Cancer-associated fibroblasts suppress ferroptosis and induce gemcitabine resistance in pancreatic cancer cells by secreting exosome-derived ACSL4-targeting miRNAs
Ran Qi, Yixuan Bai, Kun Li, Nanbin Liu, Yan Xu, Emre Dal, Yufeng Wang, Rui Lin, Hui Wang, Zhongyan Liu, Xinbo Li, Xiuyan Wang, Baomin Shi
Journal:DRUG RESISTANCE UPDATES
IF:24.3
DOI:10.1016/j.drup.2023.100960
PMID:37003125
Published:2023-03-28
research field:肿瘤学分子生物学癌症生物学
Abstract
Background Pancreatic cancer continues to be one of the world's most lethal cancers. Chemotherapy resistance in patients with advanced pancreatic cancer often accompany with dismal prognosis, highlighting the need to investigate mechanisms of drug resistance and develop therapies to overcome chemoresistance. Methods This research was filed with the Chinese Clinical Trial Registry (ChiCTR2200061320). In order to isolate primary normal fibroblasts (NFs) and cancer-associated fibroblasts (CAFs) samples of pancreatic ductal adenocarcinoma (PDAC) and paracancerous pancreatic tissue from individuals diagnosed with PDAC were obtained. The exosomes were obtained using ultracentrifugation, and their characteristics were determined by Western blotting, nanoparticle tracking analysis, and transmission electron microscopy. CAF-derived miRNAs were analyzed by RT-qPCR and high-throughput sequencing. Gemcitabine (GEM) was employed to promote ferroptosis, and ferroptosis levels were determined by monitoring lipid reactive oxygen species (ROS), cell survival, and intracellular Fe 2+ concentrations. To assess in vivo tumor response to GEM therapy, a xenograft tumor mouse model was utilized. Results Exosomes derived from CAFs in PDAC did not exhibit innate GEM resistance. CAFs promoted chemoresistance in PDAC cells following GEM treatment by secreting exosomes, and maintaining signaling communication with cancer cells. Mechanistically, miR-3173–5p derived from CAF exosomes sponged ACSL4 and inhibited ferroptosis after uptake by cancer cells. Conclusion This work demonstrates a novel mode of acquired chemoresistance in PDAC and identifies the miR-3173–5p/ACSL4 pathway as a promising treatment target for GEM-resistant pancreatic cancer.
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