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Browsing by Author "Hocevar, Barbara A."
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Item Analysis of the cryptic promoter in the 5'-UTR of P27(2012-03-19) Francis, Zachary T.; Zhang, Jian-Ting; Safa, Ahmad R.; Hocevar, Barbara A.Cyclin Dependent Kinase regulation is often manipulated by cancer cells to promote unlimited proliferation. P27 is an important regulator of Cyclin E/CDK 2, which has been found in low amounts in many types of malignant cancers. Lovastatin has been shown to cause cell cycle arrest in the G1 phase of the cell cycle by increasing the P27 protein. There has been some question, however, if lovastatin regulates P27 at the transcriptional or translational level. Although it has been claimed that P27 expression regulation is due to an IRES located in its 5’UTR, other studies suggested that P27 expression is regulated at the level of transcription. To further investigate the regulation mechanism of P27 expression, the 5’-UTR of P27 and its deletion mutants were examined using a luciferase reporter gene in HeLa cells following exposure to lovastatin. It was found that lovastatin stimulated a significant 1.4 fold increase in its promoter activity of the full length 5’UTR (575). Deletion of 35 nucleotides from the 5’ end of the UTR eliminated the lovastatin-induced increase in promoter activity. Further mapping analyses of the first 35 bases showed that two regions, M1 (575-559) and M3 (543-527), were less sensitive to lovastatin than the other mutated constructs. Since M1 and M3 still showed some activity, a construct was created with deletions in both the M1 and M3 regions. This showed no increase in luciferase activity when exposed to lovastatin. Looking at RNA levels, there was a 1.5 fold increase in RNA when the full length 5’UTR was inserted into HeLa cells and exposed to 81 µM of lovastatin. In contrast, there was no increase in RNA when M1/M3 (575-559; 543-527) was inserted into HeLa cells and exposed to 81 µM of lovastatin. In addition, there was a 1.6 fold increase in endogenous P27 RNA levels after HeLa cells were exposed to 81 µM of lovastatin. In all of these experiments, there seems to be two promoters that work cooperatively: M1 (575-559) and M3 (543-527).Item Contribution of Environment and Genetics to Pancreatic Cancer Susceptibility(Public Library of Science, 2014-03-20) Hocevar, Barbara A.; Kamendulis, Lisa M.; Pu, Xinzhu; Perkins, Susan M.; Wang, Zheng-Yu; Johnston, Erica L.; DeWitt, John M.; Li, Lang; Loehrer, Patrick J.; Klaunig, James E.; Chiorean, E. Gabriela; Medicine, School of MedicineSeveral risk factors have been identified as potential contributors to pancreatic cancer development, including environmental and lifestyle factors, such as smoking, drinking and diet, and medical conditions such as diabetes and pancreatitis, all of which generate oxidative stress and DNA damage. Oxidative stress status can be modified by environmental factors and also by an individual's unique genetic makeup. Here we examined the contribution of environment and genetics to an individual's level of oxidative stress, DNA damage and susceptibility to pancreatic cancer in a pilot study using three groups of subjects: a newly diagnosed pancreatic cancer group, a healthy genetically-unrelated control group living with the case subject, and a healthy genetically-related control group which does not reside with the subject. Oxidative stress and DNA damage was evaluated by measuring total antioxidant capacity, direct and oxidative DNA damage by Comet assay, and malondialdehyde levels. Direct DNA damage was significantly elevated in pancreatic cancer patients (age and sex adjusted mean ± standard error: 1.00±0.05) versus both healthy unrelated and related controls (0.70±0.06, p<0.001 and 0.82±0.07, p = 0.046, respectively). Analysis of 22 selected SNPs in oxidative stress and DNA damage genes revealed that CYP2A6 L160H was associated with pancreatic cancer. In addition, DNA damage was found to be associated with TNFA −308G>A and ERCC4 R415Q polymorphisms. These results suggest that measurement of DNA damage, as well as select SNPs, may provide an important screening tool to identify individuals at risk for development of pancreatic cancer.Item CONTRIBUTIONS OF TM5, ECL3 AND TM6 OF HUMAN BCRP TO ITS OLIGOMERIZATION ACTIVITIES AND TRANSPORT FUNCTIONS(2012-03-16) Mo, Wei; Safa, Ahmad R.; Zhang, Jian-Ting; Chou, Kai-Ming; Hocevar, Barbara A.; Smith, Martin L.Human BCRP is one of the major ATP-binding cassette transporters involved in the development of multidrug resistance in cancer chemotherapy. Overexpression of BCRP in the tumor cell plasma membrane and apical membrane of the gastrointestinal tract leads to decreased intracellular accumulation of various anticancer drugs as well as reduced drug bioavailability. BCRP has been shown to exist on the plasma membrane as higher forms of homo-oligomers. In addition, the oligomerization domain of BCRP has been mapped to the carboxyl-terminal TM5-ECL3-TM6 and this truncated domain, when co-expressed with the full-length BCRP, displays a dominant inhibitory activity on BCRP function. Thus, the oligomerization of BCRP could be a promising target in reversing multidrug resistance mediated by BCRP. To further dissect the oligomerization domains of human BCRP and test the hypothesis that TM5, ECL3, and TM6 each plays a role in BCRP oligomerization and function, we engineered a series of BCRP domain-swapping constructs with alterations at TM5-ECL3-TM6 and further generated HEK293 cells stably expressing wild-type or each domain-swapping construct of BCRP. Using co-immunoprecipitation and chemical cross-linking, we found that TM5, ECL3, and TM6 all appear to partially contribute to BCRP oligomerization, which are responsible for the formation of oligomeric BCRP. However, only TM5 appears to be a major contributor to the transport activity and drug resistance mediated by BCRP, while ECL3 or TM6 is insufficient for BCRP functions. Taken together, these findings suggest that homo-oligomeric human BCRP may be formed by the interactions among TM5, ECL3 and TM6, and TM5 is a crucial domain for BCRP functions and BCRP-mediated drug resistance. These findings may further be used to explore targets for therapeutic development to reverse BCRP-mediated drug resistance and increase the bioavailability of anti-cancer drugs for better treatment of multidrug resistant cancers.Item Exposure to perfluorooctanoic acid leads to promotion of pancreatic cancer(Oxford University Press, 2022) Kamendulis, Lisa M.; Hocevar, Jessica M.; Stephens, Mikayla; Sandusky, George E.; Hocevar, Barbara A.; Pathology and Laboratory Medicine, School of MedicinePancreatic cancer is the fourth leading cause of cancer deaths in the United States. Perfluorooctanoic acid (PFOA), a persistent environmental pollutant, has been shown to induce pancreatic acinar cell tumors in rats. Human epidemiologic studies have linked PFOA exposure to adverse chronic health effects including several types of cancer. Previously, we demonstrated that PFOA induces oxidative stress and focal ductal hyperplasia in the mouse pancreas. Here, we evaluated whether PFOA promotes pancreatic cancer using the LSL-KRasG12D;Pdx-1 Cre (KC) mouse model of pancreatic cancer. KC mice were exposed to 5 ppm PFOA in drinking water starting at 8 weeks of age and analyzed at 6 and 9 months of age. At the 6-month time point, PFOA exposure increased pancreatic intraepithelial neoplasia (PanIN) area by 58%, accompanied by a 2-fold increase in lesion number. Although PanIN area increased at 9 months, relative to 6 months, no treatment effect was observed. Collagen deposition was enhanced by PFOA at both the 6- and 9-month time points. PFOA also induced oxidative stress in the pancreas evidenced by elevated antioxidant activity of superoxide dismutase (Sod), catalase and thioredoxin reductase, and a ~3-fold increase in Sod1 mRNA and protein levels at 6 months. Although antioxidant activity was not enhanced by PFOA exposure at the 9-month time point, increased pancreatic oxidative damage was observed. Collectively, these results show that PFOA elicited temporal increases in PanIN lesion area and desmoplasia concomitant with the induction of oxidative stress, demonstrating that it functions to promote pancreatic cancer progression.Item GCN5-B is a Novel Nuclear Histone Acetyltransferase that is Crucial for Viability in the Protozoan Parasite Toxoplasma gondii(2011-03-16) Dixon, Stacey E.; Sullivan, William J., Jr.; Chan, Rebecca J.; Hocevar, Barbara A.; Queener, Sherry F.; Zhang, Jian-TingInfection with the single-celled parasite Toxoplasma gondii (phylum Apicomplexa) is usually benign in normal healthy individuals, but can cause congenital birth defects, ocular disease, and also life-threatening infection in immunocompromised patients. Acute infection caused by tachyzoites is controlled by a healthy immune response, but the parasite differentiates into a latent cyst form (bradyzoite) leading to permanent infection and chronic disease. Current therapies are effective only against tachyzoites, are highly toxic to the patient, and do not eradicate the encysted bradyzoites, thus highlighting the need for novel therapeutics. Inhibitors of histone deacetylases have been shown to reduce parasite viability in vitro demonstrating that chromatin remodeling enzymes, key mediators in epigenetic regulation, might serve as potential drug targets. Furthermore, epigenetic regulation has been shown to contribute to gene expression and differentiation in Toxoplasma. This dissertation focused on investigating the physiological role of a Toxoplasma GCN5-family histone acetyltransferase (HAT), termed TgGCN5-B. It was hypothesized that TgGCN5-B is an essential HAT that resides within a unique, multi-subunit complex in the parasite nucleus. Studies of TgGCN5-B have revealed that this HAT possesses a unique nuclear localization signal (311RPAENKKRGR320) that is both necessary and sufficient to translocate the protein to the parasite nucleus. Although no other protein motifs have been identified in the N-terminal extension of TgGCN5-B, it is likely that this extension plays a role in protein-protein interactions. All GCN5 homologues function within large multi-subunit complexes, many being conserved among species, but bioinformatic analysis of the Toxoplasma genome revealed a lack of many of these conserved components. Biochemical studies identified several potential TgGCN5-B associating proteins, including several novel apicomplexan transcription factors. Preliminary evidence suggested that TgGCN5-B was essential for tachyzoites; therefore, a dominant-negative approach was utilized to examine the role of TgGCN5-B in the physiology of Toxoplasma. When catalytically inactive TgGCN5-B protein was over-expressed in the parasites, there was a significant decrease in tachyzoite growth and viability, with initial observations suggesting defects in nuclear division and daughter cell budding. These results demonstrate that TgGCN5-B is important for tachyzoite development and indicate that therapeutic targeting of this HAT could be a novel approach to treat toxoplasmosis.Item Perfluorooctanoic acid exposure triggers oxidative stress in the mouse pancreas(Elsevier, 2014-08-02) Kamendulis, Lisa M.; Wu, Qiangen; Sandusky, George E.; Hocevar, Barbara A.; Pathology and Laboratory Medicine, School of Medicine• PFOA triggers focal ductal hyperplasia following 7 day exposure. • PFOA exposure increases 8-iso-PGF2α levels in the pancreas. • Antioxidant gene expression is upregulated in the pancreas following PFOA exposure. , Perfluorooctanoic acid (PFOA) is used in the manufacture of many industrial and commercial products. PFOA does not readily decompose in the environment, and is biologically persistent. Human epidemiologic and animal studies suggest that PFOA exposure elicits adverse effects on the pancreas. While multiple animal studies have examined PFOA-mediated toxicity in the liver, little is known about the potential adverse effects of PFOA on the pancreas. To address this, we treated C57Bl/6 mice with vehicle, or PFOA at doses of 0.5, 2.5 or 5.0 mg/kg BW/day for 7 days. Significant accumulation of PFOA was found in the serum, liver and pancreas of PFOA-treated animals. Histopathologic examination of the pancreas revealed focal ductal hyperplasia in mice treated with 2.5 and 5.0 mg/kg BW/day PFOA, while inflammation was observed only in the high dose group. Elevated serum levels of amylase and lipase were observed in the 2.5 mg/kg BW/day PFOA treatment group. In addition, PFOA exposure resulted in a dose-dependent increase in the level of the lipid peroxidation product 8-iso-PGF2α and induction of the antioxidant response genes Sod1, Sod2, Gpx2 and Nqo1. Our findings provide additional evidence that the pancreas is a target organ for PFOA-mediated toxicity and suggest that oxidative stress may be a mechanism through which PFOA induces histopathological changes in the pancreas.