Multifunctional Theranostic Contrast Agent for US/NIRF-Based Tumor Diagnosis and US-Triggered Combined Photothermal and Gene Therapy

MatSciRN: Tissue Engineering (Topic) Pub Date : 2019-05-10 DOI:10.2139/ssrn.3385801

Ling Wang, Hangqing Lu, Q. Gao, Chenyan Yuan, Fengan Ding, Jia Li, Dongsheng Zhang, Xilong Ou

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Abstract

Purpose: Encapsulated microbubbles (MBs) have been reported asnew theranostic carriers for simultaneous imaging and ultrasound (US)-triggered therapy. Here, we designed a dual-modality US/NIRF contrastagent and extended its applications from image contrast enhancement tocombined diagnosis and therapy with US-directed and site-specifictargeting.

Methods: Gold nanorods (AuNRs) resonant at 880 nm together with theNIR797 dye were first encapsulated in lipid-shelled MBs to constructfluorescent gold microbubbles (NIR797/AuMBs) via thin film hydration andmechanical shaking in the presence of sulfur hexafluoride (SF6) gas.Then, polyethylenimine (PEI)-DNA complexes were electrostaticallyconjugated onto the surface of the NIR797/AuMBs, forming theranosticencapsulated MBs (PEI-DNA/NIR797/AuMBs). The potential of the PEIDNA/NIR797/AuMBs for use as a dual-modality contrast enhancement agentwas evaluated in vitro and in vivo. The antitumor effect of US/NIR laserirradiation mediating double-fusion suicide gene and photothermal therapywas also investigated using Bel-7402 cells and xenografts.

Results: The developed theranostic AuMB complexes could not only provideexcellent US and NIRF imaging to detect tumors but also serve as anefficient US-triggered carrier for gene delivery and photothermalablation of tumors in xenografted nude mice. And US + laser exposuregroup showed a much higher rate of cell inhibition, apoptosis andnecrosis as well as a higher Bel-7402 xenograft inhibition rate than thesingle gene therapy or single exposure (US or laser) group.

Conclusions: PEI-DNA/NIR797/AuMBs would be of great value for providingmore comprehensive diagnostic information and to guide more accurate andeffective synergistic cancer therapy.

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基于US/ nirf的肿瘤诊断和US触发的光热和基因联合治疗的多功能治疗造影剂

目的:被封装的微泡(mb)被报道为同时成像和超声(US)触发治疗的新治疗载体。在这里，我们设计了一种双模US/NIRF造影剂，并将其应用范围从图像对比度增强扩展到结合US导向和部位特异性靶向的诊断和治疗。方法:首先在六氟化硫(SF6)气体存在下，将共振波长为880 nm的金纳米棒(AuNRs)与theNIR797染料一起包裹在脂质壳的mb中，通过薄膜水化和机械振荡形成荧光金微泡(NIR797/AuMBs)。然后，将聚乙烯亚胺(PEI)-DNA络合物静电偶联到NIR797/AuMBs表面，形成治疗性封装的mb (PEI-DNA/NIR797/AuMBs)。在体外和体内对PEIDNA/NIR797/AuMBs作为双模对比增强剂的潜力进行了评估。采用Bel-7402细胞和异种移植物，研究了US/NIR激光照射介导双融合自杀基因和光热治疗的抗肿瘤作用。结果:制备的治疗性AuMB复合物不仅可以提供良好的US和NIRF成像检测肿瘤，而且可以作为高效的US触发载体用于异种移植裸鼠的基因传递和肿瘤光热消融。US +激光暴露组细胞抑制率、凋亡率、坏死率和Bel-7402异种移植物抑制率均高于单基因治疗组和单基因暴露组(US +激光)。结论:PEI-DNA/NIR797/AuMBs对提供更全面的诊断信息，指导更准确有效的肿瘤协同治疗具有重要价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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MatSciRN: Tissue Engineering (Topic)

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