Abstract
The emerging tumor microenvironment (TME) is a complex and constantly evolving entity. Cancer-associated fibroblasts (CAFs) are a vital component of the TME with diverse functions. They interact closely with cancer cells through reciprocal signaling and play a crucial role in tumor progression. Exosomes, which contain diverse biological information, are identified as an important mediator of cell-cell communication. This study aimed to investigate how CAF-derived exosomes promote metastasis of endometrial cancer (EC). Our findings revealed that CAF-derived exosomes significantly enhanced EC cell proliferation and migration compared to normal fibroblast-derived exosomes. Quantitative proteomics analysis of CAF/NF-derived exosomes demonstrated differential expression of CTHRC1, a protein overexpressed in multiple tumors, promoting cancer progression through enhanced cell migration and invasion. Exosomal overload of CTHRC1 significantly contributes to EC cell migration. Mechanically, we determined that ITGB3 was immunoprecipitated by CTHRC1 and phosphorylated FAK on Tyr397, which was important for exosomal CTHRC1 mediated migratory ability of EC cells. Overexpression of CTHRC1 in secreted exosomes promotes the metastatic ability of EC cells in mouse models and may be eliminated by Defactinib, an inhibitor of FAK Tyr397 phosphorylation. Moreover, overexpression of CTHRC1 was increased in EC patients, elevating with cancer progression, and correlated with negative tumor prognosis. Our results revealed that CAF mediated endometrial cancer progression is related to high levels of CTHRC1 and exosomal CTHRC1 derived from CAF may be a promising therapeutic strategy for metastatic endometrial cancer.