Cancer Markers Associated With Occupational Exposure to Trichloroethylene

Trichloroethylene (TCE) is an industrial solvent used in degreasing, dry cleaning, and numerous other medical and industrial processes. It is a ubiquitous environmental contaminant of drinking water and is present in many EPA Superfund sites. TCE is a rodent carcinogen but its carcinogenicity in humans is unclear. There is some evidence for an elevation in liver and kidney cancers and somewhat more convincing evidence of an association with non-Hodgkin lymphoma (NHL) in epidemiological studies of occupationally exposed cohorts. Overall, the carcinogenicity of TCE and its regulation is a matter of continuing debate despite an extensive database of in vitro and in vivo animal studies and several cohort and case-control studies. IARC categorizes TCE as a probable human carcinogen. In order to address questions about TCE's potential carcinogenicity and mechanism of action in humans, we propose to conduct a cross-sectional study of early biologic effect biomarkers of genotoxicity and immunotoxicity in 45 workers exposed to greater than 25 ppm TCE, 30 workers exposed to 10-25 ppm TCE, and 45 unexposed controls in Guangdong Province, China. We will assess TCE exposure level quantitatively, collect other exposure information through a questionnaire, collect biological samples, and assay a series of biomarkers of susceptibility, intermediate and early biologic effects. Our primary goal is to determine if TCE exposure increases chromosomal aberrations in peripheral lymphocytes, with a secondary goal of determining if TCE alters levels of key cytokines in plasma and changes lymphocyte subset ratios. In addition, our collaborators at UC Berkeley will apply a new generation of cytogenetic and molecular techniques to study TCE's ability to cause specific types of chromosomal aberrations that have been associated with NHL and related hematological malignancies as well as the impact of TCE on mRNA expression and the proteome. The work will compliment previous and ongoing OEEB studies of populations exposed to TCE and has the potential to make an important contribution to what little is known about the early biologic effects of TCE in humans.