such as cisplatin, carboplatin, and oxaliplatin, have been approved for clinical use worldwide for decades. Despite their enormous success, their widespread application is hindered by either cross-resistance or toxic side effects, including nephrotoxicity and neurotoxicity. The need to overcome these drawbacks has stimulated the search for new platinum-based drugs.
This dissertation will start with the accidental discovery of cisplatin, followed by an introduction of other platinum-based anticancer agents, including the action mechanism, general structures, and development history. Picoplatin is a newer generation of platinum-based anticancer agent. The bulky 2-methylpyridine as a non-leaving group on picoplatin could reduce the detoxification effect caused by thiol-containing species, such as glutathione and metallothionein, thus may grant picoplatin the ability to overcome cisplatin resistance. A convenient synthesis route for picoplatin derivatives has been developed. 11 new picoplatin derivatives have been designed by varying the bulkiness of the non-leaving amine group. All complexes have been characterized by different instrumentations, including MS, 1H NMR, 13C NMR, 195Pt NMR, HMQC, X-ray crystallography, and elemental analysis. Different bioassays, such as DNA binding, cell viability, and cellular accumulation, have been applied to evaluate their efficacy on cisplatin-sensitive ovarian cancer cell line A2780 and cisplatin-resistant ovarian cancer cell line A2780cis. The newly designed picoplatin derivatives show comparable efficacy with that of picoplatin and less resistance compared with cisplatin. The study of picoplatin derivatives laid the foundation toward the research of bifunctional platinum-based anticancer agents by incorporating histone deacetylase (HDAC) inhibition.
Histone acetyltransferase (HAT) and histone deacetylase (HDAC) are a pair of important enzymes in epigenetic regulation. They work in harmony to acetylate and deacetylate histone lysine residues, resulting in a more relaxed or more condensed chromatin structure, respectively. HDAC has been found to be overexpressed in some cancer cells. Since 2006, 5 HDAC inhibitors (HDACi) have entered clinical use for cancer treatment. 19 new HDACi with additional coordination sites on the phenyl cap have been designed, synthesized, and evaluated. A few of the new HDACi show comparable or even better HDAC inhibition than that of Vorinostat (SAHA, the first FDA approved HDACi).
A logical design would involve the installation of HDACi on the platinum center as a non-leaving group ligand. When the bifunctional drug reaches the cancer cell, the synergistic effect could be maintained as the relaxed chromatin structure makes DNA more susceptible to be attacked by the platinum centers, thus increase the anticancer activity and possibly selectivity toward cancer cells. 6 Pt-HADCi conjugates have been designed and synthesized. Dual functions of the new Pt-HDACi have been confirmed by DNA electrophoresis assay and HDAC inhibition assay. One of the Pt-HDACi (CF-101) shows comparable cytotoxicity with cisplatin and less resistance, which could be used as the lead compound for further structural modification and in vivo studies.
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Molecularly targeted therapy for ovarian cancerYang, Ya-Ting 21 September 2006 (has links)
No description available.
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Exploitation and Mechanistic Validation of Drug-combination Strategies to Overcome EGFR-inhibitor resistance in NSCLC cellsWang, Yu-Chieh January 2008 (has links)
No description available.
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