Tag Archives: emt

Decoding the emergence of metastatic cancer stem cells

“Cells have genetic circuits that are used to switch certain behaviors on and off,” said biophysicist Eshel Ben-Jacob, a senior investigator at Rice’s Center for Theoretical Biological Physics and co-author of a new study in the Journal of the Royal Society Interface. “Though some of the circuits for metastasis have been mapped, this is the first study to examine how cancer uses two of those circuits, in concert, to produce not just cancer stem cells, but also dangerous packs of hybrid stem-like-cells that travel in groups to colonize other parts of the body.” Metastasis — the spread of cancer between organs — causes more than 90 percent of cancer deaths, but not all tumor cells can metastasize…

Device monitors key step in development of tumor metastases

“This device gives us a platform to be used in testing and comparing compounds to block or delay the epithelial-mesenchymal transition, potentially slowing the progression of cancer,” says Daniel Irimia, MD, PhD, associate director of the BioMEMS Resource Center in the MGH Department of Surgery. Normally a stage in embryonic development, EMT is important during normal wound healing and also appears to take place when epithelial cells lining bodily surfaces and cavities become malignant. Instead of adhering to each other tightly in layers, cells that have undergone EMT gain the ability to separate out, move to other parts of the body and implant themselves into the new sites. Cells that have transitioned into a mesenchymal state appear to be more resistant to cancer therapies or other measures designed to induce cell death. …

Microchip reveals how tumor cells transition to invasion

Using a microengineered device that acts as an obstacle course for cells, researchers have shed new light on a cellular metamorphosis thought to play a role in tumor cell invasion throughout the body. The epithelial-mesenchymal transition (EMT) is a process in which epithelial cells, which tend to stick together within a tissue, change into mesenchymal cells, which can disperse and migrate individually. EMT is a beneficial process in developing embryos, allowing cells to travel throughout the embryo and establish specialized tissues. But recently it has been suggested that EMT might also play a role in cancer metastasis, allowing cancer cells to escape from tumor masses and colonize distant organs…

Protein ZEB1 promotes breast tumor resistance to radiation therapy — ScienceDaily

One protein with the even more out-there name of ZEB1 (zinc finger E-box binding homeobox 1), is now thought to keep breast cancer cells from being successfully treated with radiation therapy, according to a study at The University of Texas MD Anderson Cancer Center in Houston. …

Protein ZEB1 promotes breast tumor resistance to radiation therapy

One protein with the even more out-there name of ZEB1 (zinc finger E-box binding homeobox 1), is now thought to keep breast cancer cells from being successfully treated with radiation therapy, according to a study at The University of Texas MD Anderson Cancer Center in Houston. Li Ma, Ph.D., an assistant professor of experimental radiation oncology at MD Anderson, reported in this month’s issue of Nature Cell Biology that ZEB1 may actually be helping breast tumor cells repair DNA damage caused by radiation treatment by ramping up a first-line of defense known as DNA damage response pathway. …

New function of two molecules involved in metastasis

Transcription factors are proteins that regulate gene expression. They activate or deactivate a gene’s function. Researchers at IMIM have studied the function of one of these transcription factors, Snail1, in mouse cells during the Epithelial-Mesenchymal Transition (EMT). Sandra Peiró, a researcher from the IMIM Research Group on Epithelial-Mesenchymal Transition and Tumor Progression explains: "EMT is a process consisting of converting epithelial cells, the ones covering the internal and external surfaces of the body, into what are known as mesenchymal cells. …

Gene that controls aggressiveness in breast cancer cells identified

The researchers, whose findings are published this week in the journal Cell, report that the ZEB1 gene is held in a poised state in basal non-CSCs, such that it can readily respond to environmental cues that consequently drive those non-CSCs into the dangerous CSC state. Basal-type breast carcinoma is a highly aggressive form of breast cancer. According to a 2011 epidemiological study, the 5-year survival rate for patients with basal breast cancer is 76%, compared with a roughly 90% 5-year survival rate among patients with other forms of breast cancer. …

Master regulator in cancer metastasis discovered

The transformation of sedentary, specialized cells into wandering, invasive, and unspecialized cells is called epithelial-mesenchymal transition (EMT), which is central to metastasis. EMT is a multistage process, which is accompanied by a fundamental change in cell morphology and number of genetic programs. The molecular processes that govern EMT, however, are still poorly understood. Main Switch Found The research groups of Prof. …