Author
Listed:
- Yuma Saimoto
(Kyushu University)
- Daiki Kusakabe
(Kyushu University)
- Kazushi Morimoto
(Kyushu University)
- Yuta Matsuoka
(Kyushu University
Kyoto University)
- Eisho Kozakura
(Kyushu University)
- Nao Kato
(Kyushu University)
- Kayoko Tsunematsu
(Kyushu University)
- Tomohiro Umeno
(Showa Pharmaceutical University)
- Tamiko Kiyotani
(Showa Pharmaceutical University)
- Shota Matsumoto
(Showa Pharmaceutical University)
- Mieko Tsuji
(Gifu Pharmaceutical University)
- Tasuku Hirayama
(Gifu Pharmaceutical University)
- Hideko Nagasawa
(Gifu Pharmaceutical University)
- Koji Uchida
(The University of Tokyo)
- Satoru Karasawa
(Showa Pharmaceutical University)
- Mirinthorn Jutanom
(Kyushu University)
- Ken-ichi Yamada
(Kyushu University)
Abstract
Ferroptosis, a form of cell death instigated by iron-dependent lipid peroxidation reactions (LPO), is emerging as a promising therapeutic target for cancer. While the mechanisms governing LPO induction and suppression have gradually been unveiled, questions persist regarding the specific cellular location of LPO and the utilization of iron in driving cell death. A comprehensive understanding of these aspects holds significant potential for advancing therapeutic applications in disease management. Here, we show lysosomal LPO in the initiation of ferroptosis, leveraging the hidden abilities of fluorescent detection probes. Intra-lysosomal LPO triggers iron leakage, fostering cell-wide LPO by augmenting lysosomal membrane permeabilization (LMP). Conversely, cell lines with low susceptibility to ferroptosis do not exhibit LMP. This deficiency is rectified by the concurrent administration of chloroquine, leading to LMP induction and subsequent cell death. These findings underscore enhancing LMP induction efficacy as a strategic approach to surmount resistance to therapies in cancer.
Suggested Citation
Yuma Saimoto & Daiki Kusakabe & Kazushi Morimoto & Yuta Matsuoka & Eisho Kozakura & Nao Kato & Kayoko Tsunematsu & Tomohiro Umeno & Tamiko Kiyotani & Shota Matsumoto & Mieko Tsuji & Tasuku Hirayama & , 2025.
"Lysosomal lipid peroxidation contributes to ferroptosis induction via lysosomal membrane permeabilization,"
Nature Communications, Nature, vol. 16(1), pages 1-13, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-58909-w
DOI: 10.1038/s41467-025-58909-w
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