Abstract

The Synthesis Core directly supports the research function of the University of Iowa SBRP research programby providing a PCB exposure mixture as well as individual PCB congeners and PCB metabolites. In supportof the Analytical Core, this core will also provide analytical standards.
Specific Aim 1 is the preparation ofanalytical and quality control/assurance standards for the Analytical Core. In close collaboration withthe Analytical Core, which is responsible for purity control of PCB congeners and testing of preparedstandards against certified Standard Reference Materials, the Synthesis Core will acquire or synthesizeindividual PCB congeners and prepare stock solutions for use as PCB calibration mixtures.
Specific Aim 2 is the preparation of an airborne PCB exposure mixture for in vitro and in vivo studies for ResearchProjects #1, #2, #3, and # 5. This exposure mixture will approximate the PCB congener profile of the meanChicago PCB signal. The mixture will be prepared in close cooperation with the Analytical and InhalationToxicology Cores by mixing of Aroclor 1242, Aroclor 1254 and individual PCB congeners.
Specific Aim 3 isthe synthesis of PCB congeners to supplement the PCB exposure mixture in Aim 2 and for use withthe in vitro and in vivo studies of Research Projects #1, #2, #3, and # 5. These PCB congeners will alsobe available to the Analytical Core for the preparation of analytical and quality control/assurance standards.
Specific Aim 4 is the synthesis of methoxylated and hydroxylated PCB metabolites. Hydroxylated PCBmetabolites will be used by Projects #1, #2, #3, and #5 for in vitro and in vivo studies. Both the hydroxylatedand methoxylated PCB derivatives will be provided to the Analytical Core and individual research projects asanalytical standards for the identification and quantification of (unknown) metabolites.
Specific Aim 5 is thesynthesis of quinoid metabolites of PCBs and their glutathione conjugates for Research Projects #1and #2.
Specific Aim 6 will provide PCB sulfates needed by Project #3. All compounds will besynthesized, if necessary in large (gram) quantities, with straightforward synthetic approaches that are wellestablished at the University of Iowa. Drawing on their extensive experience with the synthesis oforganohalogen compounds, Synthesis Core staff will be able to synthesize every compound of interest to theindividual research projects.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Environmental Health Sciences (NIEHS)
Type
Hazardous Substances Basic Research Grants Program (NIEHS) (P42)
Project #
1P42ES013661-01A1
Application #
7106960
Study Section
Special Emphasis Panel (ZES1-SET-A (P9))
Project Start
2006-04-01
Project End
2010-03-31
Budget Start
2006-05-12
Budget End
2007-03-31
Support Year
1
Fiscal Year
2006
Total Cost
$178,962
Indirect Cost

  Institution

Name
University of Iowa
Department
Type
DUNS #
062761671
City
Iowa City
State
IA
Country
United States
Zip Code
52242

  Publications

Li, Xueshu; Holland, Erika B; Feng, Wei et al. (2018) Authentication of synthetic environmental contaminants and their (bio)transformation products in toxicology: polychlorinated biphenyls as an example. Environ Sci Pollut Res Int 25:16508-16521
Sethi, Sunjay; Keil, Kimberly P; Lein, Pamela J (2018) 3,3'-Dichlorobiphenyl (PCB 11) promotes dendritic arborization in primary rat cortical neurons via a CREB-dependent mechanism. Arch Toxicol 92:3337-3345
Parker, Victoria S; Squirewell, Edwin J; Lehmler, Hans-Joachim et al. (2018) Hydroxylated and sulfated metabolites of commonly occurring airborne polychlorinated biphenyls inhibit human steroid sulfotransferases SULT1E1 and SULT2A1. Environ Toxicol Pharmacol 58:196-201
Mattes, Timothy E; Ewald, Jessica M; Liang, Yi et al. (2018) PCB dechlorination hotspots and reductive dehalogenase genes in sediments from a contaminated wastewater lagoon. Environ Sci Pollut Res Int 25:16376-16388
Uwimana, Eric; Ruiz, Patricia; Li, Xueshu et al. (2018) HUMAN CYP2A6, CYP2B6 AND CYP2E1 ATROPSELECTIVELY METABOLIZE POLYCHLORINATED BIPHENYLS TO HYDROXYLATED METABOLITES. Environ Sci Technol :
Rodriguez, Eric A; Vanle, Brigitte C; Doorn, Jonathan A et al. (2018) Hydroxylated and sulfated metabolites of commonly observed airborne polychlorinated biphenyls display selective uptake and toxicity in N27, SH-SY5Y, and HepG2 cells. Environ Toxicol Pharmacol 62:69-78
Hou, Xingwang; Yu, Miao; Liu, Aifeng et al. (2018) Biotransformation of tetrabromobisphenol A dimethyl ether back to tetrabromobisphenol A in whole pumpkin plants. Environ Pollut 241:331-338
Xiao, Xin; Chen, Baoliang; Chen, Zaiming et al. (2018) Insight into Multiple and Multilevel Structures of Biochars and Their Potential Environmental Applications: A Critical Review. Environ Sci Technol 52:5027-5047
Herkert, Nicholas J; Jahnke, Jacob C; Hornbuckle, Keri C (2018) Emissions of Tetrachlorobiphenyls (PCBs 47, 51, and 68) from Polymer Resin on Kitchen Cabinets as a Non-Aroclor Source to Residential Air. Environ Sci Technol 52:5154-5160
P?n?íková, Kate?ina; Svržková, Lucie; Strapá?ová, Simona et al. (2018) In vitro profiling of toxic effects of prominent environmental lower-chlorinated PCB congeners linked with endocrine disruption and tumor promotion. Environ Pollut 237:473-486

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