Yuanlei Fu scite author profile

Checkpoint blockade immunotherapy is promising for clinical treatment of various malignant tumors. However, checkpoint blockade immunotherapy suffers from a low response rate due to insufficient tumor immunogenicity and the immunosuppressive tumor microenvironment (ITM). In this study, a tumor-microenvironment-activatable binary cooperative prodrug nanoparticle (BCPN) is rationally designed to improve immunotherapy by synergistically modulating the immune tumor microenvironment. BCPN is purely constructed from a tumor acidity and reduction dual-responsive oxaliplatin (OXA) prodrug for triggering immunogenic cell death (ICD) and eliciting antitumor immunity, and a reduction-activatable homodimer of NLG919 for inactivating indoleamine 2,3-dioxygenase 1, which is a key regulator for ITM. Upon tumor-acidity-triggered cleavage of the poly(ethylene glycol) shell, PN shows negative to positive charge switch for enhanced tumor accumulation and deep penetration. OXA and NLG919 are then activated in the tumor cells via glutathione-mediated reduction. It is demonstrate that activated OXA promotes intratumoral accumulation of cytotoxic T lymphocytes by triggering ICD of cancer cells. Meanwhile, NLG919 downregulates IDO-1-mediated immunosuppression and suppresses regulatory T cells. Most importantly, PN shows much higher efficiency than free OXA or the combination of free OXA and NLG919 to regress tumor growth and prevent metastasis of mouse models of both breast and colorectal cancer.

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Acid-Activatable Versatile Micelleplexes for PD-L1 Blockade-Enhanced Cancer Photodynamic Immunotherapy

Wang

et al. 2016

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Photodynamic therapy (PDT) has emerged as a promising clinical modality for cancer therapy due to its ability to initiate an antitumor immune response. However, PDT-mediated cancer immunotherapy is severely impaired by tumor-cell immunosuppression of host T cell antitumor activity through the programmed cell death 1 ligand (PD-L1) and programmed cell death receptor 1 (PD-1) (PD-L1-PD-1) immune checkpoint pathway. Here, we demonstrate that PDT-mediated cancer immunotherapy can be augmented by PD-L1 knockdown (KD) in tumor cells. We rationally designed a versatile micelleplex by integrating an acid-activatable cationic micelle, photosensitizer (PS), and small interfering RNA (siRNA). The micelleplex was inert at physiological pH conditions and activated only upon internalization in the acidic endocytic vesicles of tumor cells for fluorescence imaging and PDT. Compared to PDT alone, the combination of PDT and PD-L1 KD showed significantly enhanced efficacy for inhibiting tumor growth and distant metastasis in a B16-F10 melanoma xenograft tumor model. These results suggest that acid-activatable micelleplexes utilizing PDT-induced cancer immunotherapy are more effective when combined with siRNA-mediated PD-L1 blockade. This study could provide a general strategy for enhancing the therapy efficacy of photodynamic cancer therapy.

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Versatile Prodrug Nanoparticles for Acid‐Triggered Precise Imaging and Organelle‐Specific Combination Cancer Therapy

Feng

Zhou

et al. 2016

Adv Funct Materials

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Integration of chemotherapy with photodynamic therapy (PDT) has been emerging as a novel strategy for treatment of triple negative breast cancer (TNBC). However, the clinical translation of this approach is hindered by the unwanted dark toxicity due to the “always‐on” model and low tumor specificity of currently approved photosensitizer (PS). Here, the design of a multifunctional prodrug nanoparticle (NP) is described for precise imaging and organelle‐specific combination cancer therapy. The prodrug NP is composed of a newly synthesized oxaliplatin prodrug, hexadecyl‐oxaliplatin‐trimethyleneamine (HOT), an acid‐activatable PS, derivative of Chlorin e6 (AC), and functionalized with a targeting ligand iRGD for tumor homing and penetration. HOT displays much higher antitumor efficiency than oxaliplatin by simultaneously inducing mitochondria depolarizing and DNA cross‐linking. AC is specifically activated in the orthotopic or metastatic TNBC tumor for fluorescence imaging and PDT, while it remains inert in blood circulation to minimize the dark toxicity. Under the guide of acid‐activatable fluorescence imaging, PDT and chemotherapy can be synergistically performed for highly efficient regression of TNBC. Taken together, this versatile prodrug nanoplatform could achieve tumor‐specific imaging and organelle‐specific combination therapy, which can provide an alternative option for cancer theranostic.

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Yuanlei Fu

Binary Cooperative Prodrug Nanoparticles Improve Immunotherapy by Synergistically Modulating Immune Tumor Microenvironment

Acid-Activatable Versatile Micelleplexes for PD-L1 Blockade-Enhanced Cancer Photodynamic Immunotherapy

Versatile Prodrug Nanoparticles for Acid‐Triggered Precise Imaging and Organelle‐Specific Combination Cancer Therapy

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