Radiation Therapy and Cancer Vaccines: Timing Is Everything
Treating tumors with radiotherapy first directly kills cancer cells and makes immunotherapy more effective
Embargo expired: 24-Mar-2014 9:00 AM EDT
Source Newsroom: Thomas Jefferson University
Newswise — (PHILADELPHIA) – Radiation therapy fights cancer in more ways than one. Not only does it force cancer cells to self-destruct, but several studies demonstrate that it also activates the immune system to attack tumor cells. This activation can be used to boost current immunotherapies, such as anti-tumor vaccines, to produce better clinical results. What’s less clear, however, is exactly how to combine the two therapies to get the best bang for the therapeutic buck.
To address this question, researchers at Thomas Jefferson University tested an experimental cancer vaccine in combination with radiation therapy in mice with colorectal cancer. In research publishing online March 24th in the International Journal of Radiation Oncology, they showed that the vaccine was most effective when tumors were irradiated first and then vaccinated a week later.
“Prior to these experiments, we didn’t appreciate the impact that sequencing of these treatments had on their combined ability to generate immune and clinical responses," says Thomas Jefferson University radiation oncologist Matthew Witek M.D., first author of the study. "Remarkably, immune activation and tumor regression only occurred when radiation was given prior to vaccination.”
When mice received either treatment alone, the researchers noticed only a modest reduction in tumor size. However, when radiation was given first, the investigators saw a six-fold increase in cancer-fighting immune cells, and impressively, complete remission of the majority of tumors.
Although the work will need to be reproduced in humans to determine if the same holds true for cancer patients, the finding is exciting, says lead researcher Adam Snook, Ph.D., an instructor in the department of Pharmacology and Experimental Therapeutics. “In a patient population that will undergo radiation therapy as standard treatment, these results provide a roadmap to amplifying the effects of immunotherapies like the one we’re developing for colon cancer.”
Targeted Diagnostics & Therapeutics, Inc, which provided research funding that, in part, supported this work, has a license to commercialize inventions related to this work. The authors report no other conflict of interest.
This work was supported by grants from the National Institutes of Health (RC1 CA146033, P30 CA56036, R01 CA170533), the Pennsylvania Department of Health (SAP #4100059197, SAP #4100051723), and Targeted Diagnostic and Therapeutics Inc. The Pennsylvania Department of Health specifically disclaims responsibility for any analyses, interpretations, or conclusions.
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Thomas Jefferson University (TJU), the largest freestanding academic medical center in Philadelphia, is nationally renowned for medical and health sciences education and innovative research. Founded in 1824, TJU includes Jefferson Medical College (JMC), one of the largest private medical schools in the country and ranked among the nation's best medical schools by U.S. News & World Report, and the Jefferson Schools of Nursing, Pharmacy, Health Professions, Population Health and the Graduate School of Biomedical Sciences. Jefferson University Physicians is TJU’s multi-specialty physician practice consisting of the full-time faculty of JMC. Thomas Jefferson University partners with its clinical affiliate, Thomas Jefferson University Hospitals.
Article Reference: M. Witek, et al., “Tumor radiotherapy creates therapeutic vaccine response to the colorectal cancer antigen GUCY2C” International Journal of Radiation Oncology, 2014.