Circulating tumor cells are fundamental to the concept of a liquid biopsy for cancer.  These cells are shed from the primary tumor and are carried in the blood to remote sites, potentially leading to metastasis formation.  Understanding more about this process is critical as tumor metastasis is a leading cause of cancer death.  Yet this is challenging as the number of circulating tumor cells in an individual is very small, making them difficult to study in detail.

Cell lines derived from circulating tumor cells can be created to overcome this problem.  This has been done in colon cancer, for example, and enables researchers to examine molecular and functional differences between the circulating tumor cells and those from the primary tumor.  In this way, researchers may further our ability to identify and characterize cells that initiate metastasis and to ultimately develop new therapies to stop them.

An original report in the January 2017 issue of Clinical Chemistry describes the differential gene expression between colon cancer cell lines derived from circulating tumor cells and the primary tumor.  Dr. Catherine Alix-Panabières is the primary author of this article and joins us for this podcast.