CAR-T cell therapy is a last hope for many patients with blood, bone marrow or lymph gland cancer when other treatments such as chemotherapy are unsuccessful.
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onto Genetic Engineering in the Press by GEG November 24, 2023 11:13 AM
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CAR-T cell therapy is a last hope for many patients with cancer of the blood, bone marrow or lymph nodes when other treatments such as chemotherapy fail. A limiting factor of this otherwise highly effective and safe therapy is that the cells used in the process rapidly reach a state of exhaustion. In a recent study, researchers produced four types of CAR-T cells, each expressing a CAR with each of the four signaling subunits (zeta, gamma, delta and epsilon), and tested them in a mouse model of leukemia. Surprisingly, the zeta chain, the domain used in clinically-applied CAR-T cells, showed a lower anti-tumor effect than the other three domains. The latter were significantly better at eliminating cancer cells from the leukemia model. The researchers explain this result by the fact that, although the zeta chain transmits a powerful activation signal to the cell, it is also rapidly depleted. In contrast, the delta chain, which showed the greatest efficacy in the present study, triggers an inhibitory signal parallel to T cell activation, enabling the immune cell to function at its optimal speed.