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Functional analysis of AtRPD3B, a RPD3-type histone deacetylase, in ArabidopsisZhang, Lin, January 2005 (has links)
Thesis (M.S.)--West Virginia University, 2005. / Title from document title page. Document formatted into pages; contains x, 101 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 81-101).
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Characterization of SIP428: a NAD+-Dependent Deacetylase Enzyme, in Abiotic Stress.Nohoesu, Oviavo Remi, Thakuri, Bal Krishna Chand, Kumar, Dhirendra 18 March 2021 (has links)
SABP2-interacting protein 428(SIP428) is a SIR2-type deacetylase, also called sirtuins. The SIP428 proteins belong to a family of NAD+-dependent deacetylase enzyme that was identified in tobacco. SABP2 is an important methyl esterase enzyme that catalyzes the conversion of methyl salicylic acid (MeSA) into salicylic acid (SA) during the pathogenic challenge. Accumulation of SA induces systemic acquired resistance (SAR), a broad-spectrum defense mechanism in other uninfected distal parts of the plant. Sirtuins play diverse roles in DNA repair, apoptosis, and stress responses. Cellular proteins are known to undergo posttranslational modifications such as methylation, phosphorylation, and ubiquitination. A more recent addition to the list is acetylation. Protein acetylation is a reversible modification that plays role in regulating transcription, activation, and deactivation of certain pathways by transferring acetyl group to lysine residues. This change neutralizes the positive charge of the amino group thereby affecting the biological function of the affected proteins. Preliminary research has shown that SIP428 is a non-histone deacetylase. To understand better about the role of SIP-428 in plant physiology and how it plays a vital role in SABP2 signaling pathway we will be using transgenic tobacco plant in which the expression of SIP 428 has been silenced/knocked down.
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Drug Discovery based on Oxidative Stress and HDAC6 for Treatment of Neurodegenerative Diseases / Arzneimittelforschung basierend auf oxidativem Stress und HDAC6 zur Behandlung neurodegenerativer ErkrankungenHe, Feng January 2024 (has links) (PDF)
Most antioxidants reported so far only achieved limited success in AD clinical trials. Growing evidences suggest that merely targeting oxidative stress will not be sufficient to fight AD. While multi-target directed ligands could synergistically modulate different steps in the neurodegenerative process, offering a promising potential for treatment of this complex disease.
Fifteen target compounds have been designed by merging melatonin and ferulic acid into the cap group of a tertiary amide HDAC6 inhibitor. Compound 10b was screened as the best hybrid molecule exhibit potent HDAC6 inhibition and potent antioxidant capacity. Compound 10b also alleviated LPS-induced microglia inflammation and led to a switch from neurotoxic M1 to the neuroprotective M2 microglial phenotype. Moreover, compound 10b show pronounced attenuation of spatial working memory and long-term memory damage in an in vivo AD mouse model. Compound 10b can be a potentially effective drug candidate for treatment of AD and its druggability worth to be further studied.
We have designed ten novel neuroprotectants by hybridizing with several common antioxidants, including ferulic acid, melatonin, lipoic acid, and trolox. The trolox hybrid compound exhibited the most potent neuroprotective effects in multiple neuroprotection assays. Besides, we identified the synergistic effects between trolox and vitamin K derivative, and our trolox hybrid compound showed comparable neuroprotection with the mixture of trolox and vitamin K derivative.
We have designed and synthesized 24 quinone derivatives based on five kinds of different quinones including ubiquinone, 2,3,5-trimethyl-1,4-benzoquinone, memoquin, thymoquinone, and anthraquinone. Trimethylbenzoquinone and thymoquinone derivatives showed more potent neuroprotection than other quinones in oxytosis assay. Therefore, trimethylbenzoquinone and thymoquinone derivatives can be used as lead compounds for further mechanism study and drug discovery for treatment of neurodegenerative disease.
We designed a series of photoswitchable HDAC inhibitors, which could be effective molecular tools due to the high spatial and temporal resolution. In total 23 target compounds were synthesized and photophysicochemically characterized. Azoquinoline-based compounds possess more thermally stable cis-isomers in buffer solution, which were further tested in enzyme-based HDAC inhibition assay. However, none of those tested compounds show significant differences in activities between trans-isomers and corresponding cis-isomers. / Die meisten bisher berichteten Antioxidantien erzielten in klinischen-Studien zur Alzheimer-Krankheit nur einen begrenzten Erfolg. Es gibt immer mehr Hinweise darauf, dass die bloße Bekämpfung von oxidativem Stress nicht ausreicht, um die Alzheimer-Krankheit zu bekämpfen. Während Multipotente Liganden verschiedene Schritte im neurodegenerativen Prozess synergistisch modulieren könnten und ein vielversprechendes Potenzial für die Behandlung dieser komplexen Krankheit bieten.
Im ersten Projekt dieser Dissertation wurden 15 Zielverbindungen entworfen, indem Melatonin und Ferulasäure in die Deckel-Gruppe eines tertiären Amid-HDAC6-Inhibitors fusioniert wurden. Verbindung 10b wurde als bestes Hybridmolekül gescreent, das eine potente HDAC6-Hemmung und eine starke antioxidative Kapazität aufweist. Hierbei linderte Verbindung 10b die LPS-induzierte Mikroglia-Entzündung und führte zu einem Wechsel vom neurotoxischen M1- zum neuroprotektiven M2-Mikroglia-Phänotyp. Darüber hinaus zeigt Verbindung 10b eine ausgeprägte Abschwächung des räumlichen Arbeitsgedächtnisses und eine Schädigung des Langzeitgedächtnisses in einem in vivo Alzheimer-Krankheit-Mausmodell. Verbindung 10b kann ein potenzieller Wirkstoffkandidat zur Behandlung der Alzheimer-Krankheit sein, und eignet sich für weiterführende Studien.
Basierend auf den starken neuroprotektiven Wirkungen von Vitamin-K-Derivaten gegen den Oxytoseweg, haben wir zehn neue Verbindungen entwickelt, indem wir Vitamin K mit mehreren Antioxidantien, darunter Ferulasäure, Melatonin, Liponsäure und Trolox, hybridisieten. Die Trolox-Hybridverbindung zeigte die stärksten neuroprotektiven Wirkungen in mehreren Neuroprotektionsassays. Außerdem haben wir die synergistischen Effekte zwischen Trolox und dem Vitamin-K-Derivat identifiziert, und unsere Trolox-Hybridverbindung zeigte eine vergleichbare Neuroprotektion mit der Mischung aus Trolox und Vitamin-K-Derivat.
Ermutigt durch die starke antioxidative Kapazität und der neuroprotektiven Wirkung von Vitamin-K-Hybriden, haben wir die Struktur-Aktivitäts-Beziehung von Chinon-Derivaten mit der antioxidativen Kapazität und der neuroprotektiven Wirkungen untersucht, um Leitlinien für das weitere Design neuer neuroprotektive Verbindungen bereitzustellen. Wir haben 24 Chinon-Derivate entwickelt und synthetisiert, die auf fünf verschiedenen Chinonen basieren, darunter Ubichinon, 2,3,5-Trimethyl-1,4-Benzochinon, Memoquin, Thymochinon und Anthrachinon. Darüber hinaus zeigten Trimethylbenzochinon- und Thymochinon-Derivate im Oxytose-Assay eine stärkere Neuroprotektion als andere Chinone. Daher können Trimethylbenzochinon- und Thymochinon-Derivate als Leitverbindungen für die weitere Untersuchung des Mechanismus und die Wirkstoffforschung zur Behandlung neurodegenerativer Erkrankungen verwendet werden.
Wir haben hier eine Reihe von photoschaltbaren HDAC-Inhibitoren entwickelt, die aufgrund der hohen räumlichen und zeitlichen Auflösung effektive molekulare Werkzeuge sein könnten. Insgesamt wurden 23 Zielverbindungen synthetisiert und photophysikochemisch charakterisiert. Die Verbindungen auf Azochinolinbasis besitzen thermisch stabilere cis-Isomere in Pufferlösung, die in einem enzymbasierten HDAC-Inhibitionsassay weiter getestet wurden. Keine dieser getesteten Verbindungen zeigt jedoch signifikante Unterschiede in der Aktivität zwischen trans-Isomeren und den entsprechenden cis-Isomeren.
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Applications of Chemical Biology in Drug Discovery and Systems Biology: Fragment-based Design of Histone Deacetylase Inhibitors & A Chemical Approach to Understanding Polysaccharide Biosynthesis and Protein GlycosylationWoodward, Robert L., Jr. 02 September 2010 (has links)
No description available.
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The Role of Class I Histone Deacetylase HDA-1 in vulval morphogenesis in NematodesJoshi, Katyayani 09 1900 (has links)
Histone deacetylases (HDACs) are an ancient class of enzymes that have
been conserved throughout evolution and are found in diverse organisms such as
animals, plants, fungi, eubacteria and archaebacteria. In C. elegans, twelve
HDACs have been identified so far. These HDACs have been grouped into four
different classes (Class I, II, III and IV) based on their cofactor requirements and
sequence homologies. hda-1 is one of the three Class I HDACs in C. elegans and
plays a role in the morphogenesis of several organs including the vulva. This thesis focuses on the role of hda-1 in vulval morphogenesis. The hermaphrodite vulva has twenty-two cells which can be further divided into seven different cell types: VulAs, VulBls, VulB2s, VulCs and VulDs (secondary great granddaughters), YulEs and VulFs (primary great granddaughters). The analysis of expression pattern of hda-1 revealed that hda-1 is expressed in the progeny of
both the primary and secondary vulval precursor cells (VPCs). To examine hda-1 mutant phenotype in detail, I examined the expression pattern of five different vulval cell-type specific markers (cdh-3, zmp-1, ceh-2, egl-17 and daf-6) in hda-1 animals. The results revealed that hda-1 is necessary for proper differentiation of multiple vulval cell types. To study the evolutionary conservation of hda-1 function, I examined the role of hda-1 ortholog in C. briggsae. C. briggsae is a close relative of C. elegans and has almost identical vulval morphology. Knocking down Cbr-hda-1 in C. briggsae animals resulted in defective vulval phenotype. Consistent with this
result, the expression of two cell- fate specific markers (C. briggsae orthologs of zmp-1 and egl-17) was found to be altered in Cbr-hda-1 RNAi treated animals. Thus, hda-1 function in the vulva appears to be conserved in these two species. To identify the hda-1 targets in vulval morphogenesis in C. elegans, microarray approach was taken. Two genes fos-1 and lin-29 were identified as putative targets and were examined in some detail. Among the targets identified
(these still need to be validated), I focused on fos-1 and lin-29 for detailed
investigation. The RNAi-mediated knockdown of hda-1 caused alterations in the
expression pattern ofthefos-1 transcript,fos-1b. To examine interaction between
fos-1 and lin-29, I used double RNAi approach and examinedfos-1 (RNAi), lin-
29 (RNAi), hda-1 (cw2) animals. It was found that fewer animals exhibit defects
in vulval morphology in these animals as compared to fos-1 (RNAi), hda-1 (cw2)
animals. While this suggests a possible interaction between lin-29 and hda-1 in
the vulva, these results need to be validated by doing additional experiments. In summary, the work described in this thesis demonstrates that hda-1 plays an important role in vulval morphogenesis and regulates the expression of several important genes. Also, the function of hda-1 in C. elegans and C. briggsae
is evolutionarily conserved. / Thesis / Master of Science (MSc)
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Part 1 Synthesis of a potent histone deacetylase inhibitor; Part 2 Studies towards a stabilized helix-turn-helix peptideLiu, Tao 24 February 2007 (has links)
The first part of this work describes the synthesis of a new histone deacetylase (HDAC) inhibitor (HDI). HDAC enzymes modify core histones, influence nucleosome structure and change gene transcription by removing the acetyl groups from lysine residues on proteins. HDIs are showing exciting potential as a new class of drugs for cancer and a variety of other diseases. A new HDAC inhibitor based on the hydroxamic acid motif has been synthesized. Two characteristic structural features were incorporated into the design of the novel inhibitor. A cyclic peptide mimetic of known structure was fused to a hydroxamic acid moiety through an aliphatic chain. The HDAC inhibitor provided significant inhibitory activity against HDACs with an IC50 value of 46 ± 15 nM, and against HDAC8 with an IC50 value of 208 ± 20 nM. The potent HDAC inhibitory activity of the HDAC inhibitor demonstrates the importance of the rim recognition region in the design of HDIs. The hydrophobic cyclic turn mimic allows the formation of a tight complex between HDI and HDAC enzymes.
The second part of this work is to synthesize secondary structure mimics and incorporate them into the helix-turn-helix (HTH) motif. One of the important methods to study the conformation of the biologically active peptides is to incorporate the rigid peptidomimetics into the relevant peptides. Important information can be obtained from the study of conformationally constrained peptides. HTH proteins are well characterized and found in many organisms from prokaryotes to eukaryotes. The relatively small size, simple structure, and significance in stabilizing tertiary structures make the HTH peptide an attractive target to mimic. Both a Gly HTH turn mimic and a Ser HTH turn mimic were synthesized using stereoselective hydrogenation and macrocyclization starting from unnatural amino acids in a yield of 33% and 14%, respectively. The synthesis of Fmoc protected HTH turn mimics allowed incorporation into HTH peptides using Fmoc chemistry on solid phase. The incorporation of the HTH turn mimics into the peptides proved to be challenging, either by sequential elongation or by segment condensation. Alternative peptide synthesis strategies were employed in attempts to solve the problems. / Ph. D.
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Anticancer Therapy with HDAC Inhibitors: Mechanism-Based Combination Strategies and Future PerspectivesJenke, Robert, Reßing, Nina, Hansen, Finn K., Aigner, Achim, Büch, Thomas 26 April 2023 (has links)
The increasing knowledge of molecular drivers of tumorigenesis has fueled targeted cancer therapies based on specific inhibitors. Beyond “classic” oncogene inhibitors, epigenetic therapy is an emerging field. Epigenetic alterations can occur at any time during cancer progression, altering the structure of the chromatin, the accessibility for transcription factors and thus the transcription of genes. They rely on post-translational histone modifications, particularly the acetylation of histone lysine residues, and are determined by the inverse action of histone acetyltransferases (HATs) and histone deacetylases (HDACs). Importantly, HDACs are often aberrantly overexpressed, predominantly leading to the transcriptional repression of tumor suppressor genes. Thus, histone deacetylase inhibitors (HDACis) are powerful drugs, with some already approved for certain hematological cancers. Albeit HDACis show activity in solid tumors as well, further refinement and the development of novel drugs are needed. This review describes the capability of HDACis to influence various pathways and, based on this knowledge, gives a comprehensive overview of various preclinical and clinical studies on solid tumors. A particular focus is placed on strategies for achieving higher efficacy by combination therapies, including phosphoinositide 3-kinase (PI3K)-EGFR inhibitors and hormone- or immunotherapy. This also includes new bifunctional inhibitors as well as novel approaches for HDAC degradation via PROteolysis-TArgeting Chimeras (PROTACs).
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Cellular prostatic acid phosphatase (cPAcP) serves as a useful biomarker of histone deacetylase (HDAC) inhibitors in prostate cancer cell growth suppressionChou, 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.
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Activation of lytic cycle of Epstein-barr virus of histone deacetylaseinhibitorsHui, Kwai-fung., 許貴鋒. January 2008 (has links)
published_or_final_version / Paediatrics and Adolescent Medicine / Master / Master of Philosophy
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Effects of Histone Deacetylase Inhibitors on the Maintenance of Midbrain Neurons and GliaForgione, 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.
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