University of Michigan: Nanodiscs deliver personalized cancer therapy to immune system


FDA-Has-Approved-Device-to-Combat-Drug-OverdoseResearchers at the University of Michigan have had initial success in mice using nanodiscs to deliver a customized therapeutic vaccine for the treatment of colon and melanoma cancer tumors.

“We are basically educating the immune system with these nanodiscs so that can attack cancer cells in a personalized manner,” said James Moon, the John Gideon Searle assistant professor of and biomedical engineering.

Personalized immunotherapy is a fast-growing field of research in the fight against cancer.

The therapeutic cancer vaccine employs nanodiscs loaded with tumor neoantigens, which are unique mutations found in tumor cells. By generating T-cells that recognize these specific neoantigens, the targets cancer mutations and fights to eliminate cancer cells and prevent tumor growth.

Unlike preventive vaccinations, therapeutic cancer vaccines of this type are meant to kill established cancer cells.

“The idea is that these vaccine nanodiscs will trigger the immune system to fight the existing cancer cells in a personalized manner,” Moon said.

The nanodisc technology was tested in mice with established melanoma and colon cancer tumors. After the vaccination, twenty-seven percent of T-cells in the blood of the mice in the study targeted the tumors.

When combined with immune checkpoint inhibitors, an existing technology that amplifies T-cell tumor-fighting responses, the nanodisc technology killed tumors within 10 days of treatment in the majority of the mice. After waiting 70 days, researchers then injected the same mice with the same , and the tumors were rejected by the immune system and did not grow.

“This suggests the ‘remembered’ the for long-term immunity,” said Rui Kuai, U-M doctoral student in pharmaceutical sciences and lead author of the study.

“The holy grail in is to eradicate tumors and prevent future recurrence without systemic toxicity, and our studies have produced very promising results in mice,” Moon said.

The technology is made of extremely small, synthetic high density lipoproteins measuring roughly 10 nanometers. By comparison, a human hair is 80,000 to 100,000 nanometers wide.

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“It’s a powerful vaccine technology that efficiently delivers vaccine components to the right cells in the right tissues. Better delivery translates to better T-cell responses and better efficacy,” said study co-senior author Anna Schwendeman, U-M assistant professor of pharmacy.

The next step is to test the nanodisc technology in a larger group of larger animals, Moon said.

EVOQ Therapeutics, a new U-M spinoff biotech company, has been founded to translate these results to the clinic. Lukasz Ochyl, a doctoral student in pharmaceutical sciences, is also a co-author.

The study, “Designer vaccine nanodiscs for personalized immunotherapy,” is scheduled for advance online publication Dec. 26 on the Nature Materials website.

Explore further: Fighting cancer with the power of immunity

More information: Designer vaccine nanodiscs for personalized cancer immunotherapy, Nature Materials, nature.com/articles/doi:10.1038/nmat4822

 

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