Transition loses its invasive edge

Abstract

Two studies provide evidence that epithelial tumour cells do not need to transition to a mesenchymal-cell state to form metastases, but that this process does contribute to drug resistance. See Article p.472 & Letter p.525 It has been suggested that epithelial-to-mesenchymal transition (EMT), in which epithelial cells depolarize and adopt a fibroblast-like morphology, is a requirement for metastasis to occur. Other studies imply that the importance of EMT relies on cell-culture-based manipulation of EMT regulators. In this issue of Nature, two groups present results that suggest that EMT is not a prerequisite for metasasis. Dingcheng Gao and colleagues trace the fate of cells that have undergone EMT in mouse model for breast-to-lung metastasis. They find that although some cells undergo EMT in a primary epithelial tumour, the lung metastases mainly contain cells that have not undergone EMT. However, cells that have undergone EMT appear more resistant to chemotherapy. A microRNA that targets key EMT regulators is shown not to affect metastasis, but to reduce survival of EMT cells following chemotherapy. Raghu Kalluri and colleagues delete Twist or Snail — transcription factors that induce EMT — in a mouse model for pancreatic ductal adenocarcinoma. This leads to an increase in cell proliferation, and a greater sensitivity to chemotherapeutic agent gemcitabine, with no effect on invasion and metastasis.