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Context-dependent regulation of ferroptosis sensitivity.

Cell chemical biology (2022-07-10)
Leslie Magtanong, Grace D Mueller, Kevin J Williams, Maximilian Billmann, Katherine Chan, David A Armenta, Lauren E Pope, Jason Moffat, Charles Boone, Chad L Myers, James A Olzmann, Steven J Bensinger, Scott J Dixon
RÉSUMÉ

Ferroptosis is an important mediator of pathophysiological cell death and an emerging target for cancer therapy. Whether ferroptosis sensitivity is governed by a single regulatory mechanism is unclear. Here, based on the integration of 24 published chemical genetic screens combined with targeted follow-up experimentation, we find that the genetic regulation of ferroptosis sensitivity is highly variable and context-dependent. For example, the lipid metabolic gene acyl-coenzyme A (CoA) synthetase long chain family member 4 (ACSL4) appears far more essential for ferroptosis triggered by direct inhibition of the lipid hydroperoxidase glutathione peroxidase 4 (GPX4) than by cystine deprivation. Despite this, distinct pro-ferroptotic stimuli converge upon a common lethal effector mechanism: accumulation of lipid peroxides at the plasma membrane. These results indicate that distinct genetic mechanisms regulate ferroptosis sensitivity, with implications for the initiation and analysis of this process in vivo.

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