WBP1 regulates mitochondrial function and ferroptosis to modulate chemoresistance in colorectal cancer.

Chemoresistance continues to pose a significant challenge in managing colorectal cancer (CRC), resulting in unfavorable outcomes for patients. Recent findings indicate that ferroptosis, an innovative type of regulated cell death, might influence chemoresistance. In this research, we explored how WW domain-binding protein 1 (WBP1) affects mitochondrial function, cell growth, ferroptosis, and chemoresistance in CRC cells. By employing both genetic and pharmacological methods, we found that WBP1 is essential for maintaining mitochondrial respiration in CRC cells. WBP1 depletion impaired mitochondrial function, leading to reduced cell proliferation and increased ferroptosis. Exogenous mitochondria from wild-type cells restored mitochondrial function, cell proliferation, and suppressed ferroptosis in WBP1-deficient cells, indicating that mitochondrial function acts downstream of WBP1. Importantly, we demonstrated that targeting WBP1 or its mediated mitochondrial function sensitized chemoresistant CRC cells to 5-fluorouracil and oxaliplatin by inducing ferroptosis. Furthermore, we analyzed transcriptome data from CRC patients, which indicated that increased WBP1 expression correlated with poor outcomes for patients receiving chemotherapy, thus highlighting the clinical significance of our observations. Collectively, our results pinpoint WBP1 as a significant modulator of mitochondrial function and ferroptosis in CRC cells and imply that targeting WBP1 may represent a viable approach to tackling chemoresistance. These insights offer a deeper understanding of the molecular pathways underlying CRC chemoresistance and may guide the development of new treatment options.