Timosaponin AIII Induces Lipid Peroxidation and Ferroptosis by Enhancing Rab7-Mediated Lipophagy in Colorectal Cancer Cells

•Colorectal cancer cells treated with TA-III exhibit Rab7-Mediated ferroptosis, as demonstrated for the first time by our study.•The process of lipophagy triggers the breakdown of lipid droplets, leading to the induction of lipid peroxidation and subsequent ferroptotic cell death.•The accumulation of excess fatty acids within cells results in mitochondrial impairment and subsequent overproduction of reactive oxygen species, leading to cellular damage. [Display omitted] Background: Colorectal cancer (CRC) is a common digestive system malignancy, and despite significant therapeutic advancements, more effective treatments are needed. Timosaponin AIII (TA-III), a major steroidal saponin derived from Anemarrhena asphodeloides Bge, is a potential anticancer agent. Ferroptosis plays an important role in cancer treatment. Purpose: To investigate the molecular mechanism of TA-III as a novel ferroptosis inducer in suppressing CRC through lipophagy. Ferroptosis, an autophagy-dependent mode of cell death, has been implicated in CRC. Methods: CRC cells were treated with TA-III, and lipophagy levels were evaluated via BODIPY493/503 staining and western blotting. Autophagy turnover was tracked using GFP-RFP-LC3B. Lipid peroxidation was quantified using an malondialdehyde kit and C11-BODIPY flow assay. Mitochondrial morphology was observed using transmission electron microscopy. GC-MS/MS was used to detect lipid metabolism changes. The role of ras related protein Rab 7a (Rab7) was assessed by western blotting and glutathione S-transferase pull-down assays. In vivo, the anticancer efficacy of TA-III was tested using a xenograft model. Results: RNA-seq analysis unveiled the potential of TA-III as an anticancer agent through ferroptosis. In vivo experiments revealed how TA-III treatment triggered degradation of lipid droplets in CRC cells, resulting in an accumulation of FFAs, heightened unsaturated free fatty acids, and increased lipid peroxidation. These events ultimately lead to mitochondrial shrinkage and downregulation of ferroptosis markers (FSP1 and GPX4). Intriguingly, the Rab7 protein emerged as a crucial bridge between lipophagy and ferroptosis, underlining its significance in the anticancer mechanism of TA-III. Moreover, TA-III treatment in a xenograft tumour model substantially reduced tumour volume via ferroptosis, underscoring its therapeutic efficacy. Conlusion: Our study is the first to establish that TA-III triggers lipophagy in CRC cells via the Rab7 gene,