Tumor-derived microvesicles: shedding light on novel microenvironment modulators and prospective cancer biomarkers

C D'Souza-Schorey, JW Clancy - Genes & development, 2012 - genesdev.cshlp.org
Genes & development, 2012genesdev.cshlp.org
Recent advances in the study of tumor-derived microvesicles reveal new insights into the
cellular basis of disease progression and the potential to translate this knowledge into
innovative approaches for cancer diagnostics and personalized therapy. Tumor-derived
microvesicles are heterogeneous membrane-bound sacs that are shed from the surfaces of
tumor cells into the extracellular environment. They have been thought to deposit paracrine
information and create paths of least resistance, as well as be taken up by cells in the tumor …
Recent advances in the study of tumor-derived microvesicles reveal new insights into the cellular basis of disease progression and the potential to translate this knowledge into innovative approaches for cancer diagnostics and personalized therapy. Tumor-derived microvesicles are heterogeneous membrane-bound sacs that are shed from the surfaces of tumor cells into the extracellular environment. They have been thought to deposit paracrine information and create paths of least resistance, as well as be taken up by cells in the tumor microenvironment to modulate the molecular makeup and behavior of recipient cells. The complexity of their bioactive cargo—which includes proteins, RNA, microRNA, and DNA—suggests multipronged mechanisms by which microvesicles can condition the extracellular milieu to facilitate disease progression. The formation of these shed vesicles likely involves both a redistribution of surface lipids and the vertical trafficking of cargo to sites of microvesicle biogenesis at the cell surface. Current research also suggests that molecular profiling of these structures could unleash their potential as circulating biomarkers as well as platforms for personalized medicine. Thus, new and improved strategies for microvesicle identification, isolation, and capture will have marked implications in point-of-care diagnostics for cancer patients.
genesdev.cshlp.org