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A platinum@polymer-catechol nanobraker enables radio-immunotherapy for crippling melanoma tumorigenesis, angiogenesis, and radioresistance

Wenxi Li, Jie Yan, Hao Tian, Bei Li, Guohao Wang, Wei Sang, Zhan Zhang, Xuanjun Zhang, Yunlu Dai

2022Bioactive Materials26 citationsDOIOpen Access PDF

Abstract

Malignant melanoma cell-intrinsic PD-1:PD-L1 interaction thrusts tumorigenesis, angiogenesis, and radioresistance via mTOR hyperactivation to aggravate circumjacent aggression. Interdicting melanoma intrinsic growth signals, including the blockade of PD-L1 and mTOR signaling concurrently, cooperative with radiotherapy may provide a vigorous repertoire to alleviate the tumor encumbrance. Thence, we design a three-pronged platinum@polymer-catechol nanobraker to deliver mTOR inhibitor TAK228 and anti-PD-L1 antibody (aPD-L1) for impeding the melanoma-PD-1-driven aggression and maximizing the melanoma eradication. The aPD-L1 collaborated with TAK228 restrains melanoma cell-intrinsic PD-1: PD-L1 tumorigenic interaction via blocking melanoma-PD-L1 ligand and the melanoma-PD-1 receptor-driven mTOR signaling; corresponding downregulation of mTOR downstream protumorigenic cellular MYC and proangiogenic hypoxia-inducible factor 1-alpha is conducive to preventing tumorigenesis and angiogenesis, respectively. Further, high-Z metal platinum sensitizing TAK228-enhanced radiotherapy confers the nanobraker on remarkable tumoricidal efficacy. Hereto, the customized three-pronged nanobrakers efficiently suppress melanoma tumorigenesis and angiogenesis concomitant with the amplification of radiotherapeutic efficacy. Such an ingenious tactic may provide substantial benefits to clinical melanoma patients.

Topics & Concepts

RadioresistanceAngiogenesisCancer researchImmunotherapyCatecholCancer immunotherapyPlatinumMelanomaMaterials scienceCarcinogenesisChemistryMedicineCancerRadiation therapyInternal medicineBiochemistryCatalysisNanoplatforms for cancer theranosticsImmunotherapy and Immune ResponsesRNA Interference and Gene Delivery