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Novel nanoparticles deliver innovative cancer


FuOXP-siRNA nanoparticles

image: Electron microscopy image of nanoparticles containing the chemotherapy drug FuOXP and novel immunotherapy of siRNA that blocks expression of Xkr8.
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Credit: Chen et al., 2022, Nature Nanotechnology, 10.1038/s41565-022-01266-2

PITTSBURGH, Nov. 24, 2022 University of Pittsburgh researchers have designed cancer-fighting nanoparticles that co-deliver a chemotherapy drug and a novel immunotherapy, according to a new Nature Nanotechnology study published today.

The new immunotherapy approach silences a gene that the researchers discovered was involved in immunosuppression. When combined with an existing chemotherapy drug and packaged into tiny nanoparticles, the therapy shrunk tumors in mouse models of colon and pancreatic cancer.

“There are two innovative aspects of our study: the discovery of a new therapeutic target and a new nanocarrier that is very effective in selective delivery of immunotherapy and chemotherapeutic drugs,” said senior author Song Li, M.D., Ph.D., professor of pharmaceutical sciences in the Pitt School of Pharmacy and UPMC Hillman Cancer Center investigator. “I’m excited about this research because it’s highly translational. We don’t know yet whether our approach works in patients, but our findings suggest that there is a lot of potential.”

Chemotherapy is a pillar of cancer treatment, but residual cancer cells can persist and cause tumor relapse. This process involves a lipid called phosphatidylserine (PS), which is usually found inside the tumor cell membrane’s inner layer but migrates to the cell surface in response to chemotherapy drugs. On the surface, PS acts as an immunosuppressant, protecting remaining cancer cells from the immune system.

The Pitt researchers found that treatment with chemotherapy drugs fluorouracil and oxoplatin (FuOXP)

led to increased levels of Xkr8, a protein that controls distribution of PS on the cell membrane. This finding suggested that blocking Xkr8 would prevent cancer cells from shunting PS to the cell surface, allowing immune cells to mop up cancer cells that lingered after chemotherapy.

In an independent study that was recently published in Cell Reports, Yi-Nan Gong, Ph.D., assistant professor of immunology at Pitt, also identified Xkr8 as a novel therapeutic target to boost anti-tumor immune response.

Li and his team designed snippets of genetic code called short interference RNA (siRNA), which shuts down production of specific proteins — in this case, Xkr8. After packaging siRNA and FuOXP together into dual-action nanoparticles, the next step was targeting them to tumors.

Nanoparticles are typically too large to cross intact blood vessels in healthy tissue, but they can reach cancer cells because tumors sometimes have poorly developed vessels with holes that allow them passage. But this tumor-targeting approach is limited because many human tumors do not have large enough holes for nanoparticles to pass through.

“Like a ferry carrying people from one side of the river to the other, we wanted to develop a mechanism that allows nanoparticles to cross intact blood vessels without relying on holes,” said Li.

To develop such a ferry, the researchers decorated the surface of the nanoparticles with chondroitin sulfate and PEG. These compounds help the nanoparticles target tumors and avoid healthy tissue by binding to cell receptors common on both tumor blood vessels and tumor cells and prolonging the length of time they remain in the bloodstream.

When injected into mice, about 10% of the nanoparticles made their way to their tumor — a significant improvement over most other nanocarrier platforms. A previous analysis of published research found that, on average, only 0.7% of nanoparticle doses reach their target.

The dual-action nanoparticles dramatically reduced the migration of immunosuppressing PS to the cell surface compared to nanoparticles containing the chemodrug FuOXP alone.

Next, the researchers tested their platform in mouse models of colon and pancreatic cancer. Animals treated with nanoparticles containing both FuOXP and siRNA had better tumor microenvironments with more cancer-fighting T cells and fewer immunosuppressive regulatory T cells than animals that received placebo or FuOXP doses.

As a result, mice that received the siRNA-FuOXP nanoparticles showed a dramatic decrease in tumor size compared to animals that received those carrying just one therapy.

According to Li, the study also pointed to the potential of combining the FuOXP-siRNA nanoparticles with another type of immunotherapy called checkpoint inhibitors. Immune checkpoints such as PD-1 act like brakes on the immune system, but checkpoint inhibitors work to release the brakes and help immune cells to fight cancer.

The researchers found that FuOXP nanoparticles with or without siRNA increased PD-1 expression. But when they added a PD-1 inhibitor drug, the combination therapy had drastic improvements in tumor growth and survival in mice.

With their sights set on translating their novel therapy to the clinic, the team is now looking to validate their findings with additional experiments and further evaluate potential side effects.

Other researchers who contributed to this study were Yuang Chen, M.S., Yixian Huang, Ph.D., Qinzhe Li, M.S., Zhangyi Luo, B.S., Ziqian Zhang, M.S., Haozhe Huang, M.S., Jingjing Sun, Ph.D., LinXinTian Zhang, B.S., Runzi Sun, Ph.D., Daniel J. Bain, Ph.D., James F. Conway, Ph.D., and Binfeng Lu, Ph.D., all of Pitt or UPMC.

This work was supported by the National Institutes of Health (R01CA219399, R01CA223788 and R01CA219716).

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About the University of Pittsburgh School of Pharmacy
The University of Pittsburgh School of Pharmacy has been developing leaders who have been driving the future of pharmacy for over 135 years. We investigate, discover and create ways to improve patient health and, through partnerships, change practice and improve efficiency of care. Pitt Pharmacy ranks in the top 10 in NIH-funded research and in the top 15 in U.S. News and World Report among schools of pharmacy. The School of Pharmacy leads the way in education, personalizing education and getting students to expert faster. Chartered in 1878, the School of Pharmacy is among the oldest pharmacy schools in the country.   

About UPMC Hillman Cancer Center 
UPMC Hillman Cancer Center connects patients to the integrated expertise of leading clinicians, academic researchers, specialty programs and treatment centers. By partnering with the University of Pittsburgh School of Medicine, UPMC Hillman Cancer Center, the only National Cancer Institute-designated Comprehensive Cancer Center in the region, is accelerating the breakthroughs from the lab to clinical practice around the world. UPMC – nationally ranked by U.S. News & World Report for excellence in cancer care – has more than 70 cancer treatment locations throughout Pennsylvania, Ohio, New York and Maryland as well as centers in Ireland and Italy. Backed by the collective strength of UPMC, UPMC Hillman Cancer Center provides leading-edge treatments and the latest in clinical investigations to transform cancer research, care and prevention—one patient at a time. 

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