Particle shows promise for treating the deadliest type of breast cancer

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Credit: Oihana Iriondo/Min Yu/USC Stem Cell

USC researchers have pinpointed a remedy to thwart a protein that helps the metastatic spread of breast cancer, a leading cause of death for women. The findings appear today in Nature Communications.

The study comes from the lab of USC stem cell researchers at the Keck School of Medicine of USC and offers a novel solution to suppress cancer from metastasizing into the lungs. It's positive news for patients with triple-negative breast cancer (TNBC) – the deadliest type – that comprises 20 percent of breast cancer cases and is particularly difficult to treat. Researchers are intensely interested in finding new treatments for TNBC.

"For this subtype of breast cancer, few treatment options are available to target metastasis, and typically, these treatments are associated with high toxicity," said Min Yu, an assistant professor of stem cell biology and regenerative medicine, and a principal investigator at the Eli and Edythe Broad Center for Regenerative Medicine and Stem Cell Research at USC, and the USC Norris Comprehensive Cancer Center. "A better understanding of tumor cells and their interactions with organs and tissues could help us design targeted therapies specific for metastasis."

In Yu's laboratory, postdoc Oihana Iriondo and her colleagues showed that by inhibiting a protein called TAK1, they were able to reduce lung metastases in mice with TNBC. It appears that TAK1 enables malignant cells from the breast to survive in the lungs and form new metastatic tumors. Metastases are the most common cause of cancer-related death.

There's already a potential drug, called 5Z-7-Oxozeaenol or OXO, that can inhibit TAK1–and presumably make it much more difficult for breast cancer cells to form lung metastases. However, OXO is not stable in the blood, and therefore wouldn't work in patients.

To overcome this obstacle, Yu and her lab teamed up with the laboratory of Pin Wang at the USC Viterbi School of Engineering. Wang's team developed a nanoparticle – consisting of a tiny fatty sac – that works like a smart bomb to carry drugs through the bloodstream and deliver them directly to tumors. The scientists loaded this nanoparticle with OXO, and used it to treat mice that had been injected with human breast cancer cells. While OXO did not shrink primary tumors in the breast, it greatly reduced metastatic tumors in the lungs with minimal toxic side effects.

"For patients with triple-negative breast cancer, systemic chemotherapies are largely ineffective and highly toxic," Yu said. "So nanoparticles are a promising approach for delivering more targeted treatments, such as OXO, to stop the deadly process of metastasis."

Metastatic breast cancer is also classified as Stage 4 breast cancer once it's spread to other parts of the body, usually the lungs, liver or brain. It reaches these organs by penetrating the circulatory or lymph system and migrating through blood vessels, according to the National Breast Cancer Foundation.

Breast cancer is the most common cancer in American women, except for skin cancers, and the average risk of developing breast cancer is 1 in 8 for a woman in the United States, according to the American Cancer Society. About 266,120 new cases of invasive breast cancer are diagnosed in women each year, and about 40,920 women will die from it, the ACS estimates.

The USC research is in early-stage development using animal tests. The method the researchers discovered shows promise, but more research will be needed before it could be applied to humans for treatment.

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Study authors include Oihana Iriondo, Grace Lee, Mostafa Elhodaky, Christian Jimenez, Lin Li, Julie Lang, and Min Yu from the USC Keck School, and Yarong Liu and Pin Wang from USC Viterbi.

Funding came from the National Cancer Institute (K22 CA175228-01A, P2CA206653, and P30CA014089) and the USC Ming Hsieh Institute for Engineering Medicine for Cancer.

USC Stem Cell is a collaborative, multidisciplinary effort working to translate the potential of stem cell research to the clinical imperative of regenerative medicine. Centered at the Eli and Edythe Broad Center for Regenerative Medicine and Stem Cell Research at USC, the initiative brings together nearly 100 research and clinical faculty members from the Keck School of Medicine of USC, Children's Hospital Los Angeles, the USC Viterbi School of Engineering, the USC Davis School of Gerontology, the Ostrow School of Dentistry of USC, the USC School of Pharmacy, and the USC Dornsife College of Letters, Arts and Sciences.

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