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A Study of Aryl Hydrocarbon Hydroxylase in Cultured Human LymphocytesGuyden, Jerry C. 08 1900 (has links)
Aryl hydrocarbon hydroxylase activity was studied in cultured human lymphocytes using 3-methylcholanthrene, 1,2- benzanthracene, and 4'-bromoflavone as inducers. The substrates used to run the 60 minute assay were benzo(α)pyrene and diphenyloxazole. At the optimum bromoflavone concentration for induction of aryl hydrocarbon hydroxylase, the induced enzymatic activity compared favorably with that of aryl hydrocarbon hydroxylase induced by 3MC in a 96 hour lymphocyte culture using BP as the assay substrate. The whole cell human lymphocyte system was found to have as much or more activity in 20 ml vials using Joklik's-Modified Minimum Essential Medium at a pH optimum of 7.5 with no co-factor added as did the Roswell Park assay system. The whole cell assay showed that levels of aryl hydrocarbonhydroxylase inducibility in lumphocytes from smokers and non-smokers varied without regard to the subjects' smoking habits. The assay system also indicated that intact lymphocytes generate a similar group of benzo(α)pyrene metabolites as that produced by a hepatic microsomal preparation from C57B1/6J mice.
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Quantitative measurements of carcinogen-DNA adduct using MALDI time-of-flight mass spectrometryHuang, Zhuoli. January 1900 (has links)
Thesis (M.S.)--The University of North Carolina at Greensboro, 2008. / Directed by Norman Chiu; submitted to the Dept. of Chemistry and Biochemistry. Title from PDF t.p. (viewed Mar. 19, 2010). Includes bibliographical references (p. 61-64).
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Dermal exposure to pesticides in Nicaragua : a qualitative and quantitative approach /Aragón, Aurora, January 2005 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 5 uppsatser.
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Mechanisms of environmental carcinogenesis and metal-induced cellular signalingBower, Jacquelyn Jo. January 1900 (has links)
Thesis (Ph. D.)--West Virginia University, 2006. / Title from document title page. Document formatted into pages; contains xi, 180 p. : ill. (some col.). Vita. Includes abstract. Includes bibliographical references.
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A Study of Polynuclear Aromatic Hydrocarbon Carcinogen Transport and Deoxyribonucleic Acid RepairJoe, Cheol O., 1949- 12 1900 (has links)
This investigation addresses the interrelated problems of A) Uptake and vascular transport of lipophilic chemical carcinogens, and intracellular interactions between lipoproteins and carcinogens; B) Biochemical mechanisms by which polynuclear aromatic hydrocarbon carcinogens inhibit the replicative and repair DNA synthesis in cells. The results observed in this study suggest that ingested benzo(a)pyrene (BaP) enters the gastrointestinal lymphatic drainage sequestered within lymphatic lipoproteins, and that low-density lipoproteins (LDL) play a major role in the vascular transport of BaP. BaP is taken up into cells by adsorptive endocytosis mediated by an interaction between apolipoprotein-specific receptors on the cell membrane and the specific apolipoproteins on LDL. Having entered peripheral cells sequestered within the lipid core of LDL, an electrophilic metabolite of BaP covalently binds to cellular DNA, and may interact with other cellular macro-molecules. Data presented here suggest that LDL is also absolutely required for the activation of DNA polymerase-a, which is the major enzyme of DNA excision repair necessary to correct the DNA damage caused by BaP. This study concludes that an active metabolite of the polynuclear aromatic hydrocarbon carcinogen, benzo(a)pyrene, suppresses DNA polymerase-a activity by inhibiting the binding of 2'-deoxyguanosine 5'-triphosphate to an acceptor site on the DNA polymerase-a complex with the DNA substrate, thereby competitively inhibiting interaction of 2'-deoxyguanosine 5'-triphosphate in the DNA synthetic process.
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Binding of homologs of certain carcinogenic azo dyes with proteinsBauer, Roger Duane. January 1957 (has links)
Call number: LD2668 .T4 1957 B38 / Master of Science
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Diethylnitrosamine, ethylnitrosourea, and dimethylbenz(a)anthracene DNA binding studies in the rainbow troutVan Winkle, Samina 11 August 1988 (has links)
Dimethylbenz (a) anthracene (EMBA), a carcinogen that requires
metabolic activation to produce active metabolites capable of
binding to DNA, has been studied in the trout and other fish.
Polycyclic aromatic hydrocarbons (PAH) are of importance as they
are ubiquitous in the environment and their carcinogenic effects
in fish from contaminated waters are an important indication of
the pollution risks to man. Since such pollution risk assessment
presents the involvement of multiple agents, the study of the
modulation of PAH-DNA binding produced by other agents is
important. In this study the effect, of dietary pretreatment at
500 ppm, 100 ppm and 2000 ppn, using BNF, Aroclor 1254, or
indole-3-carbinol (I3C) respectively on DMBA-DNA binding was
examined. To study the effect of age on sensitivity to DMBA-DNA
binding, adult trout and fry were used in two separate studies.
The fish were fed treatment diet for at least two weeks. Fry were then injected with [³H] DMBA, at 22.4 μCi/3.9 x 10⁻² μmole/fish and adult trout at 284 μCi/1.58 μmole/fish. Liver DNA
was isolated, purified and binding of radioactivity to DNA was
examined and computed as the covalent binding index (CBI). Mean
CBI for control dietary group vising adult trout was 1000 fold
lower than for fry. Statistical analysis of covalent binding
index for the treatment groups revealed that a statistically
significant (p < 0.05) inhibition in DNA-DMBA binding response
in adult trout and fry was produced fcy the DNF dietary treatment
only.
Diethylnitrosamine (DENA), a potent hepatocarcinogen in
several animal species belongs also to the class of compounds
that require metabolic activation. Dietary treatment and
continuous exposure of trout to the carcinogen in water, have
produced hepatocellular carcinctnas. The water exposure also
produced a dose related DNA ethylation of the O⁶ position of
guanine, believed to be the promutagenic adduct produced after
DENA exposure. This study examines two other routes of exposure
to DENA, in vitro hepatocyte incubations and i.p. injection.
Adult trout and fry were injected with [³H] DENA. Adult fish
received 3.3, 16.5, and 33 mg/kg DENA, and fry received 10, 50
and 100 mg/kg. Hepatocyte incubation was performed with doses up
to 220 μM [³H] DENA, or 1 mM unlabelled DENA. DNA from fish
livers and from hepatocyte pellets was isolated, purified and
examined for radioactive binding of the DENA metabolites or in
the case of the unlabelled DENA, was analyzed for O⁶ and N7
adduct using an HPIC technique with fluorescence detection. O⁶-EtG adduct after DENA exposure, in DNA of hepatocytes obtained
from trout pretreated with beta-naphthoflavone (BNF, a known
inducer of cytodhrcme P-450 dependent enzyme activities involved
in the activation of xenobiotics) was below the limits of
detection of the HPDC-fluorescenoe detection procedure used. To
examine further if the lack of DNA binding and absence of the
O⁶-EtG adduct was due to rapid repair, the persistence of O⁶-EtG
after exposure to 40 nM ethylnitrosourea (ENU, a direct
ethylating agent) was studied in hepatocytes at 2, 4, and 5
hours after treatment. The activity of the alkyltransferase
protein involved in the repair of alkylguanines also was
determined using liver extracts from adult rainbow trout. The
studies did not reveal a significantly high rate of repair. It
is concluded that i.p. injection and in vitro hepatocyte
incubations are not a good method for studying the kinetics of
activation and DNA binding of DENA in the rainbow trout. The
i.p. route may lead to substantial loss of the dose of the
carcinogen administered and hepatocyte incubations are limited
by the toxic effects of increasing carcinogen concentration. The
reasons mentioned above, coupled with low levels of metabolism
of nitrosamines in trout results in the inability to detect and
study the appearance, persistence and repair of the O⁶-EtG
adduct. / Graduation date: 1989
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Investigation of parasporins, the cytotoxic proteins from the bacterium Bacillus thuringiensisKrishnan, Vidisha January 2013 (has links)
The cytotoxic activities of proteins from the normally insecticidal Bacillus thuringiensis against human cancer cell lines were investigated. Cry41Aa toxin derived from the Bacillus thuringiensis strain A1462, which shows activity against human cancer cell lines is structurally related to the toxins synthesized by commercially produced transgenic insect-resistant plants, with the exception of an additional C-terminal beta-trefoil ricin domain. To test whether this putative carbohydrate binding domain is responsible for the cytotocidal activity of Cry41Aa against cancer cell lines, we developed an efficient expression system for the toxin and created a deletion mutant lacking the ricin domain. Both Cry41Aa and its deletion mutant were stably expressed and found to have almost identical activities against the HepG2 cancer cell line in vitro. Our results suggest that the acquisition of the ricin domain was not responsible for Cry41Aa having toxicity to human cancer cells and more subtle changes have resulted in the evolution of mammalian cancer cell toxicity. We further attempted to identify those differences that are responsible for the divergence in activity between the cancer-killing toxins and their insecticidal counterparts. We also studied the cell-killing activity of other uncharacterized Bacillus thuringiensis crystal toxins including Cry51 and Cry65 whose targets are not known so far.
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Novel functions for the BAF180 tumour suppressor : insights from mammalian and yeast systemsBrownlee, Peter Moore January 2014 (has links)
Genomic DNA is compacted into a protein-DNA complex known as chromatin, which regulates diverse cellular processes including transcription, DNA replication, recombination, DNA repair and the maintenance of genome integrity. The structure and activity of chromatin is regulated by DNA sequences, histone variants, posttranslational histone modifications and chromatin remodelling complexes. Chromatin remodelling complexes are multi-subunit entities that contain a single core catalytic ATPase subunit able to generate an array of nucleosome-related outputs. Importantly, recent studies have revealed that genes of the SWI/SNF family of chromatin remodeling complexes are frequently mutated in diverse cancers; however, their functional contributions in tumourigenesis are largely unclear. This work is comprised of four major results chapters, examining the roles of targeting subunits of the RSC SWI/SNF complex in budding yeast and the homologous BAF180 tumour suppressor protein in mammalian cells. We identify novel functions for these proteins that are directly relevant to tumourigenesis. In the first section we explored the contributions of the two isoforms of the RSC SWI/SNF complex in DNA repair. We found that the two isoforms provide both overlapping and distinct functions in this process. In the second section we identify a novel function for BAF180 in promoting centromeric sister chromatid cohesion. Importantly, this defect was transcription-independent and represents a paradigm shift in the field of chromatin remodeling and cancer. In the third section we show that PBRM1 missense mutations identified in cancer samples specifically impair a cohesion-related subset of functions when expressed in budding yeast. Moreover, these mutations completely ablated centromeric cohesion in human cells. In the final section we report the findings that novel HDAC inhibitors, which constitute a promising class of anticancer drugs, selectively sensitize cells lacking BAF180. These significant results suggest that HDAC inhibitors could be important tools for the treatment of BAF180-deficient tumours.
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Development Of An Immortalized Human Cell Line To Study The Effects Of Environmental Exposure To CarcinogensUnknown Date (has links)
In order to provide an improved in vitro model with which to investigate human diseases, such as cancer that may be promoted by toxicant exposure, we have characterized a newly developed cell line derived from the renal proximal tubule epithelial cells (RPTEC) of a healthy human male donor. The RPTEC/TERT1 cell line has been immortalized using the human telomerase reverse transcriptase (hTERT) catalytic subunit and does not exhibit chromosomal abnormalities (Evercyte Laboratories). We have conducted single-compound and binary mixture experiments with the common environmental carcinogens, cadmium (Cd) and benzo[a]pyrene (B[a]P). Cells exhibited cytotoxicity to concentrations of B[a]P and Cd as low as 1 nM and 3 μM, respectively. We examined a panel of eight genes relevant to the toxic responses of these two agents. RPTEC/TERT1 cells exhibit compound-specific gene expression responses to concentrations as low as 1 nM B[a]P and 1 μM Cd. A significant increase in the expression of genes coding for B[a]P metabolizing enzymes (CYP1A1, CYP1B1) occurred in a dose- and time-dependent manner. Activity of these enzymes was verified using the EROD activity assay. Gene expression changes after co-exposure were consistent with changes in gene expression seen after single-compound exposures. We detected BPDE-DNA adducts after exposure to B[a]P which confirms that the RPTEC/TERT1 cell line responds to B[a]P consistently with what is known regarding these cells in a normal, healthy kidney. Under co-exposure, adducts detected were significantly decreased in some groups. A significant increase in the expression of NRF2 antioxidant pathway genes after co-exposure was observed. Additionally, total glutathione levels were significantly increased in cells exposed to Cd alone and co-exposure groups. These results suggest that Cd may antagonize the formation of BPDE-DNA adducts in RPTEC/TERT1 cells under these conditions. Future studies will test mutagenesis under conditions of co-exposure to Cd and B[a]P. Our studies are the first to provide information regarding toxicological responses in this novel cell line that model those of the target tissue. We conclude that these cells can provide a useful tool for future toxicological studies. These studies will help scientists better understand the initiating events that may promote carcinogenesis in normal, healthy human cells. / acase@tulane.edu
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