Malignant pleural mesothelioma: new mechanism of spread discovered
For example, in some instances, such as embryonic development or wound healing, it is essential for cells that are anchored in one spot to be able to migrate. To allow this to happen, a complex modification process is initiated within the cell. This is known as epithelial-mesenchymal transition (EMT). As a result of EMT, the cells change their properties and their appearance. Cells that were once epithelial cells with high cell-cell adhesion and therefore immovable, transform into mesenchymal cells. These are cells with no fixed cell junctions that are therefore able to migrate and spread.
Michael Grusch, molecular biologist at the Institute of Cancer Research and member of the Comprehensive Cancer Center (CCC) of MedUni Vienna/Vienna General Hospital and one of the two principal investigators explains: "EMT plays a key role in the development of metastases and in local spread. Especially in the aggressive forms of malignant pleural mesothelioma, we could see that the tumour cells are very similar in appearance to mesenchymal cells. In a petri dish, we have now investigated which biological signals cause the cancer cells to take on the characteristics of these mesenchymal cells."
The researchers found that, in aggressive malignant pleural mesothelioma, EMT is triggered by defined signals. These are, in fact, a group of so-called fibroblast growth factors (FGF2) and epidermal growth factors (EGF). These signaling substances bind to receptors on the surface of the tumour cells and forward the signal to modify into the cell interior.
Says Karin Schelch, Institute of Cancer Research of MedUni Vienna, member of the CCC and lead author of the study: "If FGF2 and EGF are in play, the tumour subtype becomes more aggressive."
Signal blockade as new therapeutic approach
In a further step, the researchers showed that tumour cells lost their aggressive characteristics again as soon as they encountered substances that blockade the effect of FGF2 and EGF. Says Mir Ali Reza Hoda, Department of Surgery of MedUni Vienna/Vienna General Hospital, member of the Comprehensive Cancer Center (CCC) of the two institutions and second lead author: "Our results help to provide a better understanding of the disease. Blockading these signals could therefore offer new approaches for treating certain aggressive forms of mesothelioma.
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