Ecotoxicology and Environmental Safety (Jun 2023)
Environmental toxin chlorpyrifos induces liver injury by activating P53-mediated ferroptosis via GSDMD-mtROS
Abstract
Aim: We investigate the mechanism whereby chlorpyrifos (CHI), an environmental toxin, causes liver injury by inducing ferroptosis in hepatocytes. Methods: The toxic dose (LD50 = 50 μM) of CHI for inducing AML12 injury in normal mouse hepatocytes was determined, and the ferroptosis-related indices were measured, including the levels of SOD, MDA and GSH-Px, as well as the cellular content of iron ions. JC-1 and DCFH-DA assays were employed to detect the mtROS levels, the levels of mitochondrial proteins (GSDMD, NT-GSDMD), as well as the cellular levels of ferroptosis-related proteins (P53, GPX4, MDM2, SLC7A11). We knocked out the GSDMD and P53 in AML12 and observed the CHI-induced ferroptosis of ALM12 after applying YGC063, an ROS inhibitor. In animal experiments, we explored the effect of CHI on liver injury by using conditional GSDMD-knockout mice (C57BL/6 N-GSDMDem1(flox)Cya) and ferroptosis inhibitor Fer-1. Small molecule-protein docking and Pull-down assay were employed to verify the association between CHI and GSDMD. Results: We found that CHI could induce ferroptosis of AML12. CHI promoted the cleavage of GSDMD, leading to upregulation of mitochondrial NT-GSDMD expression, as well as ROS levels. P53 activation promoted the ferroptosis. Knock out of GSDMD and P53 could inhibit the CHI-induced ferroptosis, and YGC063 could also inhibit ferroptosis. In mice experiments, GSDMD knockout or Fer-1 intervention could significantly inhibit the CHI-induced liver injury. CHI promoted the cleavage of GSDMD by binding to its SER234 site. Conclusion: CHI can bind to GSDMD to promote its cleavage, while NT-GSDMD can open mitochondrial membrane to promote the mtROS release. Cytoplasmic upregulation of ROS levels can facilitate the P53-mediated ferroptosis. GSDMD-mtROS is the primary mechanism whereby CHI induces ferroptosis in hepatocytes.
