Global ETD Search

21	Influence of valproic acid on hepatic carbohydrate and lipid metabolism Becker, Cord-Michael January 1982 (has links) This document only includes an excerpt of the corresponding thesis or dissertation. To request a digital scan of the full text, please contact the Ruth Lilly Medical Library's Interlibrary Loan Department (rlmlill@iu.edu). Valproic Acid Liver Lipid Metabolism Carbohydrate Metabolism
22	The teratological effects of drugs : carbamazepine (CMZ), sodium valproate (NaV) and diphenylhydantoin (DPH); dosage levels and time of drug administration on the craniofacial development in the CD-1 mouse fetus / Eluma, Fabian Oby January 1982 (has links) No description available. Biology Carbamazepine Valproic acid Phenytoin Teratogenic agents
23	The influence of valproic acid and the role of cyclin D2 in prostate cancer Morich, Claudia 11 April 2016 (has links) No description available. 610 prostate cancer valproic acid cyclin D2 angiogenesis Medizin (PPN619874732)
24	The effect of valproic acid on histone acetylation in FaDu-luc head and neck squamous cell carcinoma cells Pourian, Ali 01 July 2011 (has links) No description available. Epigenetics Head and Neck Cancer Valproic Acid Other Dentistry
25	Mechanism of valproic acid induced dysmorphogenesis via oxidative stress and epigenetic regulation at the Hoxa2 gene promoter 2013 May 1900 (has links) Valproic acid (2-propylpentanoic acid, VPA) is a clinically used anti-epileptic drug and an effective mood stabilizer. VPA is also a histone deacetylase inhibitor and can induce embryonic malformations in both humans and mice. The mechanism(s) of VPA-induced teratogenicity are not well characterized. The objectives of my study were three fold, to: (i) investigate the effect of VPA on mouse embryonic development, (ii) characterize the putative mechanism(s) of VPA-induced teratogenicity and, (iii) investigate VPA associated epigenetic regulation of Hoxa2 gene in cell lines and in developing embryos. Whole mouse embryo cultures were treated with VPA at doses of 0, 50 (0.35 mM), 100 (0.70 mM), 200 (1.4 mM), and 400 µg/mL (2.8 mM), encompassing the therapeutic range of 0.35 mM to 0.70 mM. Van Maele-Fabry’s morphologic scoring system was used to quantitatively assess embryonic organ differentiation and development. Hoxa2 gene expression was measured by quantitative real-time RT-PCR (Reverse Transcriptase-Polymerase Chain Reaction). To assess epigenetic changes on the Hoxa2 gene promoter, DNA methylation was determined by bisulfite (BSP) sequencing and pyrosequencing. Histone “bivalent domains” H3K4me3 (histone 3 lysine 4 trimethylation) and H3K27me3 (histone 3 lysine 27 trimethylation) associated with gene activation repression, respectively, analyzed qChIP-PCR (quantitative chromatin immunoprecipitation-PCR). Telomere length and telomerase activity were analyzed in mouse embryos and in NIH3T3 cell line treated with VPA. Results indicate significantly increased incidence of dysmorphogenesis in embryos (11.8%, 35.3%, 47.0% and 88.3%) exposed to increasing doses of VPA (0.35 mM, 0.70 mM, 1.4 mM and 2.8 mM respectively). Van Maele-Fabry’s quantitative differentiation assessment of developing embryos demonstrated a significantly lower score for the circulation system, central nervous system, craniofacial development and limb development in VPA treated embryos (0.35 mM to 2.8 mM) compared to the untreated control group. Glutathione homeostasis was altered as indicated by decreased total glutathione content and increased GSSG/GSH ratio in all VPA treatment groups. In addition, a dose-dependent inhibition of Hoxa2 gene expression was observed in embryos and in the NIH3T3 cell line exposed to VPA. Pre-treatment with ascorbic acid [1000 µg/mL (5 mM)] restored glutathione level and normalized Hoxa2 gene expression in embryos exposed to VPA. DNA methylation status was characterized on the Hoxa2 gene promoter at the three CpG islands; CpG island 1 (-277 to -620 bp), CpG island 2 (-919 to -1133 bp), and CpG island 3 (-1176 to -1301 bp) in the two cells lines (NIH3T3 and EG7) and in developing embryos. CpG sites remained unmethylated on the Hoxa2 gene promoter in the NIH3T3 cell line which expresses the Hoxa2 gene, whereas these same CpG sites were methylated in EG7 cells that did not express Hoxa2. CpG island 1 is closest to Hoxa2 transcription start site and its methylation status was most affected. In developing embryos, CpG island 1 was found to be highly methylated at E6.5 when Hoxa2 is not expressed, whereas the methylation status of CpG sites on the CpG island 1 declined between E8.5 and E10.5 when Hoxa2 expression is present. VPA induced methylation of several CpG sites on CpG island 1 in NIH3T3 cell line and in E10.5 embryos when Hoxa2 expression was down regulated following VPA exposure. In addition, embryos and the NIH3T3 cell line treated with VPA impacted the “bivalent domains” resulting in increased H3K27me3 enrichment and decreased H3K4me3 enrichment on Hoxa2 promoter. Pre-treatment with ascorbic acid normalized Hoxa2 expression and histone bivalent domain changes and prevented increased DNA methylation following VPA exposure. Moreover, the telomerase activity and telomere length were both impacted by changes in glutathione redox potential induced by VPA. Oxidative stress following VPA treatment reduced telomerase activity and accelerated telomere shortening. These results are the first to demonstrate: (i) a correlation between VPA dose and total morphologic score in the developing mouse embryos. VPA impacted embryonic tissue differentiation and neural system development in the dose range of 0.35 mM to 2.8 mM; (ii) VPA altered glutathione homeostasis in cultured mouse embryos and inhibited Hoxa2 gene expression; (iii) Histone bivalent domains of H3K27 and H3K4 trimethylation and DNA methylation status at the Hoxa2 gene promoter region were altered following treatment with VPA. This appears to be the epigenetic event in transcriptional silencing of Hoxa2 gene expression after VPA exposure; and (iv) Ascorbic acid normalizes glutathione homeostasis, H3K27 and H3K4 trimethylation and DNA methylation status, restoring Hoxa2 gene expression following VPA exposure. Taken together our results show VPA- induced altered glutathione homeostasis, telomere shortening and telomerase dysfunction, and an inhibition of Hoxa2 gene expression leads to developmental abnormalities. Exposure to ascorbic acid had a protective effect on developing embryos exposed to VPA.
26	Characterization of Valproic Acid-Initiated Homologous Recombination Sha, Kevin 12 August 2009 (has links) Oxidative stress and histone deacetylase (HDAC) inhibition has been implicated as potential mechanisms in valproic acid (VPA) teratogenicity. Reactive oxygen species (ROS) can target DNA to cause oxidative DNA damage and DNA double strand breaks (DSBs) which can be repaired through homologous recombination (HR). HR is not an error free process and can result in detrimental genetic changes. In this present study we evaluated the role of HDAC inhibition in VPA-initiated HR. HDAC inhibition may indirectly alter repair activity as a result of increased expression of genes involved in HR or indirectly by causing DNA damage which initiates repair. The first objective was to investigate the ability of VPA to cause HDAC inhibition in the Chinese hamster ovary (CHO) 33 cell line. Using immunblotting, an increase in acetylated histone H3 and H4 protein levels was observed throughout 24 hr exposure to 5 mM VPA. Secondly, to investigate whether VPA affects the activity of DNA DSB repair, CHO 33 cells were transfected with either the endonuclease I-SceI plasmid to induce a site specific DSB or the empty plasmid, pGem. However, no increase in the difference in HR between VPA and media exposed I-Sce1 transfected cells compared to cells transfected with pGem was observed, which suggests that VPA does not affect DNA repair activity. Thirdly, to determine if VPA-induced HDAC inhibition increases susceptibility to DNA damage, immunocytochemistry revealed an increase in the number of γ-H2AX foci throughout 24 hr exposure to 5 mM VPA. To determine if oxidative stress may play a role in mediating VPA-induced DNA DSBs, another recombination study was carried out in which cells were pretreated with 400 U/ml of PEG-catalase prior to VPA treatment. The observed protective effect of PEG-catalase against VPA-induced HR and the generation of intracellular ROS by VPA suggest ROS may also play a role in VPA-initiated HR. However, in our DNA oxidation study, no increase in the oxidized nucleosides, 8-hydroxy-2'-deoxyguanosine and 5-hydroxycytosine was observed after VPA treatment. These studies suggest that HDAC inhibition and ROS signalling may play other roles in DNA maintenance and cell cycle arrest in initiating DNA DSBs and HR repair. / Thesis (Master, Pharmacology & Toxicology) -- Queen's University, 2009-08-12 14:27:16.327 Valproic acid homologous recombination DNA damage DNA repair
27	The Role of Oxidative Stress and Epigenetic Modifications in Valproic Acid-Induced Teratogenesis in the Mouse TUNG, Emily Wai-Yu 19 September 2012 (has links) Exposure to the anticonvulsant valproic acid (VPA) is associated with a 7.5% rate of major malformations and a 1-2% incidence of neural tube defects (NTDs). Although the teratogenic outcomes resulting from VPA use during pregnancy were first identified in the 1980s, the mechanisms by which VPA induces birth defects are not fully elucidated. Based on evidence in the literature, the studies in this thesis examined the role of in utero VPA exposure on oxidative stress and epigenetic alterations in the developing embryo to provide further mechanistic insight into VPA’s teratogenic pathway. The first study investigated the role of oxidative stress in VPA-induced teratogenesis. Using CD-1 mice, catalase was shown to protect against VPA-induced effects on developmental and morphological parameters in both whole embryo culture and in vivo models. Studies in whole embryo culture demonstrated that markers of oxidative damage were not altered by VPA; however, VPA increased apoptosis in the neuroepithelium, which was attenuated by the addition of catalase. The second objective addressed epigenetic modifications induced by VPA in an in vivo mouse model. Maternal administration of VPA resulted in increased acetylation of histones H3 and H4, increased methylation of histone H3K4, and decreased methylation of histone H3K9. Furthermore, these changes were localized to VPA target tissues including the neuroepithelium, heart, and somites. Global DNA methylation in the embryo was not altered by VPA. The final objective was to determine VPA’s effect on a marker of DNA damage, markers of cell cycle proteins, and a marker of apotosis in vivo. Maternal administration of VPA resulted in a rapid increase of γH2A.X, a marker of DNA double strand breaks (DSBs). Increased expression of p27KIP1, a cyclin-dependent kinase inhibitor, and activated caspase-3, a marker of apoptosis, were observed and these changes were localized to the neuroepithelium of developing embryos. In conclusion, this thesis supports the hypothesis that VPA-induced increases in ROS production and HDAC inhibition may lead to altered gene expression patterns and consequently teratogenic effects, namely NTDs. / Thesis (Ph.D, Pharmacology & Toxicology) -- Queen's University, 2011-05-24 13:12:33.778 valproic acid epigenetics oxidative stress teratogenesis cell cycle arrest apoptosis
28	Factors involved in DNA demethylation D'Alessio, Ana Catalina. January 1900 (has links) Thesis (Ph.D.). / Written for the Dept. of Pharmacology and Therapeutics. Title from title page of PDF (viewed 2008/05/09). Includes bibliographical references.
29	Roles of cytochromes P450 and microsomal epoxide hydrolase in drug-drug interactions involving valporic acid and its analogues / Hurst, Susan I., January 1999 (has links) Thesis (Ph. D.)--University of Washington, 1999. / Vita. Includes bibliographical references (leaves 230-251).
30	Působení kyseliny valproové a její účinek v kombinaci s cytostatiky na nádorové buňky in- vitro / Effects of valproic acid and its combinations with cytostatic agents on tumor cells in vitro Hinďoš Hřebačková, Jana January 2014 (has links) Cancer is one of the most challenging problems the modern medicine is facing today. An increasing incidence and a great variability of tumor cells are the main reasons those drive the research to develop better diagnostics and therapeutic protocols. Histone deacetylase inhibitors, a group of epigenetic chemotherapeutics, are able to improve the performance of currently used anticancer agents. Vaplroic acid that is commonly used as antiepileptic drug exhibits a remarkable anticancer activity by itself as well as it is capable of therapy potentiation based on other therapeutic agents. Its effect to inhibit growth of tumor cells and induce apoptotic cell death seems to be even greater under hypoxic conditions (<1% O2). This study is focused on effect of valproic acid on neuroblastoma cell lines in vitro under normoxic and hypoxic conditions. We observed significantly greater efficacy of valproic acid in hypoxia compared to normoxia. The mechanism of induction of apoptotic cell death is based on disruption of the balance between pro- and antiapoptoic proteins. Intrinsic apoptotic pathway is probably initiated by the action of 19 kDa variant of proapoptotic protein Bax on mitochondrial membrane. Moreover, we examined the efficiency of a combined treatment of neuroblastoma cells with valproic acid and...

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