New Information On The Spread Of Cancer Discovered

New Information On The Spread Of Cancer Discovered
A new study shows that intracellular receptor signalling sustains cancer cells that have detached from the surrounding tissue. When the signalling is prevented, the cells cannot spread to other parts of the body. This significant research result, published in Nature Cell Biology, influences how cancer research is directed in the future.
 
The researchers have discovered completely new information on how cells internally transmit signals and copy vital messages they receive from their surroundings. The research shows that wandering cancer cells that have detached from the surrounding tissue sustain themselves with intracellular receptor signalling.
 
For decades, researchers have known that each cell has a particular place in the human body and that it has to be connected to tissue in order to survive. This involves cell adhesion receptors called integrins, which signal particular messages that are necessary for the cell's survival. However, cancer cells spreading from one organ to another have developed ways that enable them to remain alive even when they are not attached to tissue.
 
Researchers have known for a long time about the ability of integrins to operate inside cells, and changes in the function of receptors leads to malignant changes within the cell - even to the spread of cancer.
 
"These new research results show for the first time that the messages transmitted by the integrins about the cell's surroundings, information which is necessary for its survival, are dependent on the intracellular receptor signalling," the researchers said.
 
Microscope images revealed that integrins transmit messages about particular intracellular structures called endosomes. This enables signalling for longer periods of time and even copying messages. Therefore, preventing intracellular receptor signalling will reduce the cancer cells' ability to survive when detached from tissue and hence curtail the spread of cancer.
 
Based on material originally posted by Academy of Finland.