Self-healing microcapsules synergetically modulate immunization microenvironments for potent cancer vaccination
Xiaobo Xi,Tong Ye,Shuang Wang,Na Xiangming,Jianghua Wang,Shuang Qing,Xiaoyong Gao,Changlong Wang,Feng Li,Wei Wei,Guanghui Ma +10 more
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TL;DR: A novel microcapsule-based formulation for high-performance cancer vaccinations with special self-healing feature provides a mild and efficient paradigm for antigen microencapsulation that effectively increase the antigen utilization, improve the antigen presentation, and activate antigen presenting cells.
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Abstract: Therapeutic cancer vaccines that harness the immune system to reject cancer cells have shown great promise for cancer treatment. Although a wave of efforts have spurred to improve the therapeutic effect, unfavorable immunization microenvironment along with a complicated preparation process and frequent vaccinations substantially compromise the performance. Here, we report a novel microcapsule-based formulation for high-performance cancer vaccinations. The special self-healing feature provides a mild and efficient paradigm for antigen microencapsulation. After vaccination, these microcapsules create a favorable immunization microenvironment in situ, wherein antigen release kinetics, recruited cell behavior, and acid surrounding work in a synergetic manner. In this case, we can effectively increase the antigen utilization, improve the antigen presentation, and activate antigen presenting cells. As a result, effective T cell response, potent tumor inhibition, antimetastatic effects, and prevention of postsurgical recurrence are achieved with various types of antigens, while neoantigen was encapsuled and evaluated in different tumor models.
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Bioinspired and Biomimetic Delivery Platforms for Cancer Vaccines
TL;DR: Recently, bioinspired materials and biomimetic technologies have emerged to play a part in reshaping the field of cancer nanomedicine as discussed by the authors, which can effectively transport therapeutic cargos to tumor sites, amplify antigen and adjuvant bioactivities, and enable spatiotemporal control and on-demand immunoactivation.
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TL;DR: Promising results will be tested in a phase III trial of L-BLP25 versus placebo in patients with stage III non–small cell lung cancer after response to primary chemoradiotherapy.
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Nanoengineered CAR-T Biohybrids for Solid Tumor Immunotherapy with Microenvironment Photothermal-Remodeling Strategy.
Ze Chen,Hong Pan,Yingmei Luo,Ting Yin,Baozhen Zhang,Jianhong Liao,Mengmeng Wang,Xiaofan Tang,Guojun Huang,Guanjun Deng,Mingbin Zheng,Lintao Cai +11 more
TL;DR: In this paper, a nano-engineered CAR-T strategy is reported for enhancing solid tumor therapy through bioorthogonal conjugation with nano-photosensitizer (indocyanine green nanoparticles, INPs) as a microenvironment modulator.
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Combining mannose receptor mediated nanovaccines and gene regulated PD-L1 blockade for boosting cancer immunotherapy.
Jie Chen,Jie Chen,Huapan Fang,Huapan Fang,Huapan Fang,Yingying Hu,Yingying Hu,Jiayan Wu,Jiayan Wu,Sijia Zhang,Sijia Zhang,Yuanji Feng,Yuanji Feng,Lin Lin,Lin Lin,Huayu Tian,Huayu Tian,Xuesi Chen,Xuesi Chen +18 more
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