Tumor targeting dendritic nanocarrier with immunogenic cell death inducing and TIGIT blockade for synergistic chemo-immunotherapy against TNBC.
Jia Wang, Zhiji Wang, Kaiming Li, Yue Liu, Chunming Tang, Huimin Gao, Yupeng Zhou, Pengpeng Wang, Haisi Wu, Pengfei Liu, Huae Xu, Xiaolin Li
Abstract
Open AccessThe clinical therapeutic effect of immune-checkpoint blockade (ICB) on triple-negative breast cancer (TNBC) is limited due to low tumor immunogenicity and tumor immunosuppressive microenvironment. Combination therapies of chemotherapy and ICB have been confirmed efficacious. Herein, poly(L-lysine) dendrimer (PLLD) nanosphere (PR-T@PLLD) integrating chemotherapeutic drug paclitaxel (PTX), natural anti-tumor compound Rubioncolin C (RC) and TIGIT/PVR blocking peptide DTBP-3 is constructed for chemo-immunotherapy of anti-PD-1 resistant tumor. The PEGylation and DTBP-3 modification endow PR-T@PLLD with prolonged blood circulation, enhanced tumor penetration and improved internalization. In the acidic environment of lysosomes, PR-T@PLLD disassembles and releases PTX, RC and DTBP-PLLD. The cell death induced by PTX is significantly enhanced through synergy with RC. RC collaborated PTX also triggers robust immunogenic cell death that efficiently increases tumor infiltration of cytotoxic T lymphocytes (CTLs). Additionally, the released DTBP-PLLD inhibits the exhaustion of CTLs via directly binding to TIGIT and blocking the interaction of TIGIT with its ligand PVR. Thus, PR-T@PLLD arouses a conspicuous anti-tumor immune response via increasing income and reducing expenditure of CTLs. Moreover, PR-T@PLLD reduces the recruitment of immunosuppressive cells in tumor. PR-T@PLLD also inhibits tumor metastasis through evoking immune memory response and inhibiting epithelial-mesenchymal transition and extracellular matrix degradation. In general, PR-T@PLLD is a promising nanoplatform realizing synergistic enhancement of chemo-immunotherapy against anti-PD-1 resistant TNBC.