Cystine and methionine deficiency promotes ferroptosis by inducing b-cell translocation gene 1

Abstract

Ferroptosis is a type of programmed necrosis triggered by iron-dependent lipid peroxida-tion. We investigated the role of B-cell translocation gene 1 (BTG1) in cystine and methionine deficiency (CST/Met (–))-mediated cell death. CST/Met (–) depleted reduced and oxidized glutathione in hepatocyte-derived cells, increased prostaglandin-endoperoxide synthase 2 expression, and pro-moted reactive oxygen species accumulation and lipid peroxidation, as well as necrotic cell death. CST/Met (–)-mediated cell death and lipid peroxidation was specifically inhibited by pretreatment with ferroptosis inhibitors. In parallel with cell death, CST/Met (–) blocked global protein transla-tion and increased the expression of genes associated with the integrated stress response. Moreover, CST/Met (–) significantly induced BTG1 expression. Using a BTG1 promoter-harboring reporter gene and siRNA, activating transcription factor 4 (ATF4) was identified as an essential transcription factor for CST/Met (–)-mediated BTG1 induction. Although knockout of BTG1 in human HAP1 cells did not affect the accumulation of reactive oxygen species induced by CST/Met (–), BTG1 knockout significantly decreased the induction of genes associated with the integrated stress response, and reduced lipid peroxidation and cell death in response to CST/Met (–). The results demonstrate that CST/Met (–) induces ferroptosis by activating ATF4-dependent BTG1 induction.