基于神经内分泌肿瘤靶向性上转换纳米粒子的胶束用于近红外控制的联合化疗和光动力疗法以及荧光成像

Neuroendocrine Tumor-Targeted Upconversion Nanoparticle-Based Micelles for Simultaneous NIR-Controlled Combination Chemotherapy and Photodynamic Therapy, and Fluorescence Imaging.

作者信息

Chen Guojun, Jaskula-Sztul Renata, Esquibel Corinne R, Lou Irene, Zheng Qifeng, Dammalapati Ajitha, Harrison April, Eliceiri Kevin W, Tang Weiping, Chen Herbert, Gong Shaoqin

机构信息

Department of Materials Science and Engineering, University of Wisconsin-Madison, Madison, WI 53715, USA. Wisconsin Institute for Discovery, University of Wisconsin-Madison, Madison, WI 53715, USA.

Department of Surgery, University of Alabama at Birmingham, Birmingham, AL 35233, USA.

出版信息

Adv Funct Mater. 2017 Feb 23;27(8). doi: 10.1002/adfm.201604671. Epub 2017 Jan 17.

DOI:10.1002/adfm.201604671

PMID:28989337

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5630134/

Abstract

Although neuroendocrine tumors (NETs) are slow growing, they are frequently metastatic at the time of discovery and no longer amenable to curative surgery, emphasizing the need for the development of other treatments. In this study, multifunctional upconversion nanoparticle (UCNP)-based theranostic micelles are developed for NET-targeted and near-infrared (NIR)-controlled combination chemotherapy and photodynamic therapy (PDT), and bioimaging. The theranostic micelle is formed by individual UCNP functionalized with light-sensitive amphiphilic block copolymers poly(4,5-dimethoxy-2-nitrobenzyl methacrylate)-polyethylene glycol (PNBMA-PEG) and Rose Bengal (RB) photosensitizers. A hydrophobic anticancer drug, AB3, is loaded into the micelles. The NIR-activated UCNPs emit multiple luminescence bands, including UV, 540 nm, and 650 nm. The UV peaks overlap with the absorption peak of photocleavable hydrophobic PNBMA segments, triggering a rapid drug release due to the NIR-induced hydrophobic-to-hydrophilic transition of the micelle core and thus enabling NIR-controlled chemotherapy. RB molecules are activated via luminescence resonance energy transfer to generate O for NIR-induced PDT. Meanwhile, the 650 nm emission allows for efficient fluorescence imaging. KE108, a true pansomatostatin nonapeptide, as an NET-targeting ligand, drastically increases the tumoral uptake of the micelles. Intravenously injected AB3-loaded UCNP-based micelles conjugated with RB and KE108-enabling NET-targeted combination chemotherapy and PDT-induce the best antitumor efficacy.

摘要

尽管神经内分泌肿瘤（NETs）生长缓慢，但在发现时它们常常已经发生转移，不再适合进行根治性手术，这凸显了开发其他治疗方法的必要性。在本研究中，开发了基于多功能上转换纳米粒子（UCNP）的诊疗胶束，用于NET靶向和近红外（NIR）控制的联合化疗及光动力疗法（PDT），以及生物成像。该诊疗胶束由用光敏两亲性嵌段共聚物聚（4,5-二甲氧基-2-硝基苄基甲基丙烯酸酯）-聚乙二醇（PNBMA-PEG）和玫瑰红（RB）光敏剂功能化的单个UCNP形成。一种疏水性抗癌药物AB3被装载到胶束中。近红外激活的UCNP发射多个发光带，包括紫外线、540纳米和650纳米。紫外线峰与可光裂解的疏水性PNBMA链段的吸收峰重叠，由于近红外诱导的胶束核心从疏水性到亲水性的转变而触发快速药物释放，从而实现近红外控制的化疗。RB分子通过发光共振能量转移被激活，以产生用于近红外诱导的光动力疗法的单线态氧。同时，650纳米的发射允许进行高效的荧光成像。KE108，一种真正的全生长抑素九肽，作为NET靶向配体，极大地增加了胶束在肿瘤中的摄取。静脉注射与RB和KE108缀合的基于UCNP的载AB3胶束，实现NET靶向联合化疗和光动力疗法，诱导出最佳的抗肿瘤疗效。

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