Advanced Science (Mar 2022)
Targeting PI3Kγ/AKT Pathway Remodels LC3‐Associated Phagocytosis Induced Immunosuppression After Radiofrequency Ablation
Abstract
Abstract Residual tumors after insufficient radiofrequency ablation (IRFA) shows accelerated progression and anti‐PD‐1 resistance. It is also reported that macrophages infiltrating into residual tumors leads to anti‐PD‐1 resistance. Elements of autophagy have been detected to conjugate LC3 to be increasingly expressed in residual tumors. The underlying mechanisms between LC3 and macrophages are aimed to be investigated, and explore further ways to enhance immunotherapy in treating residual tumors. In mice models and patients, macrophages demonstrate increased infiltration into residual tumors, especially surrounding the ablated zone. Single‐cell transcriptome demonstrates enhancement of immunosuppression function in macrophages after IRFA. It is shown that macrophages engulf heat‐treated cells through LC3‐associated phagocytosis (LAP), enhance IL‐4 mediated macrophage programming through the PI3Kγ/AKT pathway, and suppress T cell proliferation. Blockade of the PI3Kγ/AKT pathway enhances the antitumor activity of PD‐1 blockades, inhibits malignant growth, and enhances survival in post‐IRFA models. In conclusion, in mice models and patients, macrophages demonstrate increased infiltration around ablated zones in residual tumors. Blockade of the PI3Kγ/AKT pathway suppresses the growth of residual tumors in subcutaneous and orthotopic models. The results illustrate the translational potential of PI3Kγ inhibitors to enhance anti‐PD‐1 therapy for the treatment of residual tumors after IRFA.
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