Lethal
lipid peroxidation caused by reactive oxygen species occurs
in different types of programmed cell death, especially in ferroptosis.
Ferroptosis inducers, which serve as small-molecule probes, can provide
insight into the mechanism of ferroptosis and facilitate drug discovery.
The classical ferroptosis inducers indirectly lead to lipid peroxidation;
thus, it is difficult to explore lipid regulation during the ferroptotic
process. In this study, we designed two quinazolinone-based lipophilic
probes BODIQPy-TPA and QPy-TPA, which proved
to directly induce lipid peroxidation by light irradiation in vitro.
The probe BODIQPy-TPA, which was mainly distributed in
the endoplasmic reticulum (ER), specifically triggered ferroptosis
in B16 and HepG2 cells upon light irradiation. As a comparison, the
probe QPy-TPA, which was mainly distributed in lipid
droplets (LDs), induced cell death by a nonferroptotic pathway. Further
lipidomic analysis revealed that these two probes caused different
patterns of lipid regulation and lipid peroxidation, suggesting that
ferroptosis might activate distinct lipid regulation.