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. 2025 May;6(5):768-785.
doi: 10.1038/s43018-025-00937-y. Epub 2025 Mar 19.

Palmitoylation of GPX4 via the targetable ZDHHC8 determines ferroptosis sensitivity and antitumor immunity

Liang Zhou  1 Guangyu Lian  1 Tao Zhou  1 Zhe Cai  2 Shuai Yang  1 Weining Li  1 Lilin Cheng  1 Ying Ye  3 Mingfeng He  4 Jianru Lu  1 Qifeng Deng  1 Bihui Huang  5 Xiaoqian Zhou  6 Desheng Lu  7 Feng Zhi  8 Jun Cui  9
Affiliations

Palmitoylation of GPX4 via the targetable ZDHHC8 determines ferroptosis sensitivity and antitumor immunity

Liang Zhou et al. Nat Cancer. 2025 May.

Abstract

Ferroptosis is closely linked with various pathophysiological processes, including aging, neurodegeneration, ischemia-reperfusion injury, viral infection and, notably, cancer progression; however, its post-translational regulatory mechanisms remain incompletely understood. Here we revealed a crucial role of S-palmitoylation in regulating ferroptosis through glutathione peroxidase 4 (GPX4), a pivotal enzyme that mitigates lipid peroxidation. We identified that zinc finger DHHC-domain containing protein 8 (zDHHC8), an S-acyltransferase that is highly expressed in multiple tumors, palmitoylates GPX4 at Cys75. Through small-molecule drug screening, we identified PF-670462, a zDHHC8-specific inhibitor that promotes the degradation of zDHHC8, consequently attenuating GPX4 palmitoylation and enhancing ferroptosis sensitivity. PF-670462 inhibition of zDHHC8 facilitates the CD8+ cytotoxic T cell-induced ferroptosis of tumor cells, thereby improving the efficacy of cancer immunotherapy in a B16-F10 xenograft model. Our findings reveal the prominent role of the zDHHC8-GPX4 axis in regulating ferroptosis and highlight the potential application of zDHHC8 inhibitors in anticancer therapy.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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