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Monday, June 4, 2018
New approach to immunotherapy leads to complete response in breast cancer patient unresponsive to other treatments
A novel approach to immunotherapy developed by researchers at the National Cancer Institute (NCI) has led to the complete regression of breast cancer in a patient who was unresponsive to all other treatments. This patient received the treatment in a clinical trial led by Steven A. Rosenberg, M.D., Ph.D., chief of the Surgery Branch at NCI鈥檚 Center for Cancer Research (CCR), and the findings were published June 4, 2018 in Nature Medicine. NCI is part of the National Institutes of Health.
鈥淲e鈥檝e developed a high-throughput method to identify mutations present in a cancer that are recognized by the immune system,鈥 Dr. Rosenberg said. 鈥淭his research is experimental right now. But because this new approach to immunotherapy is dependent on mutations, not on cancer type, it is in a sense a blueprint we can use for the treatment of many types of cancer.鈥
The new immunotherapy approach is a modified form of adoptive cell transfer (ACT). ACT has been effective in treating melanoma, which has high levels of somatic, or acquired, mutations. However, it has been less effective with some common epithelial cancers, or cancers that start in the lining of organs, that have lower levels of mutations, such as stomach, esophageal, ovarian, and breast cancers.
In an ongoing phase 2 clinical trial, the investigators are developing a form of ACT that uses tumor-infiltrating lymphocytes (TILs) that specifically target tumor cell mutations to see if they can shrink tumors in patients with these common epithelial cancers. As with other forms of ACT, the selected TILs are grown to large numbers in the laboratory and are then infused back into the patient (who has in the meantime undergone treatment to deplete remaining lymphocytes) to create a stronger immune response against the tumor.
A patient with metastatic breast cancer came to the trial after receiving multiple treatments, including several chemotherapy and hormonal treatments, that had not stopped her cancer from progressing. To treat her, the researchers sequenced DNA and RNA from one of her tumors, as well as normal tissue to see which mutations were unique to her cancer, and identified 62 different mutations in her tumor cells.聽
The researchers then tested different TILs from the patient to find those that recognized one or more of these mutated proteins. TILs recognized four of the mutant proteins, and the TILs then were expanded and infused back into the patient. She was also given the checkpoint inhibitor pembrolizumab to prevent the possible inactivation of the infused T cells by factors in the tumor microenvironment. After the treatment, all of this patient鈥檚 cancer disappeared and has not returned more than 22 months later.聽聽
鈥淭his is an illustrative case report that highlights, once again, the power of immunotherapy,鈥 said Tom Misteli, Ph.D., director of CCR at NCI. 鈥淚f confirmed in a larger study, it promises to further extend the reach of this T-cell therapy to a broader spectrum of cancers.鈥
Investigators have seen similar results using mutation-targeted TIL treatment for patients in the same trial with other epithelial cancers, including and .聽 Dr. Rosenberg explained that results like this in patients with solid epithelial tumors are important because ACT has not been as successful with these kinds of cancers as with other types that have more mutations.
He said the 鈥渂ig picture鈥 here is this kind of treatment is not cancer-type specific. 鈥淎ll cancers have mutations, and that鈥檚 what we鈥檙e attacking with this immunotherapy,鈥 he said. 鈥淚t is ironic that the very mutations that cause the cancer may prove to be the best targets to treat the cancer.鈥
The research team includes Nikolaos Zacharakis, Ph.D.; Steven A. Feldman, Ph.D.; and Stephanie L. Goff, M.D.
For more on the clinical trial, see:
About the Center for Cancer Research (CCR): CCR comprises nearly 250 teams conducting basic, translational, and clinical research in the NCI intramural program 鈥 an environment supporting innovative science aimed at improving human health.聽CCR鈥檚 clinical program is housed at the聽NIH Clinical Center 鈥 the world鈥檚 largest hospital dedicated to clinical research. For more information about CCR and its programs, visit .
About the National Cancer Institute (NCI):聽NCI聽leads the National Cancer Program and NIH鈥檚 efforts to dramatically reduce the prevalence of cancer and improve the lives of cancer patients and their families, through research into prevention and cancer biology, the development of new interventions, and the training and mentoring of new researchers. For more information about cancer, please visit the NCI website at聽聽or call NCI鈥檚 Contact Center (formerly known as the Cancer Information Service) at 1-800-4-CANCER (1-800-422-6237).
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