Cryopreservation of hepatocytes from rodents and food-producing animals and their use for in vitro toxicology

Spencer, Julie Andrea

January 2000

No description available.

572

Methoxytrityl protecting groups and the synthesis of '1'5N-labelled nucleosides

Riseborough, Jane

January 1994

No description available.

572.8

A quantitative structure-activity relationship (QSAR) study of the Ames mutagenicity assay

Smith, Mark David

January 1999

In-vitro mutagenicity assays have traditionally been used for first line identification of potential genotoxic hazard, purporting to chemical carcinogenesis and heritable genetic damage. The recent advances m combinatorial chemistry and high throughput screening technologies have led to a massive explosion in numbers of possible therapeutic candidates being produced at the early stages of drug discovery. This rapid increase in the number of chemicals to be classified results in a greater need for to acquire alternative methods for the prediction of toxicity. Quantitative StructureActivity Relationships (QSAR) can till this need for early hazard identifications by elucidating the physicochemical basis of biological activity. The assumption with predictive QSARs for toxicity is that "biological activity may be described as a function of chemical constitution". This thesis focuses on the Ames mutagenicity assay data for two compound sets; one of 90 compounds, with limited structural flexibility, comprising a range of chemical classes (non-congeneric series), the second, a set of 30 flavonoid compounds. Three physicochemical descriptor sets were generated: EV A, a theoretical molecular descriptor based on the normal co-ordinate modes of vibration; WHIM, derived from weighting functions applied to the 3D-structural molecular co-ordinates; and TSAR, a series of hydrophobic, electronic and steric parameters traditionally associated with the production of biological QSARs. Various "unsupervised" data pre-treatment methods were adopted, to reduce the level of degeneracy within the individual descriptor sets, prior to the calculation of stepwise linear discriminant classification functions. Good predictive models for Ames mutagenicity, as determined by leave-one-out (jackknife) cross-validation, were obtained with each of the three physicochemical descriptor sets. An increase in the predictive ability was observed following the combination of variables from the individual descriptor sets, inferring that some unique information associated with mutagenic activity is contained within each descriptor set. The predictive stability of the models produced was assessed via independent compound predictions, with a poor overall success rate determined. This failure in external prediction was investigated and fundamental differences in physicochemical data space occupancy revealed. Conclusions on training set composition and general model applicability are made with consideration to individual model physicochemical data space coverage.

615.9

Genotoxic Effects in Peripheral Blood and Sperm in Humans in Healthy Individuals and Those with Disease States

Anderson, Diana, Baumgartner, Adolf, Najafzadeh, Mojgan

01 May 2018

No / The Comet assay is one of the most versatile tools in toxicology today and can be used to measure responses in both diploid (peripheral blood lymphocytes) and haploid (sperm) primary cells in humans. This chapter will discuss how these cells are employed to determine if they have differential responses to chemical and physical agents in healthy and disease-affected individuals and how such information can be of use to man.

Genotoxic effect

Peripheral blood

Sperm

Human

Identification and characterisation of novel plant specific regulators of cellular responses to double stranded DNA breaks

Moore, Anne Margaret

January 2012

The ability of organisms to sense and respond to challenges to their genome integrity is key to survival. In particular, the ability to detect and respond to double-stranded DNA breaks (DSBs) is of fundamental importance as not only are DSBs potentially lethal as they can trigger apoptosis, but there is also the potential for the loss of genetic information. The response to DSBs is well conserved across Eukaryotes and comprises two stages: detection of the break and subsequent remedial action. The remedial action involves cell cycle arrest, DNA repair, and, if repair cannot be effected, possible apoptosis. Whilst many of the key components, especially in the initial detection of the break, are conserved there are also differences between plants and animals in some of the main components and their roles. In this thesis I have proposed an overall framework for the cellular response to DSBs in plants and have proposed two candidate genes, TCP20 and SOG1, as novel plant specific activators in this response. Their suitability has been addressed by considering their activation and their downstream targets. I have shown that TCP20 is necessary for growth arrest observed in shoot apical meristems after exposure to genotoxic stress. I have also shown that activation of one of the key targets of TCP20, CYCB1;1 requires TCP20 and that a key TCP20 binding motif in the promoter of CYCB1;1 is necessary for the up-regulation of CYCB1;1 in response to genotoxic stress. This motif is over-represented in the promoters of many of the genes involved in DNA damage repair, suggesting that TCP20 plays a role in the co-ordination of the cellular response to DSBs.

572.8

Investigating the Role of Interferon Regulatory Factor 3 in Response to Genotoxic Stress

Davidson, Adam

21 August 2013

Interferon regulatory factor 3 (IRF3) plays an important role in activating the innate immune response in a variety of conditions, including viral infection. As well as regulating the immune response to viruses, IRF3 is involved in regulating cellular functions including apoptosis. Apoptosis and the inflammatory response to viral infection are very different; therefore, it is obvious that IRF3 plays dramatically different roles in the cell depending on the conditions. We previously identified a non-activating phosphorylation of IRF3 in response to adenovirus (Ad) in which Serine-173 is phosphorylated. In addition to Ad infection, IRF3- S173 is phosphorylated in response to genotoxic stresses including ultraviolet (UV) irradiation and etoposide. In this study, I show that this phosphorylation event is involved in a variety of processes including protein stability, cell survival and IRF3 regulation. Thus, phosphorylation of IRF3-S173 is a novel and important event in a complex regulatory pathway of an integral protein.

Interferon

Interferon Regulatory Factor 3

Genotoxic Stress

Adenovirus

DNA Damage

Investigating the Role of Interferon Regulatory Factor 3 in Response to Genotoxic Stress

Davidson, Adam

January 2013

Interferon regulatory factor 3 (IRF3) plays an important role in activating the innate immune response in a variety of conditions, including viral infection. As well as regulating the immune response to viruses, IRF3 is involved in regulating cellular functions including apoptosis. Apoptosis and the inflammatory response to viral infection are very different; therefore, it is obvious that IRF3 plays dramatically different roles in the cell depending on the conditions. We previously identified a non-activating phosphorylation of IRF3 in response to adenovirus (Ad) in which Serine-173 is phosphorylated. In addition to Ad infection, IRF3- S173 is phosphorylated in response to genotoxic stresses including ultraviolet (UV) irradiation and etoposide. In this study, I show that this phosphorylation event is involved in a variety of processes including protein stability, cell survival and IRF3 regulation. Thus, phosphorylation of IRF3-S173 is a novel and important event in a complex regulatory pathway of an integral protein.

Interferon

Interferon Regulatory Factor 3

Genotoxic Stress

Adenovirus

DNA Damage

Identification of Genotoxic Compounds Using Isogenic DNA Repair Deficient DT40 Cell Lines on a Quantitative High Throughput Screening Platform / DNA損傷修復欠損DT40細胞を用いた定量的ハイスループットスクリーニングによる遺伝毒性物質の同定

Nishihara, Kana

23 March 2016

This is a pre-copyedited, author-produced PDF of an article accepted for publication in Mutagenesis following peer review. The definitive publisher-authenticated version is available online at:http://mutage.oxfordjournals.org/content/early/2015/08/03/mutage.gev055.full. / 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第19588号 / 医博第4095号 / 新制||医||1014(附属図書館) / 32624 / 京都大学大学院医学研究科医学専攻 / (主査)教授 小泉 昭夫, 教授 渡邊 直樹, 教授 高田 穣 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

DT40

High Throughput Screening

DNA Repair

Genotoxic

Tox21

490

Effect of Partial Poly (ADP-ribose) Glycohydrolase Gene Deletion on Cellular Responses to Genotoxic Stress

Gao, Hong

January 2006

Polymers of ADP-ribose (PAR) are rapidly synthesized by poly(ADPribose) polymerases (PARPs) and rapidly degraded by poly(ADP-ribose) glycohydrolase (PARG) following genotoxic stress. Since PAR metabolism plays an important role in cell fate determination following genotoxic stress, enzymes involved in PAR metabolism potentially represent promising therapeutic targets for modulating diseases of inappropriate cell proliferation or death. PARP-1 has been well validated and several PARP-1 inhibitors are currently being evaluated in clinical trials for cancer and ischemia treatment. In contrast, the biological function of PARG is still poorly understood. Due to low abundance of protein levels in mammalian cells and its unique substrate, PARG potentially represents another attractive target for pathological conditions mentioned above. PARG-Δ2,3 cells derived from homozygous PARG-Δ2,3 mice with targeted disruption of exons 2 and 3 of the PARG gene are used in this dissertation. The nuclear isoform PARG60 in PARG-Δ2,3 cells lacks the putative regulatory domain A compared to the nuclear isoform PARG110 in wild type cells. We report in this dissertation that PARG-Δ2,3 cells accumulate less PAR in spite of more rapid depletion of NAD following treatment with N-methyl- N’- Nitro-N-Nitrosoguanidine (MNNG). The estimation of PARP and PARG activity in intact cells shows increased activity of both enzymes in PARG-Δ2,3 cells following MNNG treatment, indicating the important role of domain A in the regulation of PARG and PARP activity under these conditions. Following MNNG treatment, PARG-Δ2,3 cells show reduced formation of XRCC1 foci, decreased H2AX phosphorylation, decreased DNA break intermediates during repair, and increased cell death. The altered PAR metabolism and defective cellular responses related to DNA repair in PARG-Δ2,3 cells may contribute to increased sensitivity of these cells to MNNG. Studies presented in this dissertation clearly demonstrate the important role of PARG110 in PAR metabolism and cellular responses to genotoxic stress, and thus provide supportive data for the validation of PARG as a promising potential therapeutic target.

poly(ADP-ribose) glycohydrolase

poly(ADP-ribose)

poly(ADP-ribose) polymerase

MNNG

genotoxic stress

NAD

Posttranslační modifikace adaptorového proteinu DAXX v buněčné odpovědi na genotoxický stres / Posttranslational modification of the adapter protein DAXX in the cellular response to genotoxic stress

Bražina, Jan

January 2016

Maintaining the chromosome continuity and complete genetic information in human cells is crucial for cell survival and the whole organism. It prevents life-threatening pathologies and preserves genetic continuity. However, cellular DNA is exposed to both endogenous and exogenous stress damaging its content and integrity. This stress activates mechanisms involving detection and repair of these damaged sites (DDR). One of the most serious types of DNA damage double-stranded breaks (DSB) occuring when both strands are severed. DSBs trigger wave of PTMs that regulate protein interactions, nuclear localization and catalytic activity of hundreds of proteins. Such modifications include acetylation, methylation, SUMOylation, ubiquitinylation and especially phosphorylation. The most important kinases involved in DDR kinases are ATM, ATR and DNA-PK. These kinases are activated immediately after the detection of the damaged area. DAXX (Death-associated protein 6) is an adapter and predominantly nuclear protein, which is involved in chromatin remodeling, gene expression modulation, antiviral response and depositing histone H3.3 variants into chromatin or telomeres. Daxx is essential for murine embryogenesis, since the homozygous deletion is lethal in E9.5-10. In 2006 a study mapping the substrates of kinases...