AN ABSTRACT OF THE DISSERTATION OF Erin Madeen for the degree of Doctor of Philosophy in Toxicology presented on September 1, 2015. Title: Translational Studies of the High Molecular Weight Polycyclic Aromatic Hydrocarbon, Dibenzo[def,p] Chrysene; Carcinogenesis and Metabolism Abstract approved: ______________________________________________________ David E. Williams The objective of this work is to add to the body of translational data between high dose animal model research and the environmentally relevant human metabolism of the persistent pollutant dibenzo[def,p]chrysene (DBC). We furthered the knowledge of gene/exposure interactions by determining the carcinogenesis risk based on Cyp1b1 genotype following in utero DBC exposure in mice, finding no difference in lung carcinogesis by genotype. Cyp1b1 wild-type mice suffered mortality due to aggressive T-Cell Accute Lymphoblastic Leukemia (T-ALL), while Cyp1b1 null and CYP1B1 transgenic mice lack susceptibility to T-ALL. We also determined a link for Cyp1b1 status and fertility status, with a particular vulnerability in Cyp1b1 wild-type male mice fetally exposed to DBC. Female mice were found to have depleted primordial and primary follicle reserves in both Cyp1b1 wild-type and Cyp1b1 null mice. Further research will determine if the extent of depletion is similar across genotypes. In addition, sensitive accelerator mass spectrometry (AMS) was utilized to detect the metabolism of DBC (and BaP) by human volunteers following environmentally relevant exposures. The human PK of DBC validated rodent based PB/PK models generated to represent human metabolism for risk assessment. DBC appeared quickly in plasma, with the majority eliminated quickly over 24 hours and a slower elimination period to 72 hours. The PD of DBC provided evidence that DBC is rapidly biotransformed to metabolites circulating in plasma. The products of three or more bio-transformations (tetrols and beyond) were not present in the plasma, indicating that they are quickly converted to conjugated species and eliminated from the plasma compartment. Urine contained primarily DBC metabolites that had undergone two transformations or more (diols, tetrols, and a putative dione). The majority of these species exist as conjugated metabolites in urine. This body of work furthers the field of PAH translation by addressing disease and disease prevention endpoints from PAH exposure in rodent laboratory research models. Additionally, we are addressing human risk by removing the translation element and directly measuring PAH metabolism in humans from the oral route of exposure by taking a FDA IND “phase 0” approach to pharmacokinetics and pharmacodynamics. ©Copyright by Erin Madeen September 1, 2015 All Rights Reserved Translational Studies of the High Molecular Weight Polycyclic Aromatic Hydrocarbon, Dibenzo[ def,p] Chrysene; Carcinogenesis and Metabolism by Erin Madeen A DISSERTATION submitted to Oregon State University in partial fulfillment of the requirements for the degree of Doctor of Philosophy Presented September 1, 2015 Commencement June 2016 Doctor of Philosophy dissertation of Erin Madeen presented on September 1, 2015 APPROVED: Major Professor, representing Toxicology Head of the Department of Environmental and Molecular Toxicology Dean of the Graduate School I understand that my dissertation will become part of the permanent collection of Oregon State University libraries. My signature below authorizes release of my dissertation to any reader upon request. Erin Madeen, Author ACKNOWLEDGEMENTS It has been a privilege for which I am very grateful to have been trainee of the Superfund Research Program (SRP). The support, resources, training, and opportunities that the SRP provides to students have been invaluable. The awareness of global environmental pollution and research to address that pollution has been inspiring and has helped me keep focus during the more challenging periods of my graduate career. The unconditional support of Dr. David Williams, the most laid back PI a student could ask for, has provided me the freedom to explore and pursue projects that interest me as I have found my niche in the broad field of toxicology. All AMS analyses was completed on site at Lawrence Livermore National Laboratory with continuous support and guidance from Teressa Castro and Drs. Ken Turteltaub and Graham Bench. LNNL analysis was under the mentorship of Dr. Ted Ognibene, who deserves sainthood for his patience and grace. Expert pharmacokinetic/ pharmacodynamic training and assistance has been provided by Drs. Rick Corley and Mark Christensen. Histomorphological and reproductive toxicology training were provided by Drs. Christiane Löhr and Ulrike Luderer, both of whom have spent countless hours bouncing ideas, in person training, and providing mentorship and counsel. My graduate committee, including Drs. William Baird, Christiane Löhr, Emily Ho, Ramesh Sagili, and David Williams, provided support and mentorship as well as much needed reality checks on pertinent matters such as time line and the need for focus. I’m grateful for the advice and recommendations that they have provided. The open door/open lab layout of the Linus Pauling Institute has provided an excellent training and working environment. Dr. Balz Frei was quick to provide help and references. Lisbeth Siddens has provided detailed technical training and friendship. Tammie McQuistan and Drs. Sharon Krueger and Pat Iverson made the challenge of FDA IND compliance possible and successful. It was a pleasure to work with Dr. Tod Harper as my go-to “How do I do this?” reference on all things. Our lab super students Hannah You, David Sampson, Alex Van Scoyk, and Jessica Hummel thought that they were getting training and mentorship, but in reality, they probably provided me with more training and experience than they received in return. My professional training would not have been possible without the grounding and perspective provided by the freaks and misfits that I’ve called friends. It has been said that “When the going gets weird, the weird turn professional” [1]. It has been comforting to be surrounded by so many passionate professionals who have maintained a childlike enthusiasm and a wonder for the natural world as it exists outside of Microsoft Office Suite ® ©. CONTRIBUTION OF AUTHORS Chapter 2: Christiane Löhr provided detailed histomorphological analysis. Hannah You provided mouse husbandry, generated cDNA data, and helped with necropsy and tissue collections. Lisbeth E. Siddens helped with mouse gavage, tissue collections, study design, and Cyp1b1 expression analysis. Sharon K. Krueger provided study design, experimental animal generation, and ensuring compliance. Roderick H. Dashwood and Emily Ho provided study design support. Frank J. Gonzalez generated the Cyp1b1 null and CYP1B1 humanized mouse lines. William M. Baird provided biochemical advice on DBC metabolism. Lisa Bramer provided detailed statistical analysis of data from study endpoints. Katrina M. Waters provided assistance with interpretation of statistical data. David E. Williams assisted with manuscript writing, study design and technical advice. Chapter 3: Richard A. Corley and Susan Crowell provided training and advice on pharmacokinetic analysis. Kenneth Turteltaub, Ted Ognibene, and Mike Malfatti provided AMS analysis. Tammie J. McQuistan provided sample preparation support. Mary Garrard provided clinical coordination and clinical nursing support. Dan Sudakin provided medical supervision as a licensed medical doctor. David E. Williams provided study design, technical advice, and manuscript preparation assistance. Chapter 4: Ted Ognibene provided AMS analysis and data analysis. Rick Corley provided pharmacokinetic assistance. Mark Christensen provided pharmacodynamics training and analysis. Tammie McQuistan provided sample preparation assistance. Ken Turteltaub and David E. Williams provided study design and project support.
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