Investigating the cytotoxicity of per- and polyfluoroalkyl substances in HepG2 cells: A structure-activity relationship approach

Per-and polyfluoroalkyl substances (PFAS) are a family of man-made chemicals with currently over 4'700 compounds identified. While toxicological data are available for some of the legacy PFAS, such as PFOA and PFOS, a knowledge gap remains concerning both emerging and legacy PFAS' toxicity due to the diversity of the PFAS. Therefore, a better understanding of the PFAS structure-activity relationship may prove helpful. The present study investigated a potential structure-activity relationship between PFAS and hepatotoxicity. As such, the effects of thirteen PFAS with varying carbon chain-length and functional head-groups (in a concentration range of 0-800 mu M) on the cell viability of HepG2 cells and intracellular reactive oxygen species formation have been tested using the MTT and DCFH assay, respectively. The exposure times were either 3 or 24 h. In addition, intracellular PFAS levels were determined in HepG2 after 24 h exposure. The present study demonstrated that the cytotoxicity of PFAS is dependent on their chain-length as cell viability decreased with increasing chain -length at both exposure times. Calculated Relative Potency Factors (RPF), based on the TC50 values, were used for a tentative ranking of PFAS regarding their hepatotoxicity: PFNA > PFDA > PFOS >= PFOA > PFHxS > PFBS >> PFHpA = PFHxA = PFBA = PFPrA = 6:2 FTOH = 4:2 = FTOH = 3:1 FTOH. Similar results were observed regarding intracellular reactive oxygen species generation at both exposure times, with a tentative ranking of: PFNA > PFOS > PFOA >= PFDA > PFHxS > PFBS > PFBA > PFHpA >= PFHxA > PFPrA > 6:2 FTOH = 4:2 FTOH = 3:1 FTOH. Moreover, a concentration-dependent reactive oxygen species generation has been observed for all PFSAs and PFCAs, but not for the FTOHs. In conclusion, the carbon chain-length and functional head -group of a PFAS determine their in vitro toxicity for the two toxicological endpoints assessed in the present study. Moreover, no effects were observed for the tested FTOHs. As such, the present study established a po-tential structure-activity relationship that opens the possibility of developing a predictive model to help with the risk assessment of PFAS in the future.

Automated summary

This study investigated the structure-activity relationship between per- and polyfluoroalkyl substances (PFAS) and hepatotoxicity. The results showed that the carbon chain-length and functional head-group of PFAS determine their toxicity, providing the possibility of developing a predictive model for risk assessment.