Effect of paclitaxel and carboplatin on tumor-reactive T cells and the efficacy of PD-1 blockade.

Abstract

65 Background: The addition of chemotherapy to immune checkpoint inhibitors has been explored clinically in solid tumors in order to overcome one of the challenges of immunotherapy: clinical outcomes are variable, with only a subset of patients achieving durable responses. Further understanding of the immunoregulatory mechanisms of chemotherapy in the setting of immunotherapy is crucial for the development of optimal combinatorial chemo-immunotherapeutic strategies to improve clinical outcomes in patients with advanced cancer. Methods: Metastatic melanoma (MM) patients who failed anti-PD-1 single therapy were subsequently treated with paclitaxel and carboplatin in addition to PD-1 blockade. Using peripheral blood (PB) from MM patients and healthy donor, the phenotypic and functional changes in T cells induced by chemotherapy, in the setting of PD-1 blockade, were examined. Results: Paclitaxel and carboplatin, in combination with PD-1 blockade, were able to induce significant clinical responses in a subset of MM patients who were resistant to anti-PD-1 therapy alone. In patients who responded to this combination, a subset of tumor-reactive effector T cells (CD8+CD11a+PD1+GranzymeB+) survived the treatment, with increased frequency after the addition of chemotherapy. This T cell population preserved its effector phenotype, although ongoing PD-1 blockade was needed to improve its anti-tumor activity. In vitro experiments, using CD8+CD11a+PD1+GranzymeB+isolated from healthy donor PB, also demonstrated its ability to survive chemotherapy treatment. In addition, after cultured with chemotherapy, this T cell subset demonstrated higher cytotoxic T cell functions as well as increased chemotherapy efflux. Conclusions: Chemotherapy regulates a subset of tumor-reactive effector T cells (CD8+CD11a+PD1+GranzymeB+) and increases clinical efficacy of PD-1 blockade. This novel effector T cell population underlies the key cellular and molecular immunoregulatory mechanisms of chemotherapy. It serves as a meaningful marker to measure these collaborative effects and to develop the optimal chemo-immunotherapy strategy to improve clinical responses to current immune checkpoint blocking agents.