New nanoparticle targets tumor-infiltrating immune cells, flips switch

Immunotherapy's promise in the fight against cancer drew international attention after two scientists won a Nobel Prize this year for unleashing the ability of the immune system to eliminate tumor cells. But their approach, which keeps cancer cells from shutting off the immune system's powerful T-cells before they can fight tumors, is just one way to use the body's natural defenses against deadly disease. A team of Vanderbilt University bioengineers today announced a major breakthrough in another: penetrating tumor-infiltrating immune cells and flipping on a switch that tells them to start fighting. The team designed a nanoscale particle to do that and found early success using it on human melanoma tissue.
"Tumors are pretty conniving and have evolved many ways to evade detection from our immune system," said John T. Wilson, assistant professor of chemical and biomolecular engineering and biomedical engineering. "Our goal is to rearm the immune system with the tools it needs to destroy cancer cells. "Checkpoint blockade has been a major breakthrough, but despite the huge impact it continues to have, we also know that there are a lot of patients who don't respond to these therapies. We've developed a nanoparticle to find tumors and deliver a specific type of molecule that's produced naturally by our bodies to fight off cancer."