Biomimetic Functional Nanocomplexes for Photothermal Cancer Chemoimmunotheranostics

IF 11.1 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Small Science Pub Date : 2024-08-19 DOI:10.1002/smsc.202400324
Nina Sang, Yun Qi, Shun Nishimura, Eijiro Miyako
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Abstract

This study presents a novel multimodal cancer theranostic platform developed using tumor cell-coated biomimetic carbon nanohorn (CNH) complexes that encapsulate the anticancer drug paclitaxel (PTX). This platform combines photothermal therapy, chemotherapy, and immunotherapy to fight against malignant colorectal cancer. These engineered nanocomplexes are designed to deliver sufficient PTX molecules into a targeted solid tumor in a light-controllable manner while inducing significant photothermal and antitumor immune responses. The outstanding photothermal conversion property of the CNHs under near-infrared light enables effective cancer cell ablation and awakening of cytotoxic immune responses. Tumor cell membrane-coated CNHs show improved water dispersibility, immune evasion, and targeting capabilities alongside enhanced immune activation against tumors. The efficacy of the biomimetic functional CNH nanocomplexes is demonstrated through excellent tumor-targeting, controlled drug-releasing behavior, and induction of cancer cell death, contributing to a robust antitumor response. This study provides a promising approach to cancer treatment by integrating multiple therapeutic modalities into a single platform, potentially enhancing treatment efficacy to combat intractable cancer.

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用于光热癌症化疗免疫疗法的仿生功能纳米复合物
本研究介绍了一种新型多模式癌症治疗平台,该平台利用肿瘤细胞包裹的仿生碳纳米角(CNH)复合物来封装抗癌药物紫杉醇(PTX)。该平台将光热疗法、化疗和免疫疗法结合起来,共同对抗恶性结直肠癌。这些经过设计的纳米复合物能以光控方式将足够的 PTX 分子送入靶向实体肿瘤,同时诱导显著的光热和抗肿瘤免疫反应。CNHs 在近红外光下具有出色的光热转换特性,可有效消融癌细胞并唤醒细胞毒性免疫反应。涂有肿瘤细胞膜的 CNHs 在增强对肿瘤的免疫激活的同时,还具有更好的水分散性、免疫躲避性和靶向性。生物仿生功能性 CNH 纳米复合物的功效体现在出色的肿瘤靶向性、可控的药物释放行为以及诱导癌细胞死亡等方面,有助于产生强有力的抗肿瘤反应。这项研究将多种治疗方式整合到一个平台中,为癌症治疗提供了一种前景广阔的方法,有可能提高抗击难治性癌症的疗效。
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来源期刊
CiteScore
14.00
自引率
2.40%
发文量
0
期刊介绍: Small Science is a premium multidisciplinary open access journal dedicated to publishing impactful research from all areas of nanoscience and nanotechnology. It features interdisciplinary original research and focused review articles on relevant topics. The journal covers design, characterization, mechanism, technology, and application of micro-/nanoscale structures and systems in various fields including physics, chemistry, materials science, engineering, environmental science, life science, biology, and medicine. It welcomes innovative interdisciplinary research and its readership includes professionals from academia and industry in fields such as chemistry, physics, materials science, biology, engineering, and environmental and analytical science. Small Science is indexed and abstracted in CAS, DOAJ, Clarivate Analytics, ProQuest Central, Publicly Available Content Database, Science Database, SCOPUS, and Web of Science.
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