Abstract

Current human health risk assessment for perfluorooctanoic acid (PFOA) has proven inadequate due to a lack of innovative approaches. Here, we applied benchmark dose-response modeling to derive benchmark concentrations (BMCs) for apical and transcriptomic changes in human endothelial cells EA.hy926 following both high-concentration short-term (48 h) and human-relevant long-term (6 and 12 weeks) PFOA exposures. BMCs were translated into human equivalent doses (HEDs) using a physiologically based toxicokinetic model. Long-term exposure produced sensitive biological responses: 10th percentile HEDs for apical and transcriptomic data were 0.59 and 3.84 ng/kg bw/week, respectively, both below the estimated U.S. general population exposure level (9.91 ng/kg bw/week). Predicted 10th percentile HED thresholds in individuals with certain conditions were: end-stage renal disease 0.50 ng/kg bw/week, moderate to severe reductions in glomerular filtration rate 0.18–1.00 ng/kg bw/week, cirrhosis class A 0.18 ng/kg bw/week, NAFLD 0.79 ng/kg bw/week, and class 1 obesity 0.43 ng/kg bw/week, compared to healthy individuals (1.18 ng/kg bw/week), suggesting that PFOA can elicit adverse effects in endothelial cells at exposure levels below those currently experienced by the general population. Given the global prevalence of health conditions investigated in this study, a substantial portion of the population may face increased vulnerability to PFOA-induced health effects.

By Marija Opacic, Nemanja Todorovic, Mladena Lalic-Popovic, Bojana Stanic, Nebojsa Andric