Response of Human Hematopoietic Cells to DNA Double-strand Breaks

Trottier, Magan

16 February 2010

Maintenance of hematopoiesis depends upon rare hematopoietic stem cells (HSCs), which can persist over an organism’s lifetime. It is conceivable that they must maintain a high degree of genetic stability; otherwise recurring exposure to genotoxins and accumulation of genetic changes could result in genomic instability and malignancy or cell death. We have focused on the response of HSCs and primitive hematopoietic cells to highly toxic DNA double-strand breaks (DSBs). Using assays to detect break rejoining and kinetics of early DSB response foci, we determined that non-cycling human HSC-containing cells display delayed break rejoining kinetics and persistent γH2AX and 53BP1 foci compared to cycling counterparts, more differentiated hematopoietic cells and human primary fibroblasts. In contrast, when stimulated to cycle, these HSC-containing cells are quite efficient at repairing breaks and resolving foci. These data suggest that the DNA damage response may be unusually prolonged in non-cycling primitive hematopoietic cells.

primitive hematopoietic cell

DNA double-strand break

cell cycle

neutral comet assay

53BP1 foci

H2AX foci

Response of Human Hematopoietic Cells to DNA Double-strand Breaks

Trottier, Magan

16 February 2010

Maintenance of hematopoiesis depends upon rare hematopoietic stem cells (HSCs), which can persist over an organism’s lifetime. It is conceivable that they must maintain a high degree of genetic stability; otherwise recurring exposure to genotoxins and accumulation of genetic changes could result in genomic instability and malignancy or cell death. We have focused on the response of HSCs and primitive hematopoietic cells to highly toxic DNA double-strand breaks (DSBs). Using assays to detect break rejoining and kinetics of early DSB response foci, we determined that non-cycling human HSC-containing cells display delayed break rejoining kinetics and persistent γH2AX and 53BP1 foci compared to cycling counterparts, more differentiated hematopoietic cells and human primary fibroblasts. In contrast, when stimulated to cycle, these HSC-containing cells are quite efficient at repairing breaks and resolving foci. These data suggest that the DNA damage response may be unusually prolonged in non-cycling primitive hematopoietic cells.

primitive hematopoietic cell

DNA double-strand break

cell cycle

neutral comet assay

53BP1 foci

H2AX foci

Effects of <i>in ovo</i> herbicide exposure in newly hatched domestic chickens (<i>Gallus gallus</i>) and ducks (<i>Anas platyrhynchos</i>)

Stoddart, Reagen A

04 January 2007

Agriculture is a valuable economic resource in western Canada, but for decades farmers have focused on intensive production practices while ignoring the long-term health and maintenance of the land. In recent years, the use of conservation agricultural techniques has been encouraged in an effort to conserve prairie landscape while sustaining cropland productivity. Sustainable agricultural practices that promote soil and water conservation and benefit wildlife and prairie biodiversity include conservation tillage and planting of winter cereal crops. Many species of wild birds nest in the ground cover provided by minimum tillage and fall seeded cropland in the spring. Although habitat quality in conservation areas is superior for birds, there is potential for eggs of ground nesting birds to be exposed to herbicides during spring weed control operations. Herbicides commonly used on the prairies to control weed growth in conservational systems include 2,4-D and Buctril-M®. Since the subtlethal effects of exposure to these herbicides may include DNA damage and immunomodulation, the overall goal of this study was to assess whether <i>in ovo</i> exposure to the herbicides 2,4-D and Buctril-M® adversely affects genetic material and/or immune system function in newly hatched domestic chickens (<i>Gallus gallus</i>) and ducks (<i>Anas platyrhynchos</i>), as surrogates for wild bird species.<p>Study design attempted to reproduce actual field exposures by use of an agricultural field spray simulator to apply formulated herbicides (as opposed to pure active ingredients) at recommended crop application rates. In three separate experiments, fertile chicken eggs were sprayed with 2,4-D ester formulation or with Buctril-M® formulation, and fertile duck eggs were sprayed with 2,4-D ester formulation, during either an early (embryonic day 6) or late (embryonic day 15 for chickens or embryonic day 21 for ducks) stage of incubation. Genotoxicity and immune system function were evaluated in the hatchlings as the main toxicological endpoints to assess potential subtle effects from herbicide exposure, but additional measures of general health and development were also evaluated. Two endpoints were used to assess subtle changes to genetic integrity. The comet assay was used to detect structural damage (strand breaks) in avian lymphocyte DNA, as an index of acute genotoxic effects. Flow cytometry was used to examine potential clastogenic effects of the herbicides, by determining if chromosomal changes resulted in variability in the DNA content of avian erythrocytes. Several endpoints were examined to evaluate potential exposure-induced effects on the immune system. Immunopathological assessment of chicks and ducklings included differential lymphocyte counts, as well as immune organ weights and histopathology. The cell-mediated and humoral immune responses in hatchlings were assessed using the delayed-type hypersensitivity test and measurement of systemic antibody production in response to immunization, respectively. Exposure of fertile chicken and duck eggs to Buctril-M® or 2,4-D had no effects on the biomarkers of genetic integrity in this study. Differences in herbicide treatment (high and low concentrations) and times of exposure (early and late incubation stages) did not translate into noticeable factor effects in final model analyses for any of the genotoxicity assay variables evaluated in newly hatched chickens exposed in ovo to 2,4-D. Similarly, comet assay outcomes in chicks exposed to Buctril-M® were not significantly associated with either herbicide treatment or time of exposure as fixed effect factors. Results of the comet assay using peripheral lymphocytes from ducklings provided evidence of potential primary genetic damage associated with the time of spray exposure in ovo. Comet tail DNA content was significantly associated (P = 0.0269) with exposure times, suggesting that ducks may be increasingly sensitive to spray exposure conditions at an early stage of embryological development. Effects of exposure timing were not attributable to herbicide treatment. Although 2,4-D exposure time was associated with DNA strand breakage in ducklings, there was no evidence of chromosomal damage. However, an association between the HPCV values (a measure of DNA content variability) and time of spray exposure was observed in the experiment where 21-day-old chickens were treated in ovo with Buctril-M®. The mean HPCV value for the early exposure group (E6) was significantly greater (P = 0.0210) than that of the group treated later in incubation (E15). However, Buctril-M® the concentration of herbicide did not have any influence on this outcome, and the reason for the difference between exposure times is uncertain, but may be attributed to stress associated with manipulations during spraying. An increase in HPCV, reflecting greater intercellular DNA variability, is indicative of increased incidence of chromosomal damage, which may be an effect of disturbance during early periods of incubation as a result of exposure conditions.<p>Among the panel of immunotoxicity tests conducted to evaluate the effects of <i>in ovo</i> exposure to 2,4-D and Buctril-M® on the developing avian immune system, only heterophil/ lymphocyte (H/L) ratios and relative immune organ weights were significantly associated with either herbicide treatment or time of spray exposure in all three experiments. In 21-day-old chicks exposed in ovo to 2,4-D, relative bursa weight was associated with the different herbicide treatments (P = 0.0006). Relative bursa weights were significantly lower in chicks in the low dose group, while the opposite effect was observed in the high dose chicks, compared with the controls. It is unlikely that the observed decrease in bursa weight in the low dose group is causally related to herbicide exposure because a consistent dose-response effect was not observed, but this outcome may be explained by a compensatory immune response. The relative spleen weights of newly hatched chickens exposed in ovo to Buctril-M® exhibited a significant association with herbicide treatment (P = 0.0137). Relative spleen weights for birds in the low dose treatment groups were significantly different than both the control (P = 0.0179) and high dose groups (P = 0.0125). However, there was no significant difference between high dose and control groups, and this outcome reduces the likelihood of a causal relationship between spleen weight and herbicide exposure. In the parallel experiment involving in ovo exposure to 2,4-D to ducklings, relative bursa weight was associated with time of spray exposure (P = 0.0434). Ducklings that hatched from eggs exposed to spray on day 6 of incubation exhibited greater mean relative bursa weights than the birds exposed to spray at a later incubation stage (E21). This result implies that spray exposure during earlier stages of development may result in conditions which affect the humoral immune response, if increased bursal weight is associated with increased B lymphocyte and antibody production. In the same experiment, mean H/L ratios in peripheral blood samples from 21-day-old ducklings were significantly different between the groups treated with the high concentration of 2,4-D and water (control) (P = 0.0395). Although ratios from the birds in the low dose groups were not significantly different from the control groups, changes in H/L ratio values demonstrate a dose dependent relationship with increasing herbicide exposure.<p>Residue analysis of chicken and duck eggs in this study measured transfer of herbicide through the shell and into the embryo 24 hours and up to 5 days (chickens only) after spraying. Mean 2,4-D residue concentrations were higher in both chicken and duck eggs from the high dose (10X) groups than in eggs exposed to the recommended field rate of herbicide application (1X). Embryo residue concentrations in the chicken eggs increased from the day following exposure to 5 days after spraying, in both low and high dose groups. This observation indicates that the risk of contaminant-induced adverse effects may continue to increase for at least several days after exposure, thereby influencing the concentration of herbicide to which the developing embryo is exposed.<p>On the Canadian prairies, wild bird eggs are potentially to be exposed to 2,4-D and Buctril-M® during various stages of embryonic development. The present study examined effects of herbicide exposure at two distinct times during incubation, and demonstrated the potential for subtle impacts on genetic integrity and the immune system. Results indicate that spray exposure during earlier stages of organogenesis may cause more significant adverse effects. Given the possible harmful consequences of the observed changes on the long-term health of wild birds, further research is needed in order to better characterize the risks of in ovo agrochemical exposure in prairie ecosystems.

DTH

ELISA

flow cytometry

comet assay

herbicide exposure in birds

2 4-D

Buctril-M

genotoxic

immunotoxic

Structure Property Relationships for Dirhodium Antitumor Active Compounds: Reactions with Biomolecules and In Cellulo Studies

Aguirre-Flores, Jessica Dafhne

2009 December 1900

The molecular characteristics that affect the activity of various dirhodium complexes are reported. The importance of the axial position in the action of dirhodium compounds was studied. Three dirhodium complexes with increasing number of accessible axial coordination sites were synthesized and characterized. In cis-[Rh2(u-OAc)2(np)2]2+ (np = 1,8- naphthyridine) both axial sites are available for coordination, whereas for cis-[Rh2(u-OAc)2(np)(pynp)]+2 (pynp = 2-(2-pyridyl)1,8-naphthyridine) and cis-[Rh2(u-OAc)2(pynp)2]+2 the pyridyl arm on the ligand pynp blocks one and two axial sites, respectively. The availability of the axial positions affects the in vitro and in cellulo activity of these complexes demonstrating that open axial coordination sites are necessary for biological activity. The inhibitory activity of derivatives of dirhodium-dppz complexes (dppz = dipyrido[3,2-a:2',3'-c]phenazine) has also been investigated. The dppz derivatives included compounds with electron-withdrawing (Cl, CN, and NO2) as well as electro-donating (MeO and Me) substituents. These compounds inhibit transcription of T7-RNA polymerase by reducing accessible cysteine residues. The activity correlates with the electron withdrawing character of the substituent on the dppz ligand. Density functional theory (DFT) calculations reveal that the lowest unoccupied molecular orbitals (LUMOs) in the series are ligand-based pi* orbitals localized on the phenazine ring. These complexes represent the first family of dirhodium complexes whose inhibitory ability can be tuned by controlling their redox properties. The effect of the presence of diimine ligands in the dirhodium core in both in vitro and in cellulo activity is discussed. The presence of one diimine ligand allows for dual binding, intercalation and covalent, as observed by melting temperature and relative viscosity measurements, as well as electrophoretic mobility shift assay (EMSA). The mono-substituted dirhodium complexes are effective against HeLa and COLO-316 cell lines, with [Rh2(u-O2CCH3)2(n1-O2CCH3)(dppz)]+ being the most effective compound of the series. Results of the comet assay indicate that all of the monosubstituted complexes studied damage nuclear DNA, although in different degrees. The cytotoxic effect of these complexes is not affected by the presence of glutathione. The addition of the second diimine ligand hinders the ability of the complexes to damage DNA. The bis-substituted complexes are also slightly less cytotoxic than their mono-substituted congeners. Thus, the number of equatorial positions occupied by diimine ligands play a critical role in the mechanism of cytotoxicity of dirhodium(II,II) complexes. Finally, the results also demonstrate that improving the internalization of the dirhodium complexes can be achieved by co-incubation with cell penetrating peptides. This work provides a foundation for the preparation of new and more effective dirhodium complexes.

Dirhodium complexes

anticancer compounds

metal-metal bonded complexes

HeLa cells

COLO-316 cells

comet assay

Summarizing FLARE assay images in colon carcinogenesis

Leyk Williams, Malgorzata

12 April 2006

Intestinal tract cancer is one of the more common cancers in the United States. While in some individuals a genetic component causes the cancer, the rate of cancer in the remainder of the population is believed to be affected by diet. Since cancer usually develops slowly, the amount of oxidative damage to DNA can be used as a cancer biomarker. This dissertation examines effective ways of analyzing FLARE assay data, which quanti&#64257;es oxidative damage. The statistical methods will be implemented on data from a FLARE assay experiment, which examines cells from the duodenum and the colon to see if there is a difference in the risk of cancer due to corn or &#64257;sh oil diets. Treatments of the oxidizing agent dextran sodium sulfate (DSS), DSS with a recovery period, as well as a control will also be used. Previous methods presented in the literature examined the FLARE data by summarizing the DNA damage of each cell with a single number, such as the relative tail moment (RTM). Variable skewness is proposed as an alternative measure, and shown to be as effective as the RTM in detecting diet and treatment differences in the standard analysis. The RTM and skewness data is then analyzed using a hierarchical model, with both the skewness and RTM showing diet/treatment differences. Simulated data for this model is also considered, and shows that a Bayes Factor (BF) for higher dimensional models does not follow guidelines presented by Kass and Raftery (1995). It is hypothesized that more information is obtained by describing the DNA damage functions, instead of summarizing them with a single number. From each function, seven points are picked. First, they are modeled independently, and only diet effects are found. However, when the correlation between points at the cell and rat level is modeled, much stronger diet and treatment differences are shown both in the colon and the duodenum than for any of the previous methods. These results are also easier to interpret and represent graphically, showing that the latter is an effective method of analyzing the FLARE data.

FLARE assay

hierarchical models

Bayes Factor

comet assay

corn oil

fish oil

On the implementations of experimental methods using fluorescence microscopy in modern radiobiology

Renegar, Jackson Reid

18 November 2010

This thesis is intended as an introductory lab manual on the experimental methods using fluorescence microscopy in modern radiobiology research. It is written for those who are unfamiliar with biology research. It first covers the proper use of laboratory equipment and growth of cell cultures in the lab. Subsequent chapters provide overviews of relevant modern experimental techniques for the quantification of radiation induced DNA damage in cells, and detailed protocols for performing these procedures. Techniques covered include immunostaining with fluorescent antibodies, the comet assay, and plasmid DNA transfections. Results of some straightforward experiments using these techniques are presented.

Fluorescence microscopy

DNA damage

Radiobiology

Comet assay

Immunostaining

Fluorescence microscopy

Radiobiology

Fluid-structure interactions in microstructures

Das, Shankhadeep

17 October 2013

Radio-frequency microelectromechanical systems (RF MEMS) are widely used for contact actuators and capacitive switches. These devices typically consist of a metallic membrane which is activated by a time-periodic electrostatic force and makes periodic contact with a contact pad. The increase in switch capacitance at contact causes the RF signal to be deflected and the switch thus closes. Membrane motion is damped by the surrounding gas, typically air or nitrogen. As the switch opens and closes, the flow transitions between the continuum and rarefied regimes. Furthermore, creep is a critical physical mechanism responsible for the failure in these devices, especially those operating at high RF power. Simultaneous and accurate modeling of all these different physics is required to understand the dynamical membrane response in these devices and to estimate device lifetime and to improve MEMS reliability. It is advantageous to model fluid and structural mechanics and electrostatics within a single comprehensive numerical framework to facilitate coupling between them. In this work, we develop a single unified finite volume method based numerical framework to study this multi-physics problem in RF MEMS. Our objective required us to develop structural solvers, fluid flow solvers, and electrostatic solvers using the finite volume method, and efficient mechanisms to couple these different solvers. A particular focus is the development of flow solvers which work efficiently across continuum and rarefied regimes. A number of novel contributions have been made in this process. Structural solvers based on a fully implicit finite volume method have been developed for the first time. Furthermore, strongly implicit fluid flow solvers have also been developed that are valid for both continuum and rarefied flow regimes and which show an order of magnitude speed-up over conventional algorithms on serial platforms. On parallel platforms, the solution techniques developed in this thesis are shown to be significantly more scalable than existing algorithms. The numerical methods developed are used to compute the static and dynamic response of MEMS. Our results indicate that our numerical framework can become a computationally efficient tool to model the dynamics of RF MEMS switches under electrostatic actuation and gas damping. / text

Fluid-structure interactions

Finite volume method

Structural solver

Rarefied gas dynamics

Comet

Immersed boundary method

Mems

Biomarqueurs de génotoxicité chez Dreissena polymorpha : indicateurs de la pression chimique urbaine et variabilité naturelle des lésions de l'ADN

Michel, Cécile

19 December 2011

Les activités anthropiques sont responsables de l'introduction d'un grand nombre de substances chimiques dans l'environnement. Dans le cadre de la Directive Cadre Européenne sur l'eau, il est nécessaire d'évaluer l'impact de la contamination chimique sur les milieux aquatiques afin d'établir un diagnostic de l'état écologique des masses d'eau. Les biomarqueurs de génotoxicité permettent l'évaluation de l'impact des contaminants chimiques sur l'intégrité structurelle de l'ADN et comme indicateurs prédictifs d'effets au niveau populationnel. L'objectif général de cette thèse est de développer un biomarqueur de génotoxicité sensible et précoce des effets de la contamination chimique urbaine sur Dreissena polymorpha. Dans ces travaux, nous avons utilisé le test comète, permettant de mesurer les cassures de brins d'ADN et les sites alcali-labiles. Nous avons couplé ce test à une endonucléase spécifique de la détection des lésions oxydatives (hOGG1) afin d'améliorer sa significativité, par la recherche de lésions oxydatives, telle que la 8-oxodG, impliquée dans le vieillissement cellulaire et la cancérogénèse. La formation d'oxydation de l'ADN a été mise en évidence par le test comet-hOGG1 appliqué à des cellules de branchies de moules exposées au BaP et au Cd. La réparation des lésions oxydatives induites par le BaP s'est avérée plus rapide que celles induites par le Cd. D'autre part, la variabilité naturelle de certains biomarqueurs de génotoxicité tels que le taux de cassures à l'ADN, la fréquence des micronoyaux et le nombre d'adduits à l'ADN, a été étudiée dans le but d'éliminer ce biais dans de futures études de biomonitoring. Les résultats des études in situ ont permis de mettre en évidence une induction de lésions oxydatives sur les moules transplantées sur les sites urbains du bassin de la Seine. De plus, ces travaux montrent que la technique de transplantation des moules n'induit pas de modification du statut biologique des organismes, ni de variation de l'expression du taux de cassures à l'ADN et de la fréquence de micronoyaux. Enfin, la comparaison de l'expression des biomarqueurs de génotoxicité entre le printemps et l'automne montre que ces deux saisons sont favorables aux études de biomonitoring par la transplantation de dreissènes.

[SDE] Environmental Sciences

[SDE] Sciences de l'environnement

Biomarqueurs de génotoxicité

Oxydation de l'ADN

Comet-hOGG1

Transplantation

Variabilité naturelle

DNA damage and repair detected by the comet assay in lymphocytes of African petrol attendants : a pilot study / G.S. Keretetse

Keretetse, Goitsemang Salvation

January 2007

Petrol attendants are exposed to petrol volatile organic compounds (VOCs) which may have genotoxic and carcinogenic effects. The single cell gel electrophoresis assay (comet assay) is a method highly sensitive to DNA damage induced by environmental and occupational exposure to carcinogenic and mutagenic agents. The aim of this study was to evaluate the level of exposure of petrol attendants to petrol VOCs and also to determine their effect on DNA damage and repair in lymphocytes of African petrol attendants. The exposed group consisted of 20 subjects, randomly selected from three petrol stations. A control group of 20 unexposed subjects was also chosen and matched for age and smoking habits with the exposed group. Sorbent tubes were used to assess personal exposure of petrol attendants. The comet assay was used to investigate the basal DNA damage and repair capacity in isolated lymphocytes of petrol attendants and control subjects. Blood samples were taken from the petrol attendants at the end of their 8 hour working shift and also from the control subjects. The petrol attendants were found to be exposed to levels of petrol VOCs lower than the occupational exposure limit (OEL) for constituent chemicals. A significant relationship was found between the volume of petrol sold during the shift and the average concentrations of benzene, toluene and the total VOCs measured. However, relative humidity had a negative correlation with the average concentrations of benzene, toluene, xylene and the total VOCs. Significantly higher basal DNA damage was observed with the exposed group compared to the control group. The period of exposure influenced the level of DNA damage and the calculated repair capacity. Smoking and age had a significant influence on the level of DNA damage. DNA repair capacity was delayed in smokers of both exposed and non-exposed group. / Thesis (M.Sc. (Occupational Hygiene))--North-West University, Potchefstroom Campus, 2008.

DNA damage

DNA repair

Comet assay

Petrol attendant

Volatile organic compounds

Exercise and DNA damage and repair in middle aged men / Matthew Andrew Aikman

Aikman, Matthew Andrew

January 2007

Regular physical activity (PA) leads to an increased quality of life by means of certain physiological adaptations. Regular PA is beneficial to the human body and its functionality, including the physiological, biochemical and even psychological modalities. During PA an increased burden is placed on all physiological mechanisms due to the increased energy demand, resulting in an adaptation of the physiological systems. Currently the biochemical mechanisms by which these adaptations occur are not well understood or defined. During the flow of electrons through the electron transport chain in the mitochondria free radicals and reactive oxygen species (ROS) are produced. PA results in increased ROS production. The relationship of different exercise intensities and ROS production with resulting DNA damage is unclear. These free radicals and ROS disturb the pro-oxidant anti-oxidant balance resulting in oxidative stress. When this balance is disturbed oxidative stress could lead to potential oxidative damage, Oxidative damage occurs in lipid, protein and nucleic acid macromolecules. ROS can attack DNA bases or deoxyribose residues to produce damaged bases and/or single and double strand breaks. When the DNA is regarded and the damages are replicated it could cause mutations or apoptosis, affecting the cell function and physiology. The purpose of this study was to investigate the influence of different aerobic intensities on oxidative DNA damage and repair in middle aged men by means of the Comet assay. Five PA males and five physically inactive males were assigned to an experimental and control group respectively. The subjects did not differ significantly at baseline. The VO2-max of each subject was determined at baseline. Subjects were then randomly assigned to 60, 70, 80 and 90% of individual baseline VO2-max intensities for an acute exercise intervention of 30 minutes on a bicycle ergometer. Blood sampling was done at baseline, post-exercise and 24 hours post-exercise for oxygen radical absorbance capacity (ORAC) and hydroperoxide analysis (dROM). Peripheral blood was obtained for DNA damage testing by means of Comet analysis at baseline, post-exercise, 5, 15, 30 minutes, and also 6, 12, 24, 48 and 72 hours after exercise. The results obtained indicated that subjects who regularly participate in PA had an increased baseline reading of ORAC and dROM values. ORAC levels after each acute exercise session increased, with the highest increase in the control group, with a decrease in the direction of baseline readings 24 hours post exercise. A biphasic damage-repair cycle over the 72 hour period was observed with the Comet analysis. The most damaged cells occur directly after acute exercise. The highest incidence of DNA damage over a 72 hour period was observed at 70% VO2-max, with the least amount of damage after 90% VO2-max. In conclusion the study indicates stress proteins or other kinds of physiological reaction to minimize the damaging effect of oxidative stress, is in place to restore the cell's homeostasis. Thus PA results in the development of oxidative DNA damage. To minimize DNA damage the optimal intensity for acute physical exercise is between 70-80% VO2-max. At higher intensities the release of stress proteins are initiated to buffer the damaging effect of oxidative stress and to restore homeostasis. / Thesis (M.Sc. (Human Movement Science))--North-West University, Potchefstroom Campus, 2007.

Physical activity

Exercise

Free radicals

Oxidative damage

Comet assay

ORAC analysis

dROM analysis