1 min readResearchers Develop Radioactive Nanoparticles that Target Cancer Cells

Columbia, MO – Cancers of all types become most deadly when they metastasize and spread tumours throughout the body. Once cancer has reached this stage, it becomes very difficult for doctors to locate and treat the numerous tumours that can develop.

Now, researchers at the University of Missouri have found a way to create radioactive nanoparticles that target lymphoma tumour cells wherever they may be in the body. Michael Lewis, an associate professor of oncology in the MU College of Veterinary Medicine, says being able to target secondary tumours is vital to successfully treating patients with progressive cancers.

“Depending on the type of cancer, primary tumours usually are not the cause of death for cancer patients,” Lewis said. “If a cancer metastasizes, or spreads creating hard-to-find tumours, it often becomes fatal. Having a way to identify and shrink these secondary tumours is of utmost importance when fighting to save people with these diseases.”

In an effort to find a way to locate and kill secondary tumours, Lewis, in collaboration with J. David Robertson, director of research at the MU Research Reactor and professor of chemistry in the College of Arts and Science, have successfully created nanoparticles made of a radioactive form of the element lutetium. The MU scientists then covered the lutetium nanoparticles with gold shells and attached targeting agents.

In previous research, Lewis has already proven the effectiveness of similar targeting agents in mice and dogs suffering from tumours. In that research, the targeting agents were attached to single radioactive atoms that were introduced into the bodies of animals with cancer. The targeting agents were able to seek out the tumours existing within the animals, which were then revealed through radio-imaging of those animals.

In their current research, the MU scientists have shown the targeting agents can deliver the new radioactive lutetium nanoparticles to lymphoma tumour cells without attaching to and damaging healthy cells in the process. Robertson says this is an important step toward developing therapies for lymphoma and other advanced-stage cancers.

“The ability to deliver multiple radioactive atoms to individual cancer cells should greatly increase our ability to selectively kill these cells,” Robertson said. “We are very optimistic about the synergy of combining the targeting strategy developed in Dr. Lewis’s lab with our work on new radioactive nanoparticles.”

Adapted from the University of Missouri.

Nanomedicine

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