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    Researchers develop novel immunotherapy to target colorectal cancer

    February 11, 2018

    A Yale-led research team has developed an antibody that blocks tumors in animal models of colorectal cancer. If the finding is confirmed in clinical trials, the antibody-based treatment could become an effective weapon against colorectal cancer, and possibly other cancers, that resist current immunotherapies, the researchers said.

    The study was published in Nature Medicine.

    Certain cancers fail to respond to existing immunotherapy drugs that are designed to unleash the body’s immune system against tumors. To investigate alternative approaches to these cancers, the Yale-led team focused on a protein molecule, DKK2, an inhibitor of Wnt proteins. Wnt proteins had been previously implicated in the promotion of tumors.

    To explore the molecule’s role in cancer, the researchers crossbred a mouse model of colorectal cancer with mice lacking DKK2. They discovered that the offspring had fewer and smaller tumors, according to senior study author and professor of pharmacology Dan Wu.

    We found that this Wnt inhibitor, DKK2, which was thought to inhibit tumor formation, promoted tumors through suppression of tumor immunity,” Wu said. Additionally, they learned “if you inactivate, or neutralize, or blockade this inhibitor, it causes reduction of tumor formation through activation of the host’s immune system.”

    Based on this finding, the researchers developed an antibody to “inhibit the inhibitor” and target colorectal cancers. They also observed that the antibody was effective in blocking a subset of melanomas when used with other immunotherapy drugs.

    Wu, who is a member of Yale Cancer Center, believes that the antibody has potential as a new immunotherapy inhibitor to treat these and other cancers.

    Other study authors are Qian Xiao, Jibo Wu, Wei-Jia Wang, Shiyang Chen, Yingxia Zheng, Xiaoqing Yu, Katrina Meeth, Mahnaz Sahraei, Alfred L M Bothwell, Lieping Chen, Marcus Bosenberg, Jianfeng Chen, Veronika Sexl, Le Sun, Lin Li, and Wenwen Tang.

    This work was supported in part by the National Institutes of Health and the Connecticut Bioscience Innovation Fund. Wu received research support from Hangzhou Just Biotherapeutics, which licensed the intellectual property from Yale University on the basis of the findings.