Tamoxifen remains the most effective treatment for estrogen receptor α (ERα)-positive breast cancer. However, many patients still develop resistance to tamoxifen in association with metastatic recurrence, which presents a tremendous clinical challenge. To better understand tamoxifen resistance from the perspective of the tumor microenvironment, the whole microenvironment landscape is charted by single-cell RNA sequencing and a new cancer-associated fibroblast (CAF) subset, CD63+ CAFs, is identified that promotes tamoxifen resistance in breast cancer. Furthermore, it is discovered that CD63+ CAFs secrete exosomes rich in miR-22, which can bind its targets, ERα and PTEN, to confer tamoxifen resistance on breast cancer cells. Additionally, it is found that the packaging of miR-22 into CD63+ CAF-derived exosomes is mediated by SFRS1. Furthermore, CD63 induces STAT3 activation to maintain the phenotype and function of CD63+ CAFs. Most importantly, the pharmacological blockade of CD63+ CAFs with a CD63-neutralizing antibody or cRGD-miR-22-sponge nanoparticles enhances the therapeutic effect of tamoxifen in breast cancer. In summary, the study reveals a novel subset of CD63+ CAFs that induces tamoxifen resistance in breast cancer via exosomal miR-22, suggesting that CD63+ CAFs may be a novel therapeutic target to enhance tamoxifen sensitivity.
Keywords: breast cancer; cancer‐associated fibroblasts; exosomes; miR‐22; tamoxifen.
© 2020 The Authors. Published by Wiley‐VCH GmbH.