Design of a bispecific peptide-nanozyme conjugate for cancer immunotherapy.
1/5 보강
Despite advances in cancer immunotherapy, clinical efficacy remains constrained by immunosuppressive tumor microenvironment (TME), including PD-L1-mediated T cell dysfunction and CXCL8-driven myeloid
APA
Chen D, Xu R, et al. (2026). Design of a bispecific peptide-nanozyme conjugate for cancer immunotherapy.. Cell reports. Medicine, 7(2), 102568. https://doi.org/10.1016/j.xcrm.2025.102568
MLA
Chen D, et al.. "Design of a bispecific peptide-nanozyme conjugate for cancer immunotherapy.." Cell reports. Medicine, vol. 7, no. 2, 2026, pp. 102568.
PMID
41570818 ↗
Abstract 한글 요약
Despite advances in cancer immunotherapy, clinical efficacy remains constrained by immunosuppressive tumor microenvironment (TME), including PD-L1-mediated T cell dysfunction and CXCL8-driven myeloid cell recruitment. To address this, a bispecific peptide-nanozyme conjugate (BsPNEC) is engineered. Leveraging iterative structure-guided optimization, we first develop q6w, a proteolysis-resistant D-peptide targeting CXCR1/2, and conjugate it to a PD-L1-blocking peptide to generate a bispecific peptide qGA. To augment the therapeutic efficacy, qGA is conjugated to FeO nanozymes with peroxidase-mimetic activity. The FeO nanozymes catalytically decompose HO into reactive oxygen species (ROS), thus activating the cGAS-STING pathway to potentiate CD8 T cell infiltration and activation in anti-PD-1-resistant tumor model. The BsPNEC platform integrates tumor-targeted delivery, magnetic resonance imaging (MRI) contrast capabilities, and robust inhibition of tumor growth. Our findings present a synergistic immunotherapeutic strategy that simultaneously skews immunosuppressive TME and amplifies T cell immune response.
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