Date: 26.7.2024
Vanderbilt researchers have developed a set of nanoparticles that stimulate the immune system in mice to fight cancer and may eventually do the same in humans.
Working with collaborators at Yale University, John T. Wilson and his team designed lipid nanoparticles – the tiny balls of fat behind the success of mRNA vaccines – to deliver a nucleic acid molecule that triggers an anti-tumor immune response.
The nucleic acid stimulates the retinoic acid inducible gene I, or RIG-I, pathway that is normally used by the body to recognize foreign viruses, such as influenza, to help the immune system mount a defense, according to the researchers.
By packaging this molecule into lipid nanoparticles to improve its delivery to the cytosol of cells, the researchers were able to strongly activate the RIG-I pathway, triggering the immune system to focus its attention on killing cancer cells in mouse models of breast cancer and melanoma.
"RIG-I is commonly activated to help the body combat viral infections and there is compelling evidence that this same pathway can be harnessed to stimulate the immune system to fight cancer," said Wilson, a Chancellor Faculty Fellow.
Image source: Wang-Bishop et al. (2024), ACS Nano.
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