One of the most challenging moments in cancer treatment comes when a therapy stops working. In many metastatic cancers, drugs that are initially effective lose their potency over time, as malignant cells acquire mutations that enable them to survive and spread. A new study from Prof. Yardena Samuels’s lab at the Weizmann Institute of Science proposes a new way to confront cancer resistance: harnessing the very mutations that make tumors resistant in order to fight the cancer.
The study, published in Cancer Discovery, presents a new computational tool, SpotNeoMet, that systematically identifies therapy-resistance mutations common to many patients. These mutations lead to the production of protein fragments known as neo-antigens, which are unique to cancer cells and absent from healthy cells, allowing them to serve as recognition signals for the immune system.
""The same mutations that allow a tumor to evade a drug can become the cancer’s weak point"
As a test case, the team, led by Drs. Nofar Gumpert and Shira Sagie of Samuels’s lab, focused on metastatic prostate cancer, a disease in which most patients eventually develop resistance to existing therapies. In collaboration with Sheba Medical Center and Hadassah Medical Center in Israel, as well as medical centers and universities in North America and Europe, the researchers identified three neo-antigens that showed promising results in laboratory experiments and in mouse models of cancer. These findings may pave the way for the development of new immunotherapies for treatment-resistant prostate cancer.
