The Debate About Cancer Metastasis: Study Helps Resolve The Dilemma
The findings are published in the December 11 issue of the journal Cancer Cell.
In 90 percent of cancer deaths, it is the spreading of cancer, known as metastasis, which ultimately kills the patient by impacting ever-more tissues and functions until the body fails. Ten years ago, a French cancer researcher named Jean Paul Thiery hypothesized that tumor cells metastasized by exploiting a developmental process known as epithelial-to-mesenchymal transition or EMT.
EMT is seen in developing embryos whose cells transform from stationary epithelial cells into more mobile mesenchymal cells, the latter able to migrate to new locations and create new types of tissue and organs. Thiery proposed that cancer cells also switch "ON" EMT, temporarily changing attributes so that they can detach from primary tumors, enter the bloodstream and seed new tumors elsewhere. After arriving at a new location, the cancer cells then turn "OFF" the EMT program and grow into carcinoma metastases or tumors.
Thiery's hypothesis was controversial because researchers haven't been able to find supporting evidential proof in vivo. "Although this model was proposed in 2002, there have been no experiments done to attest to it in a spontaneous tumor model," said Jing Yang, PhD, associate professor of pharmacology and pediatrics and senior author of the Cancer Cell paper. "Our new study provides an in vivo demonstration of the reversible EMT in metastasis and helps to resolve the controversy on this leading theory in metastasis."
Using a mouse squamous cell carcinoma model, Jeff Tsai, PhD, a postdoctoral fellow in Yang's lab and first author of the study, with help from collaborators at the Whitehead Institute for Biomedical Research in Cambridge, MA and The Sanford-Burnham Medical Research Institute in La Jolla, showed that activation of an EMT-inducing gene called Twist1 is sufficient to turn "ON" the EMT switch and promote carcinoma cells to disseminate into blood circulation. Equally importantly, the researchers found that turning "OFF" the EMT switch at distant sites is essential for disseminated tumor cells to proliferate and form metastases. Their findings indicate that reversible EMT likely represents a key driving force in human carcinoma metastasis.
"There are many similarities between developmental EMT and EMT in metastasis," Yang said. "Both processes seem to use the same cellular machineries and signaling pathways to activate the EMT program. During embryogenesis, the EMT program tends to be more permanent and epithelial cells commit to a mesenchymal fate. Our study shows that carcinoma cells need a reversible EMT to achieve efficient metastasis. It suggests that EMT reversion could be a critical step to wake up tumor cells from dormancy, a phenomenon in which cancer patients develop metastasis years after the initial primary tumor diagnosis and removal."
It's not entirely known how Twist1 becomes active in primary tumors, though previous studies have pointed to factors like hypoxia and inflammation in the tumor microenvironment. Researchers do not know exactly how Twist1 is "turned off at distant organs." Yang said these are subjects of current experiments.
More broadly, the published findings suggest that more research is needed to determine how to target EMT to combat cancer metastasis. Several pharmaceuticals and research institutes are already pursuing EMT inhibitors as possible cancer treatments.
"Since reversion of EMT promotes colonization and growth of metastases, this study actually cautions that therapies inhibiting EMT could be counterproductive in preventing distant metastases when patients already present circulating tumor cells. Instead, blocking EMT reversion may prevent dormant tumor cells from establishing metastases."
Co-authors of the paper include Sandra Chau, Department of Pharmacology, UCSD School of Medicine; Joana Liu Donaher, Whitehead Institute for Biomedical Research; and Danielle A. Murphy, The Sanford-Burnham Medical Research Institute.
Funding came, in part, from the American Cancer Society, the National Institutes of Health, the Sidney Kimmel Foundation for Cancer Research, California Breast Cancer Research program, University of California Cancer Research Coordinating Committee, UCSD Cancer Center Training Program in Drug Development and UCSD Cancer Center Specialized Support Grant.
University of California - San Diego
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