Environmental toxin chlorpyrifos induces liver injury by activating P53-mediated ferroptosis via GSDMD-mtROS

Abstract

AimWe investigate the mechanism whereby chlorpyrifos (CHI), an environmental toxin, causes liver injury by inducing ferroptosis in hepatocytes. MethodsThe 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. ResultsWe 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. ConclusionCHI 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.