Cen Si-Yu, Lin Fang, Li Xuan, Hu Yanglin, Liu Jin-Pin, Xue Zian, Gao Yun, Sun Yi-Ping, Zhu Sanyong, Dang Yongjun, Zhao Yahui, Yuan Hai-Xin
The Fifth People's Hospital of Shanghai, Molecular and Cell Biology Laboratory, Institutes of Biomedical Sciences, Fudan University, Shanghai, 200032, China.
College of Pharmacy & Department of Cancer Center, the Second Affiliated Hospital, Chongqing Medical University, Chongqing, 400016, China.
Cell Death Discov. 2024 Aug 12;10(1):360. doi: 10.1038/s41420-024-02127-8.
Ferroptosis is a specific form of cell death characterized by excessive accumulation of cellular lipid peroxides. Ferroptosis is closely associated with various diseases, inhibition of which may help alleviate multi-organ injury caused by ischemia-reperfusion and enhance the anti-tumor effect by promoting the immunity of T cells. However, clinical approved drugs targeting ferroptosis process remain rare. In this study, we unexpectedly found that (R)-crizotinib, the first-generation ALK inhibitor, has potent inhibitory activity against ferroptosis across various cell lines. Moreover, its chiral molecule (S)-crizotinib, which was considered to share no common targets with (R)-crizotinib, also suppresses ferroptosis with an efficacy similar to that of (R)-crizotinib. We further demonstrated that both crizotinib enantiomers inhibit ferroptosis independently of their known targets, but through a common mechanism involving the targeting of AGPAT3-mediated synthesis of ether-linked polyunsaturated fatty acids (PE-O-PUFA), which are known to promote lipid-ROS generation and ferroptosis. In line with their activity in cell lines, (R)-crizotinib and (S)-crizotinib effectively mitigate renal ischemia-reperfusion injury in mice. Furthermore, the two compounds also inhibit lipid-ROS accumulation in CD8 T cells in draining lymph nodes of B16-F10 subcutaneous xenograft mice, thereby promoting anti-tumor effects. Collectively, our study firstly reports a common activity shared by (R)-crizotinib and (S)-crizotinib in ferroptosis regulation. As a clinically approved drug, (R)-crizotinib has well-established pharmacokinetics and safety, which makes it a promising candidate for repurposing. Given the current lack of FDA-approved ferroptosis inhibitors, our findings suggest therapeutically repurposing (R)-crizotinib as well as its enantiomer (S)-crizotinib for treating ferroptosis-related diseases.
铁死亡是一种特殊形式的细胞死亡,其特征是细胞脂质过氧化物过度积累。铁死亡与多种疾病密切相关,抑制铁死亡可能有助于减轻缺血再灌注引起的多器官损伤,并通过增强T细胞免疫来提高抗肿瘤效果。然而,临床批准的靶向铁死亡过程的药物仍然很少。在本研究中,我们意外地发现,第一代ALK抑制剂(R)-克唑替尼对多种细胞系的铁死亡具有强大的抑制活性。此外,其手性分子(S)-克唑替尼,被认为与(R)-克唑替尼没有共同靶点,也能抑制铁死亡,其效果与(R)-克唑替尼相似。我们进一步证明,两种克唑替尼对映体均独立于其已知靶点抑制铁死亡,而是通过一种共同机制,即靶向AGPAT3介导的醚键连接的多不饱和脂肪酸(PE-O-PUFA)合成,已知这些脂肪酸会促进脂质ROS生成和铁死亡。与它们在细胞系中的活性一致,(R)-克唑替尼和(S)-克唑替尼可有效减轻小鼠肾缺血再灌注损伤。此外,这两种化合物还可抑制B16-F10皮下异种移植小鼠引流淋巴结中CD8 T细胞的脂质ROS积累,从而促进抗肿瘤作用。总体而言,我们的研究首次报道了(R)-克唑替尼和(S)-克唑替尼在铁死亡调节方面的共同活性。作为一种临床批准的药物,(R)-克唑替尼具有成熟的药代动力学和安全性,这使其成为重新利用的有前途的候选药物。鉴于目前缺乏FDA批准的铁死亡抑制剂,我们的研究结果表明,可将(R)-克唑替尼及其对映体(S)-克唑替尼重新用于治疗铁死亡相关疾病。
