dc.description.abstract | Breast cancer is a heterogeneous disease, and different subtypes of breast cancer show
distinct cellular morphology, gene expression, metabolism, motility, proliferation, and metastatic
potential. Understanding the molecular features responsible for this heterogeneity is
important for correct diagnosis and better treatment strategies. Extracellular vesicles (EVs)
and their associated molecules have gained much attention as players in intercellular communication,
ability to precondition specific organs for metastatic invasion, and for their
potential role as circulating cancer biomarkers. EVs are released from the cells and contain
proteins, DNA, and long and small RNA species. Here we show by high-throughput small
RNA-sequencing that EVs from nine different breast cancer cell lines share common characteristics
in terms of small RNA content that are distinct from their originating cells. Most
strikingly, a highly abundant small RNA molecule derived from the nuclear 28S rRNA is
vastly enriched in EVs. The miRNA profiles in EVs correlate with the cellular miRNA expression
pattern, but with a few exceptions that includes miR-21. This cancer-associated
miRNA is retained in breast cancer cell lines. Finally, we report that EVs from breast cancer
cell lines cluster together based on their small RNA signature when compared to EVs
derived from other cancer cell lines. Altogether, our data demonstrate that breast cancer
cell lines manifest a specific small RNA signature in their released EVs. This opens up for
further evaluation of EVs as breast cancer biomarkers. | en_US |