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Identification of structurally diverse FSP1 inhibitors that sensitize cancer cells to ferroptosis
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ABSTRACT
Ferroptosis is a regulated form of cell death associated with the iron-dependent accumulation of lipid peroxides. Inducing ferroptosis is a promising approach to treat therapy resistant cancer. Ferroptosis suppressor protein 1 (FSP1) promotes ferroptosis resistance in cancer by generating the antioxidant form of coenzyme Q10 (CoQ). Despite the important role of FSP1, few molecular tools exist that target the CoQ-FSP1 pathway. Exploiting a series of chemical screens, we identify several structurally diverse FSP1 inhibitors. The most potent of these compounds, ferroptosis sensitizer 1 (FSEN1), is an uncompetitive inhibitor that acts selectively through on target inhibition of FSP1 to sensitize cancer cells to ferroptosis. Furthermore, a synthetic lethality screen reveals that FSEN1 synergizes with endoperoxide-containing ferroptosis inducers, including dihydroartemisinin, to trigger ferroptosis. These results provide new tools that catalyze the exploration of FSP1 as a therapeutic target and highlight the value of combinatorial therapeutic regimes targeting FSP1 and additional ferroptosis inducers.
Title: Identification of structurally diverse FSP1 inhibitors that sensitize cancer cells to ferroptosis
Description:
ABSTRACT
Ferroptosis is a regulated form of cell death associated with the iron-dependent accumulation of lipid peroxides.
Inducing ferroptosis is a promising approach to treat therapy resistant cancer.
Ferroptosis suppressor protein 1 (FSP1) promotes ferroptosis resistance in cancer by generating the antioxidant form of coenzyme Q10 (CoQ).
Despite the important role of FSP1, few molecular tools exist that target the CoQ-FSP1 pathway.
Exploiting a series of chemical screens, we identify several structurally diverse FSP1 inhibitors.
The most potent of these compounds, ferroptosis sensitizer 1 (FSEN1), is an uncompetitive inhibitor that acts selectively through on target inhibition of FSP1 to sensitize cancer cells to ferroptosis.
Furthermore, a synthetic lethality screen reveals that FSEN1 synergizes with endoperoxide-containing ferroptosis inducers, including dihydroartemisinin, to trigger ferroptosis.
These results provide new tools that catalyze the exploration of FSP1 as a therapeutic target and highlight the value of combinatorial therapeutic regimes targeting FSP1 and additional ferroptosis inducers.
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