LA JOLLA, CA – Sept. 6, 2018 – An experimental cancer vaccine that boosts the immune system's ability to fight cancers could work in tandem with other cancer therapies to fight aggressive tumors, scientists reported recently in the Proceedings of the National Academy of Sciences.
The researchers demonstrated that adding a molecule called Diprovocim to a vaccine can draw cancer-fighting cells to tumor sites. Their experiments in mice with melanoma suggest these vaccines could increase chances of recovery in cases where a drug therapy alone is not working.
"This co-therapy produced a complete response–a curative response–in the treatment of melanoma," says Scripps Research Professor Dale Boger, PhD, who co-led the study with Nobel laureate Bruce Beutler, MD, of UT Southwestern.
The vaccine also prompts the immune system to fight tumor cells should they ever return, a capability that could prevent cancer recurrence. "Just as a vaccine can train the body to fight off external pathogens, this vaccine trains the immune system to go after the tumor," Boger explains.
Developed by Boger and Beutler, Diprovocim works as an "adjuvant," a molecule added to a vaccine to fire up the body's immune response. The molecule is easy to synthesize in the lab and easy to modify, which makes it attractive for use in medicine.
The new research shows that adding Diprovocim to a vaccine targeting cancer cells can have dramatic results.
The researchers tested the vaccine design on mice with a form of notoriously aggressive melanoma. All mice in the experiment were given the anti-cancer therapy anti-PD-L1. The mice were then split into three group: eight received the cancer vaccine, eight received the cancer vaccine plus Diprovocim, and eight received the cancer vaccine plus an alternative adjuvant called alum.
The researchers observed a 100 percent survival rate over 54 days in the mice given the cancer vaccine and Diprovocim. This was in contrast to a zero percent survival rate in mice given only the cancer vaccine and a 25 percent survival rate in mice given the cancer vaccine with alum.
"It was exciting to see the vaccine working simultaneously with a cancer immunotherapy like anti-PD-L1," says Boger.
Further experiments showed that using Diprovocim as an adjuvant boosts the vaccine's cancer-fighting potential by stimulating the immune system to make cells called tumor-infiltrating leukocytes.
When the scientists tried to re-establish the tumor in these mice, "it wouldn't take," Boger says. "The animal is already vaccinated against it."
Boger says it is encouraging to see that the vaccine with Diprovocim does not need to be injected directly into a tumor. Instead, the researchers gave it as an intramuscular injection away from the main tumor site. The vaccination did require two doses given seven days apart.
Going forward, the researchers plan to do further pre-clinical testing with this vaccine design and study how it works in combination with other cancer therapies.
Boger and Beutler have acknowledged a financial interest in Tollbridge Therapeutics, LLC, which has licensed the patent for Diprovocim.
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The study "Adjuvant effect of the novel TLR1/2 agonist Diprovocim synergizes with anti-PD-L1 to eliminate melanoma in mice," was supported by the National Institutes of Health (grant AI25581) and the Lyda Hill Foundation.
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Related Journal Article
http://dx.doi.org/10.1073/pnas.1809232115
