An international team of researchers has uncovered a new mechanism that enables cancer cells to move throughout the body, providing a potential new target to stop metastasis, which is responsible for 90 percent of cancer deaths.
In findings published in Nature, the team identifies that cancer cells move faster when they are surrounded by thicker fluids, a change that occurs when lymph drainage is compromised by a primary tumor.
“This is really the first time that the viscosity of the extracellular fluid has been looked at in detail,” says John D. Lewis, professor and Bird Dogs Chair in Translational Oncology at the University of Alberta’s Faculty of Medicine & Dentistry. “Now that we know that fluid viscosity signals cancer cells to move in a specific way, we can potentially use drugs to basically short-circuit that signaling pathway and encourage cancer cells to slow down, or even maybe to stop.”
The Lewis lab was invited to join the project led by researchers at Johns Hopkins University, because of its expertise in imaging human cancer cells in real-time motion using the placenta-like chorioallantoic membrane from fertilized chicken eggs.
“I would say we’re the world leaders in this type of imaging,” Lewis says. “Our contribution to the work was to very precisely show that cancer cells change their gene expression when they encounter increased viscosity in the surrounding fluid and become more aggressive. And even when you bring the viscosity back down, these cells stay more aggressive.”
“We then went on to show that when this signaling pathway is perturbed in cancer cells it changes their ability to escape the bloodstream and metastasize,” Lewis says.
This is the third paper the international research team has published. Lewis credits Konstantin Stoletov, senior research associate, for the bulk of his team’s work. He cautions that once a new therapeutic target is identified, it could take 10 to 15 years to develop and test a drug.
“But this is helping us build our understanding around how cancer cells move and it increases our chance of being successful with this whole approach,” he explains.
Kaustav Bera et al, Extracellular fluid viscosity enhances cell migration and cancer dissemination, Nature (2022). DOI: 10.1038/s41586-022-05394-6
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