“We are looking for novel ways of preventing cancer cells of the primary tumor from spreading to other parts of the body. Our study points to potential therapeutic targets that could be inhibited to halt tumor cell movement,” says principal investigator Cynthia Reinhart-King, PhD.
The body’s tissue is full of small gaps in between the different proteins and cells that make it up. Much of the research into tumor cell migration, however, has represented the tissue as a solid gel. While this model has been useful in understanding how tumor cell invade, scientists are not sure if moving through an environment with non-uniform consistency, like the body, involves the same machinery. Some studies have supported that preexisting spaces and tracks join together into tunnels that tumor cells can use to migrate and spread.
In this new study, the research team examined how tumor cells moved through a more accurate model of the tissue environment that included cell-sized tracks compared with a uniform environment with no paths. “Numerous groups, including our own, have studied how cells move. We now know, however, that how cells move depends on the structure of the environment in which they are moving. Ours is the first study to rebuild the native tracks and gaps that exist in tissue to investigate how cells use these as superhighways to move quickly to spread throughout the body,” says Reinhart-King.
The investigators found that when working through an environment with no pre-existing tracks, tumor cells had to actively stick to the tissue, break it down and then move themselves forward. In contrast, moving through tissue with paths was much easier because once the cells found the tunnels, they could avoid their tissue-clearing processes and pass through unhampered.
These findings support that tumor cells prefer pre-formed tunnels because they allow the cells to move easier. The study also suggests that targeting the machinery that makes cells mobile, rather than targeting the tissue-clearing process — which has been tested in patients but has not been very effective — may be a better treatment strategy to stop cancers from spreading.