Inherent Alteration of Histine Acetylation in Cell Culture Models of Cystic Fibrosis

Bartling, Toni Renee

06 October 2008

No description available.

Genetics

cystic fibrosis

acetylation

inflammation

interleukin-8

deacetylase

oxidative stress

Signaling Mechanisms Involved in the Regulation of Histone Deacteylase Activity in Oligodendrocyte Precursor Cells

Prox, Jordan Daniel

16 May 2014

No description available.

Biochemistry

Neurosciences

Multiple Sclerosis

histone deacetylase

glutamate

oligodendrocytes

Characterization of ribosomal S6 protein phosphorylation and possible control of ribosome biogenesis in arabidopsis cell culture

Kim, Sunghan

22 January 2004

No description available.

Biology, Molecular

ribosomal protein

S6K

TOR

Histone deacetylase

Isoform-Selective HDAC Inhibition for the Treatment of Lupus Nephritis

Regna, Nicole Lynn

19 June 2014

Systemic lupus erythematosus (SLE) is a prototypic autoimmune disease requiring a genetic predisposition coupled with an environmental trigger in order for initiation of disease. While the exact pathoaetiology has yet to be determined, both B and T cell dysregulation are thought to contribute to disease. Histone deacetylases (HDACs) are a class of enzymes that hydrolyze the lysine bound acetyl group in both histone and non-histone proteins thereby altering protein structure and function. While the use of pan-HDAC inhibitors has proven to be effective for the treatment of a number of acute diseases, they may not be viable as therapeutics for chronic disease due to cytotoxicity and adverse side effects following long term treatment. We sought to determine whether treatment with a class I and II HDAC inhibitor (HDACi) or a specific HDAC6i would be able to ameliorate disease in lupus-prone NZB/W mice. We found that both the class I and II HDACi (ITF2357) and the HDAC6i (ACY-738) were able to decrease SLE markers of disease including splenomegaly, proteinuria, and anti-dsDNA and IgG production in the sera. Treatment with ITF2357 resulted in an increase in the number of immunosuppressive regulatory T (Treg) cells and a decrease in the pro-inflammatory Th17 phenotype. Furthermore, ITF2357 was found to increase Foxp3 acetylation leading to increased Foxp3 stability allowing for differentiation into the Treg phenotype. ACY-738 treatment was able to correct aberrant bone marrow B cell differentiation while also increasing the number of splenic Treg cells in NZB/W mice. These results suggest that HDAC inhibition is able to ameliorate SLE in NZB/W mice by altering aberrant T and B cell differentiation. Additional studies were performed to further examine the expression and function of different HDAC isoforms in immune cells. Due to the ability of HDAC inhibition to decrease markers of SLE disease as well as alter B and T cell development and differentiation, we sought to determine if specific HDAC isoforms are altered in lupus vs non lupus mice in early and late disease states. We determined the level of class IIb HDAC (HDACs 6, 9, and 10) expression in bone marrow B cells, splenic B and T cells, and glomerular cells from early- and late-disease MRL/lpr lupus-prone mice compared to healthy, age-matched C57BL/6 control mice. Expression of HDAC6 and HDAC9 were significantly increased in all of the tissues tested from MRL/lpr mice. Furthermore, both cytoplasmic and nuclear HDAC activity was increased in diseased MRL/lpr mice, and HDAC activity and expression continued to increase as disease progressed. In vitro treatment with ACY-738, a selective HDAC6i, was able to decrease cytoplasmic HDAC activity and inhibit iNOS production. Furthermore, ACY-738 was able to alter apoptosis through increased Bax expression in B cells. Treatment with ACY-738 was also able to inhibit Hsp90 expression and decrease NF-κB nuclear translocation, which are both upregulated during active SLE. Our studies indicate that HDAC activity contributes to SLE pathogenesis and that the use of isoform-selective HDAC inhibitors may be a viable treatment for SLE. / Ph. D.

Histone deacetylase

T cells

B cells

systemic lupus erythematosus

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

Rai, Myriam

05 January 2010

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

Disciplines biomédicales diverses

Médecine pathologie humaine

Friedreich's ataxia

Histone deacetylase -- Inhibitors

Friedreich, Maladie de

Histone désacétylase -- Inhibiteurs

frataxin

chromatin

biomarker

histone deacetylase inhibitor

Relative efficacy of nicotinamide treatment of a mouse model of infantile Niemann-Pick C1 disease

Marshall, Craig A., Borbon, Ivan A., Erickson, Robert P.

25 October 2016

Nicotinamide delivered in drinking water at about 2 g/kg/day significantly prolonged survival and showed a suggestive improvement on memory in the Npc1 (nih) / Npc1 (nih) mouse model of infantile NPC1 disease. It is likely that this role is due to its function as a histone deacetylase (HDAC) inhibitor although another HDAC inhibitor, valproic acid, was without effect. Nicotinamide could also work by preventing/reversing oxidative stress.

Histone deacetylase

Nicotinamide

Niemann-Pick C1 disease

Oxidative stress

Sirtuin

Valproic acid

Defining Mechanisms of Sensitivity and Resistance to Histone Deacetylase Inhibitors to Develop Effective Thereaputic Strategies for the Treatment of Aggressive Diffuse Large B-Cell Lymphoma

Havas, Aaron Paul, Havas, Aaron Paul

January 2016

Diffuse large B-cell lymphoma (DLBCL) is the most common form of non-Hodgkin lymphoma (NHL). The current standard of care is the combination of rituximab with cyclophosphamide, doxorubicin, vincristine and prednisone (R-CHOP), but this only results in a 60% over-all 5-year survival rate, thus highlighting a need for new therapeutic approaches. Histone deacetylase inhibitors (HDACi) are novel therapeutics that is being clinically evaluated for combination therapy. Rational selection of companion therapeutics for HDACi is difficult due to their poorly understood, cell-type specific mechanisms of action. To understand these mechanisms better, we developed a pre-clinical model system of response to the HDACi belinostat. Using this model system, we identified two major responses. Resistance, consisting of a reversible G1 cell cycle arrest with little induction of apoptosis; or sensitivity, consisting of mitotic arrest and high levels of apoptosis. In this dissertation, we determine that the induction of G1 cell cycle arrest is due to the increased expression of cyclin dependent kinase inhibitors (CDKi) that bind to and inhibit the cyclin E/CDK2 complex thereby blocking the final repressive phosphorylation steps of Rb protein. Repression of transcriptional elongation blocked CDKi upregulation and prevented G1 cell cycle arrest in belinostat-resistant cells. Additionally, we identified that belinostat arrests sensitive cells prior to metaphase and belinostat-resistant cells slow-down in mitosis but complete the process prior to arresting in G1. The combination of belinostat with the microtubule-targeting agent, vincristine resulted in strong synergistic induction of apoptosis by targeting mitotic progression. Furthermore, this combination prevents polyploidy, a key mechanism of resistance to microtubule targeting agents. Finally, we utilized selective class one HDAC inhibitors to identify the individual contributions of HDACs in the eliciting the responses observed with belinostat treatment. HDAC1&2 inhibition recapitulated the belinostat-resistant phenotype of G1 cell cycle arrest with little apoptosis, in both belinostat-resistant and sensitive cell lines. HDAC3 inhibition resulted in the induction of DNA damage, increased S phase and the induction of apoptosis in belinostat-resistant cells. Belinostat-resistant cells did not have observable effects to HDAC3 inhibitor alone but when combined with vincristine had significantly increased G2/M population at early time points. This suggests that HDAC3 maintains roles in DNA replication and also in mitotic progression. HDAC3 inhibition combined with vincristine resulted in a significant increase in polyploidy, suggesting that HDAC3 might not regulate the expression of apoptotic regulating factors as belinostat does.

Diffuse Large B-cell lymphoma

Histone deacetylase inhibitor

microtubule targeting agents

non-Hodgkin lymphoma

cell cycle regulation

Clinical Pharmacology of MS-275, A Histone Deacetylase Inhibitor

Acharya, Milin R.

01 January 2005

The goal of this escalating single-dose phase I research study was to determine the safety, tolerability, pharmacokinetics, pharmacodynamics as well as in vitro metabolism and plasma protein binding of MS-275, a novel histone deacetylase inhibitor, in patients with solid tumors and lymphomas. A validated LC/MS assay was developed to quantitate MS-275 in plasma, human liver microsomes and urine. The pharmacokinetic (PK) evaluation was done using a non-compartmental approach. In-vitro plasma protein binding profile of MS-275 was characterized by a validated micro-equilibrium dialysis method. In vitro phase I and phase II hepatic metabolism of MS-275 were evaluated using human liver microsomes. A correlative covariate analysis was performed in an effort to explain the wide inter-individual variability among patients.Results from the study demonstrate that the validated LC-MS assay is specific, accurate, precise and sensitive. MS-275 demonstrates a substantial inter-individual PK variability in systemic exposure and clearance; exposures increase in near-proportion, while peak concentrations increase more than-proportionally with an increase in dose. Mean apparent oral clearance (CL/F) is independent of dose and exhibits apparent dose-independent PK behavior over the studied dose range. Oral absorption is highly variable. MS-275 has a 50-fold longer half-life in humans compared to pre-clinical species. PK/PD analysis showed significant correlation between occurrence of DLT and higher systemic exposures. Although there was an increase in the acetylation of histone H3 and H4 over time, preliminary analysis showed no significant correlation between PK parameters and change in % histone acetylation after 24 hours. MS-275 is moderately bound to plasma proteins. Hepatic phase I and II metabolic pathways are only minor routes of elimination, and MS-275 is neither a substrate for liver-specific organic anion transporting proteins, OATP1B1 and OATP1B3, nor a substrate for gastrointestinal efflux transporters ABCB1 (P-gp) or ABCG2. No significant correlation was found between CL/F and demographic, body measures and other clinical covariates, and inter-patient variability in CL/F remained similar in magnitude even after correcting dose for body surface area (BSA) or other body measures. BSA is not a significant predictor of MS-275 PK, and flat-fixed dosing can be used in the future.

anti-cancer therapy

histone deacetylase inhibitor

clinical trial

Medicine and Health Sciences

Pharmacy and Pharmaceutical Sciences

Role of HDAC inhibition and environmental condition in altering phases of amphetamine self-administration

Arndt, David L.

January 1900

Doctor of Philosophy / Psychological Sciences / Mary E. Cain / Gene-environment interactions play a significant role in drug abuse and addiction. Epigenetics (the study of how environmental stimuli alter gene expression) has gained attention in recent years as a significant contributor to many behavioral phenotypes of drug addiction. The current study sought to determine if differential rearing conditions can alter a specific epigenetic mechanism, histone deacetylase (HDAC), and how HDAC inhibition can affect drug-taking and drug-seeking behaviors differently among enriched, isolated, or standard-housed rats. Ninety male Sprague-Dawley rats were reared for 30 days in enriched (EC), isolated (IC), or standard (SC) conditions prior to amphetamine (0.03, 0.05, 0.1 mg/kg/infusion, i.v.) self-administration, extinction, or reinstatement sessions. Trichostatin A (TsA; 0.3 mg/kg, i.v.), an HDAC inhibitor, was injected 30 min prior to drug-taking or drug-seeking sessions. Results indicated that EC rats self-administered less amphetamine (0.03 mg/kg/infusion) than IC rats. No significant effects of TsA administration were found on general self-administration for any of the three amphetamine doses. While enrichment facilitated the extinction of active lever pressing, there was also a mild facilitation of extinction in IC-TsA rats compared to IC-vehicle counterparts. Lastly, TsA administration decreased cue-, but not drug-induced reinstatement, with IC-TsA rats exhibiting significantly attenuated cue-induced reinstatement compared to IC-vehicle rats. These findings suggest that differential rearing can alter HDAC mechanisms that can change drug-seeking behaviors, particularly in rats reared in isolated conditions. While TsA-induced HDAC inhibition may be less protective against general amphetamine self-administration, it may decrease drug-seeking tendencies during relapse that are induced by the reintroduction of contextual environmental cues heavily associated with drug reward.

Behavioral epigenetics

Amphetamine

Self-administration

Histone deacetylase inhibition

Classical conditioning

Operant conditioning

Caractérisation des sirtuines de Schistosoma mansoni : cibles thérapeutiques potentielles / Charaterization of Schistosoma mansoni sirtuins : potential therapeutic targets

Lancelot, Julien

13 December 2013

La schistosomiase représente actuellement la seconde endémie parasitaire mondiale après le paludisme. Annuellement, cette pathologie est responsable de 280 000 décès et 700 millions d’individus y sont exposés dans 74 pays à travers le monde. Actuellement, le traitement de la schistosomiase repose sur l’utilisation d’un seul médicament, le Praziquantel®. Ainsi, le développement de nouveaux médicaments est devenu une priorité absolue pour l’OMS. Dans cette étude, notre objectif a été d’identifier de nouvelles cibles thérapeutiques afin de développer de nouveaux précurseurs de médicaments. Au cours de ce projet, nous avons focalisé nos recherches sur les enzymes impliquées dans la modification des histones et plus particulièrement sur les sirtuines, qui sont des lysines désacétylases NAD+ dépendantes.Dans une première partie, nous avons caractérisé 5 orthologues de sirtuines de mammifères chez Schistosoma mansoni (SmSirt1, 2, 5, 6 et 7). De plus, nous avons étudié le potentiel des sirtuines comme cibles thérapeutiques pour le traitement de la schistosomiase en évaluant la toxicité d’inhibiteurs génériques de sirtuines humaines sur des parasites maintenus en culture. Ainsi, nous avons montré que les inhibiteurs de sirtuines humaines affectent in vitro la viabilité des schistosomules ainsi que la stabilité de l’accouplement et la production d’oeufs des vers adultes. De plus, ces inhibiteurs induisent des changements morphologiques de l’appareil génital du ver femelle.Dans une seconde partie, nous avons entrepris d’étudier plus spécifiquement le rôle de SmSirt2 en tant que cible thérapeutique. Ainsi, l’expression de la protéine recombinante en bactérie E. coli (collaboration: C. Romier, IGBMC, Illkirch) ainsi que l’optimisation d’un dosage fluorimétrique nous ont permis de montrer que SmSirt2 présente une activité lysine désacétylase in vitro (collaboration: M. Jung, Université Albert-Ludwigs, Freibourg). De plus, l’utilisation de ce dosage nous a permis de mettre en place le criblage à haut débit d’une chimiothèque de plus de 80 000 composés afin d’identifier de nouvelles molécules inhibitrices de l’enzyme SmSirt2 (collaboration: J. Schultz, Kancera AB, Stockholm). Les composés les plus prometteurs, ont été testés in vitro sur des parasites en culture. Les résultats obtenus démontrent que les inhibiteurs de SmSirt2 affectent également la viabilité des schistosomules ainsi que la stabilité de l’accouplement et la production d’oeufs des vers adultes.Dans une dernière partie, nous avons mis en place un criblage d’une banque d’ADNc de vers adultes par la technique du double hybride en levure dans le but d’identifier les partenaires protéiques de Sirt1 chez S. mansoni. L’analyse partielle des résultats nous a permis de mettre en évidence que SmSirt1 interagit avec plusieurs protéines impliquées dans la régulation des gènes chez le schistosome. Au cours de ce projet, nous avons également développé et optimisé un protocole permettant d’étudier l’activité enzymatique de SmSirt1 par injection d’ARNm dans des ovocytes de Xénope. Ainsi, nous avons pu montrer que le sirtinol et la salermide, deux inhibiteurs de Sirt1 humaine, présentent également une activité inhibitrice sur l’enzyme du parasite (collaboration: K. Cailliau, Université des Sciences et Technologies, Lille).L’ensemble des résultats obtenus au cours de ce projet de thèse suggère que les sirtuines sont des cibles thérapeutiques potentielles dans le traitement de la schistosomiase. Parmi les 5 orthologues identifiés chez S. mansoni, SmSirt2 semble une cible prometteuse. De plus, le criblage à haut débit que nous avons réalisé sur l’enzyme recombinante a permis d’identifier des molécules qui, après bio-optimisation, pourront être des candidats médicaments. Pour finir, ces résultats participent à une meilleure compréhension du rôle biologique des sirtuines chez S. mansoni et plus particulièrement sur leur implication dans la survie et la reproduction du parasite. / Schistosomiasis is the second most important parasitic disease worldwide after malaria. It is responsible for about 280 000 deaths annually and 700 million people in 74 countries are exposed to infection. Treatment of schistosomiasis currently depends on the use of the only available drug, praziquantel, and for this reason the development of new drugs is a strategic priority of the W.H.O. In this study, our objective was to identify novel therapeutic targets in order to develop new lead molecules for drug development. During this project we have focused our research on enzymes involved in histone modification, and more particularly on sirtuines, which are NAD+-dependent lysine deacetylases.In the first part of the project, we have identified 5 homologues of mammalian sirtuins in Schistosoma mansoni (SmSirt1, 2, 5, 6 and 7). Moreover, we studied the potential of sirtuins as therapeutic targets for the treatment of schistosomiasis by evaluating the toxicity for parasites maintained in culture of generic inhibitors of human sirtuins. In this way we showed that these inhibitors affect the viability of schistosomula and the stability of pairing and egg production of adult worms. Moreover, these inhibitors caused major morphological changes, particularly to the female worm genital apparatus.A second part of our work was devoted to the more detailed study of SmSirt2 as a therapeutic target. Immunisation of mice with the recombinant protein allowed us to obtain specific antibodies and to show that SmSirt2 protein is expressed at all parasite developmental stages. Furthermore, the use of the recombinant SmSirt2 expressed in E. coli (collaboration: C. Romier, IGBMC, Illkirch) and the optimization of a fluorimetric assay allowed us to show that SmSirt2 possesses a lysine deacetylase activity (collaboration: M. Jung, University Albert-Ludwigs, Freibourg). Moreover, the use of this assay allowed the setting up of a high-throughput screen (collaboration: J. Schultz, Kancera AB, Stockholm) of more than 80 000 compounds in order to identify novel inhibitors. The most promising candidates were tested on parasites in culture and the results obtained showed that SmSirt2 inhibitors also affect the viability of schistosomula, as well as the stability of pairing and egg production of adult worms.In parallel, we have carried out screening of a yeast two-hybrid cDNA library in order to identify protein partners of Sirt1 in S. mansoni. The partial analysis of the results obtained shows that SmSirt1 interacts with several proteins involved in gene regulation. In the course of this project, using the enzyme expressed in Xenopus oocytes we were able to show that both sirtinol and salermide, inhibitors of human Sirt1, also inhibit the schistosome enzyme (Collaboration: K. Cailliau, University of Sciences and Technologies, Lille).Taken together, the results of this thesis project suggest that sirtuins are potential therapeutic targets for the treatment of schistosomiasis. Of the five orthologues of human sirtuins identified in S. mansoni, SmSirt2 seems to be a promising target. Moreover, high-throughput screening using the recombinant enzyme identified inhibitors that, after bio-guided optimization, could be drug candidates. Finally, these results contribute to a better understanding of the biological role of S. mansoni sirtuins and in particular their importance in parasite survival and reproduction.

Schistosoma mansoni

Sirtuines

Epigénomique

Histone deacetylases

Schistosomiasis

Histone Deacetylase

Mansoni sirtuin