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In vitro chemically-induced DNA damage in cancer patients and healthy individuals. The effect of genotoxic compounds in cells from polyposis coli, colon cancer patients and healthy individuals.Kurzawa-Zegota, Malgorzata January 2011 (has links)
In the present study DNA damage was measured in peripheral blood lymphocytes from polyposis coli and colorectal cancer patients, treated with different dietary and environmental compounds and compared with lymphocytes from healthy individuals. In addition, confounding factors such as age, gender, alcohol intake and smoking habits were taken into consideration. The assays used in this study included the Comet assay, the Micronucleus assay, the Micronucleus ¿ FISH assay and the sister chromatid exchange assay.
The food mutagens, PhIP and IQ, as well as titanium dioxide nanoparticles (TiO2 NPs) induced a dose dependent increase in the DNA damage and chromosomal abnormalities in all tested groups regardless of confounding factors. Prior to experiments physicochemical characterisation of nanoparticles was conducted. In the presence of the flavonoids, quercetin and rutin that were acting in an antioxidant manner, the DNA damage resulting from the highest doses of food mutagens was significantly reduced. Thus, dietary supplementation with flavonoid-rich vegetables and fruits may prove very effective in protection against oxidative stress.
The polyposis coli and colon cancer patients were more susceptible to food mutagens, PhIP and IQ, as well as TiO2 NPs, and in the majority of cases had a higher level of DNA damage in the Comet assay and higher cytogenetic damage in the Micronucleus assay.
In the final project, twelve frequently encountered (NewGeneris) chemical compounds were evaluated to establish their damaging potential in lymphocytes and spermatozoa from healthy donors. The highest damage was produced by DNA reactive aldehydes, food mutagens and benzo[a]pyrene when assessed with the neutral and alkaline Comet assay with and without metabolic activation. / EU NewGeneris Programme and United Kingdom - India Education and Research Initiative (UKIERI)
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In vitro studies on genotoxicity and gene expression in spermatogenic cells: mechanisms and assay developmentHabas, Khaled S.A. January 2015 (has links)
Spermatogenesis is a complex process of male germ cell development from
diploid spermatogonia to haploid fertile spermatozoa. Apoptosis plays a vital
role in limiting cell numbers and eliminating defective germ cells. This requires
novel gene products, and precise and well-coordinated programmes of gene
expression. It is therefore possible that a disruption of transcription factor
function would significantly impact germ cell development.
The present work was undertaken to use Staput separation followed by culture
of purified germ cells of rodent testis since mammalian spermatogenesis cannot
yet be recreated in vitro. Specificity of separation was assessed using
immunocytochemistry to identify spermatogonia, spermatocytes and spermatids. The
genotoxins H2O2, doxorubicin, N-ethyl-N-nitrosourea, N-methyl-N-nitrosourea,
6-mercaptopurine, 5-bromodeoxyuridine, methyl methanesulphonate
and ethyl methanesulphonate were investigated.
Cells were cultured and treated with different concentrations for each agent.
DNA damage and apoptosis were measured by Comet and TUNEL assay
respectively. Up-regulation of expression of the transcription factors Tbpl1,
FHL5 and Gtf2a1l that are important post-meiotically, were examined using RT-
PCR and qPCR. Protein production was evaluated using Western blotting.
Tbpl1, FHL5 and Gtf2a1l were cloned in-frame into the inducible expression
vector pET/100-TOPO. The recombinant clones were induced and successful
expression of the proteins in E. coli was confirmed by SDS-PAGE and Western
blotting. The recombinant clones obtained were used to demonstrate genotoxin
induced impairment of gene expression.
Thus, Staput-isolated rodent testicular germ cells seem to be a suitable model
to study genotoxicity in vitro yielding result comparable to those reported in vivo.
Furthermore, the work shows that genotoxins can impair gene expression.
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Genoprotective effect of aspirin and ibuprofen in human lymphocyte cells. Effect of nano and bulk forms of aspirin and ibuprofen on lymphocytes from breast cancer patients compared with those from healthy femalesDandah, Osama M.M. January 2017 (has links)
ABSTRACT: Various recent studies have suggested that regular intake of some non-steroidal anti-inflammatory drugs (NSAIDs) have a preventative effect against several types of tumours including breast cancer. The term nanotechnology refers to technology in which one-billionth of a meter is used as a scale for chemical particle size. This work aims to study the effect of both ibuprofen and aspirin on DNA damage using peripheral blood lymphocytes from breast cancer patients and comparing the results with those from healthy females as a control using the Comet and micronucleus assays. Western blot analysis (WBA) was used to investigate the effect of these drugs on XRCC3 and p53 proteins, whereas QPCR was to evaluate this effect on p53, cox1 and cox2 genes. Two hundred fifty ng/ml of ibuprofen (NP and bulk) and 500 ng/ml of aspirin (NP and bulk) were used to treat the lymphocytes. Both aspirin and ibuprofen caused a reduction in DNA damage and micronucleus formation. Aspirin, both forms, showed a reduction in DNA damage in the Comet and micronucleus assays. Ibuprofen both forms, by contrast, showed a statistically significant reduction in micronucleus frequency in the micronucleus assay, while its preventative effect with the Comet assay was weak or insignificant. NPs of both agents were more effective than bulk sizes. Using the Comet repair assay, aspirin and ibuprofen nano form catalysed DNA repair to a greater extent than their bulk forms. Also, both sizes showed better repair with NSAIDs compared to samples repaired without NSAIDs. In WBA aspirin increased the expression of XRCC3 protein in healthy cells. However, both NSAIDs decreased that expression in cells from BC patients. Furthermore, aspirin increased p53 expression in BC patients lymphocytes. With the QPCR method, results of both aspirin forms increased the expression of the p53 gene in BC patient cells statistically significantly. Both drugs reduced cox1 expression in healthy volunteers and cancer patients lymphocytes. Moreover, cox2 reduction was only in lymphocytes from BC patients. The results of this work are consistent with the view that NSAIDs, particularly aspirin and ibuprofen, could have a promising role in cancer treatment including breast cancer. / Various recent studies have suggested that regular intake of some non-steroidal anti-inflammatory drugs (NSAIDs) have a preventative effect against several types of tumours including breast cancer. The term nanotechnology refers to technology in which one-billionth of a meter is used as a scale for chemical particle size. This work aims to study the effect of both ibuprofen and aspirin on DNA damage using peripheral blood lymphocytes from breast cancer patients and comparing the results with those from healthy females as a control using the Comet and micronucleus assays. Western blot analysis (WBA) was used to investigate the effect of these drugs on XRCC3 and p53 proteins, whereas QPCR was to evaluate this effect on p53, cox1 and cox2 genes. Two hundred fifty ng/ml of ibuprofen (NP and bulk) and 500 ng/ml of aspirin (NP and bulk) were used to treat the lymphocytes. Both aspirin and ibuprofen caused a reduction in DNA damage and micronucleus formation. Aspirin, both forms, showed a reduction in DNA damage in the Comet and micronucleus assays. Ibuprofen both forms, by contrast, showed a statistically significant reduction in micronucleus frequency in the micronucleus assay, while its preventative effect with the Comet assay was weak or insignificant. NPs of both agents were more effective than bulk sizes. Using the Comet repair assay, aspirin and ibuprofen nano form catalysed DNA repair to a greater extent than their bulk forms. Also, both sizes showed better repair with NSAIDs compared to samples repaired without NSAIDs. In WBA aspirin increased the expression of XRCC3 protein in healthy cells. However, both NSAIDs decreased that expression in cells from BC patients. Furthermore, aspirin increased p53 expression in BC patients lymphocytes. With the QPCR method, results of both aspirin forms increased the expression of the p53 gene in BC patient cells statistically significantly. Both drugs reduced cox1 expression in healthy volunteers and cancer patients lymphocytes. Moreover, cox2 reduction was only in lymphocytes from BC patients. The results of this work are consistent with the view that NSAIDs, particularly aspirin and ibuprofen, could have a promising role in cancer treatment including breast cancer. / Libyan Government
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Biomarkers of Genotoxic and Reprotoxic Effects after Chemical Exposure. The genotoxic effects due to the respiratory disease of Tuberculosis (TB) patients compared to healthy controls in diploid lymphocyte and haploid sperm cells, after treated with two heterocyclic amines and quercetin in bulk and nano formsAbdulmwli, Mhamoued A.A. January 2019 (has links)
In the tuberculosis patients, Mycobacterium tuberculosis can stimulate production of
hydrogen peroxide in the host as a result of immune response. The H2O2 accumulate
in pulmonary cells, causing oxidative stress that could lead to the cancer. We select
TB patients for this study which investigates the effects of quercetin as there is an
increased incidence of latent TB among the migrant population in the past few years
and TB can increase the risk of cancer.
Sperm and lymphocytes were treated with DNA damage inducers and quercetin
(10µM, 25µM and 100µM), the responses evaluated using the Comet and
micronucleus techniques. The gene expressions of COX1, COX2, P53 and Bcl-2 and
catalase protein expression were investigated using the qPCR and Western blot
techniques.
The results showed that a substantial reduction of DNA damage in lymphocytes from
TB patients and sperm from healthy donors from * P ≤ 0.0283 to *** P≤0.001in the
Comet assay. In the MNi assay, the effect of quercetin in lymphocytes was more
significant in reduce DNA damage, whereas the DNA damage induced by a food
mutagen was significant, from *p 0.0405 to ***p 0.001. The qPCR showed
significance down-regulation of COX1 and Bcl-2 gene expression, rated between *p 0.045 and **p 0.0074. However, the catalase protein was up-regulated by the nano
form of quercetin when using lymphocytes from TB patients and showed significant
changes at *p 0.0236.
In conclusion, the nano form was found to be more efficient at the reduction of DNA
damage in the Comet and micronucleus assays. Also, it down-regulated COX1 and
Bcl-2 and up-regulated the catalase proteins indicating a possible role for quercetin,
in genoprotection to TB through its enzyme modulating effect. / Libyan Embassy
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Use of Fish Biomarkers to Assess the Contaminant Exposure and Effects in Lake Erie TributariesYang, Xuan January 2004 (has links)
No description available.
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Anomalous Apparitions of Light in Colonial America: Visions of Comets, New Stars, the Aurora Borealis, and RainbowsHolmberg, Megan Elizabeth January 2019 (has links)
This dissertation examines the body of literature that formed around anomalous light apparitions (comets, new stars, the aurora borealis, and rainbows) as it explores questions about the representation and response to celestial and meteorological phenomena during the seventeenth and eighteenth centuries in colonial America. I further consider the ways that these texts’ meanings are informed by rational scientific thought and by other non-scientific or non-rational, emotive, or aesthetic modes of thinking. I consider how these phenomena elicit a set of empirical yet emotionally-charged observational practices that complicate how we understand the roles of the rational and the non-rational in the scientific literature of this period. I argue that non-rational passionate investments are evident within or as part of the period’s rational scientific literature; they act as the impetus for scientific inquiry therefore forming an integral part of the scientific endeavor. This dissertation further explores how the practice of writing about these phenomena generates and facilitates the formation of communities of amateur scientific observers in colonial America. I further investigate how practices of data collection contribute to knowledge about the regular and irregular behaviors of celestial bodies, and how this knowledge impacts everyday practices essential for survival such as farming and travelling. What science writing from this period demonstrates is the ability for multiple ways of thinking to be in play simultaneously; these texts show how several worldviews (i.e. science, Puritanism, popular religion) are intrinsic to each other. Because of their liminality, these texts function outside of traditional categories such science, religion, and natural philosophy. Furthermore, they destabilize traditional conceptions of genre with their blend of rational and non-rational modes of thought and their incorporation of fact and fiction. While I treat these literary texts within their historical contexts, I am also interested in the ways in which these texts reach modern audiences, particularly in academia at a time when the humanities and sciences are positioned against one another. / English
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Parallel evaluation of Doxorubicin inducing Genetic damage in human lymphocytes and sperm using the Comet assay and spectral karyotypingAnderson, Diana, Baumgartner, Adolf, Cemeli, Eduardo, Schmid, Thomas E. January 2004 (has links)
No / In recent years, two techniques for detecting genetic damage in the whole genome have gained importance: the alkaline comet assay, to detect DNA damage such as strand breaks and alkali-labile sites, and a multicolour FISH method, spectral karyotyping (SKY), to identify chromosomal aberrations simultaneously in all metaphase chromosomes. In the present study, the induction of DNA damage in human sperm and lymphocytes in vitro has been studied employing an anticancer drug, doxorubicin (DX). An increase in DNA damage was observed with the comet assay as the median per cent head DNA of sperm significantly decreased from 82.07 and 85.14% in the untreated control groups to 63.48 and 72.52% at doses of 0.8 µM DX. At 1.6 µM the percentage declined to 60.96% (the corresponding tail moment increased from 4.42 to 12.19). In stimulated lymphocytes, a significant increase was observed in tail moment, from 0.72 and 0.53 in controls to 15.17 and 12.10 at 0.2 µM DX, continuing at the same level to a final concentration of 1.6 µM. Structural aberrations found in the parallel SKY study in stimulated lymphocytes at 0.2 µM DX consisted of 14% chromatid-type and 2% chromosome-type aberrations; none were found in controls. The SKY results correlate very well with the findings of the comet assay in lymphocytes where DNA damage was observed at similar doses. This study is the first reporting use of the comet assay and SKY analysis in parallel after chemical treatment. The potential of the two techniques together is evident, as they represent a set of assays feasible for evaluating damage in human somatic and germ cells after chemical treatment (i) by direct observation of two different end-points, detecting general DNA damage and chromosomal aberrations and (ii) by extrapolation from lymphocytes to sperm, which provides a `parallelogram¿ approach in human cells.
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Effects of the antimalarial compound cryptolepine and its analogues in human lymphocytes and sperm in the Comet assayGopalan, Rajendran C., Emerce, E., Wright, Colin W., Karahalil, B., Karakaya, A.E., Anderson, Diana January 2011 (has links)
No / Malaria is a mosquito-borne infectious disease caused by the genus Plasmodium. It causes one million deaths per year in African children under the age of 5 years. There is an increasing development of resistance of malarial parasites to chloroquine and other currently used anti-malarial drugs. Some plant products such as the indoloquinoline alkaloid cryptolepine have been shown to have potent activity against P. falciparum in vitro. On account of its toxicity, cryptolepine is not suitable for use as an antimalarial drug but a number of analogues of cryptolepine have been synthesised in an attempt to find compounds that have reduced cytotoxicity and these have been investigated in the present study in human sperm and lymphocytes using the Comet assay. The results suggest that cryptolepine and the analogues cause DNA damage in lymphocytes, but appear to have no effect on human sperm at the assessed doses. In the context of antimalarial drug development, the data suggest that all cryptolepine compounds and in particular 2,7-dibromocryptolepine cause DNA damage and therefore may not be suitable for pre clinical development as antimalarial agents.
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Analysis of DNA damage via single-cell electrophoresisAnderson, Diana, Laubenthal, Julian January 2013 (has links)
No / The comet assay or single-cell gel electrophoresis assay is a relatively simple and sensitive technique for quantitatively measuring DNA damage and repair at the single-cell level in all types of tissue where a single-cell suspension can be obtained. Isolated cells are mixed with agarose, positioned on a glass slide, and then lysed in a high-salt solution which removes all cell contents except the nuclear matrix and DNA, which is finally subjected to electrophoresis. Damaged DNA is electrophoresed from the nuclear matrix into the agarose gel, resembling the appearance of a comet, while undamaged DNA remains largely within the proximity of the nuclear matrix. By choosing different pH conditions for electrophoresis, different damage types and levels of sensitivity are produced: a neutral (pH 8–9) electrophoresis mainly detects DNA double-strand breaks, while alkaline (pH ≥ 13) conditions detect double- and single-strand breaks as well as alkali-labile sites. This protocol describes a standard comet assay study for the analysis of DNA damage and outlines important variations of this protocol.
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Germ Cell Responses to Doxorubicin Exposure in VitroHabas, Khaled S.A., Anderson, Diana, Brinkworth, Martin H. 24 November 2016 (has links)
Yes / Anthracyclines such as doxorubicin (Dox), widely used to treat various types of tumours, may result in induced testicular toxicity and oxidative stress. The present investigation was designed to determine whether exposure of isolated and purified mouse germ cells to Dox induces DNA damage in the form of strand breaks (presumably) resulting in apoptosis and to investigate the relative sensitivity of specific cell types. DNA damage was assessed using the Comet assay and the presence of apoptosis was determined by TUNEL assay. Isolated mouse germ cells were treated with different concentrations (0.05, 0.5 and 1 mM, respectively) of Dox, and fixed 1 h after treatment. The incidences of both DNA damage shown by single cell gel-electrophoresis and of apoptosis increased significantly in each specific cell type in a concentration-dependent manner. The DNA damage and apoptosis incidences gradually increased with concentration from 0.05 to 1 mM with Dox. Our results indicate that apoptosis plays a vital role in the induction of germ cell phase-specific toxicity caused by Dox with pre-meiotically and meiotically dividing spermatogonia and spermatocytes respectively as highly susceptible target cells. / Higher Education Funding Council for England (HEFCE)
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