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超声介导的纳米泡破坏(UMND)促进了靶向 A10-3.2 适体和载有 siRNA 的阳离子纳米泡的递送来治疗前列腺癌。

Ultrasound-mediated nanobubble destruction (UMND) facilitates the delivery of A10-3.2 aptamer targeted and siRNA-loaded cationic nanobubbles for therapy of prostate cancer.

机构信息

a Department of Ultrasound , Chinese PLA General Hospital , Beijing , China.

b School of Medicine , Nankai University , Tianjin , China.

出版信息

Drug Deliv. 2018 Nov;25(1):226-240. doi: 10.1080/10717544.2017.1422300.

DOI:10.1080/10717544.2017.1422300
PMID:29313393
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6058493/
Abstract

The Forkhead box M1 (FoxM1) transcription factor is an important anti-tumor target. A novel targeted ultrasound (US)-sensitive nanobubble that is likely to make use of the physical energy of US exposure for the improvement of delivery efficacy to target tumors and specifically silence FoxM1 expression appears as among the most potential nanocarriers in respect of drug delivery. In this study, we synthesized a promising anti-tumor targeted FoxM1 siRNA-loaded cationic nanobubbles (CNBs) conjugated with an A10-3.2 aptamer (siFoxM1-Apt-CNBs), which demonstrate high specificity when binding to prostate-specific membrane antigen (PSMA) positive LNCaP cells. Uniform nanoscaled siFoxM1-Apt-CNBs were developed using a thin-film hydration sonication, carbodiimide chemistry approaches, and electrostatic adsorption methods. Fluorescence imaging as well as flow cytometry evidenced the fact that the siFoxM1-Apt-CNBs were productively developed and that they specifically bound to PSMA-positive LNCaP cells. siFoxM1-Apt-CNBs combined with ultrasound-mediated nanobubble destruction (UMND) significantly improved transfection efficiency, cell apoptosis, and cell cycle arrest in vitro while reducing FoxM1 expression. In vivo xenografts tumors in nude-mouse model results showed that siFoxM1-Apt-CNBs combined with UMND led to significant inhibition of tumor growth and prolonged the survival of the mice, with low toxicity, an obvious reduction in FoxM1 expression, and a higher apoptosis index. Our study suggests that siFoxM1-Apt-CNBs combined with UMND might be a promising targeted gene delivery strategy for therapy of prostate cancer.

摘要

叉头框 M1(FoxM1)转录因子是一种重要的抗肿瘤靶点。一种新型靶向超声(US)敏感纳米泡,有望利用 US 暴露的物理能量提高递送到靶肿瘤的效率,并特异性沉默 FoxM1 表达,似乎是最有潜力的药物递送纳米载体之一。在这项研究中,我们合成了一种有前途的抗肿瘤靶向 FoxM1 siRNA 负载的阳离子纳米泡(CNBs),与 A10-3.2 适体(siFoxM1-Apt-CNBs)偶联,当与前列腺特异性膜抗原(PSMA)阳性的 LNCaP 细胞结合时,表现出高度特异性。使用薄膜水化超声、碳二亚胺化学方法和静电吸附方法开发了均匀纳米级的 siFoxM1-Apt-CNBs。荧光成像和流式细胞术证实了 siFoxM1-Apt-CNBs 已成功开发,并特异性结合 PSMA 阳性的 LNCaP 细胞。siFoxM1-Apt-CNBs 联合超声介导的纳米泡破坏(UMND)显著提高了体外转染效率、细胞凋亡和细胞周期阻滞,同时降低了 FoxM1 表达。裸鼠模型体内异种移植肿瘤结果表明,siFoxM1-Apt-CNBs 联合 UMND 导致肿瘤生长显著抑制,小鼠存活时间延长,毒性低,FoxM1 表达明显降低,凋亡指数升高。我们的研究表明,siFoxM1-Apt-CNBs 联合 UMND 可能是一种有前途的靶向基因传递策略,用于治疗前列腺癌。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2921/6058493/14e8742913d1/IDRD_A_1422300_F0004_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2921/6058493/f9ade9f995fc/IDRD_A_1422300_F0001_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2921/6058493/761086b0a086/IDRD_A_1422300_F0002_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2921/6058493/14e8742913d1/IDRD_A_1422300_F0004_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2921/6058493/f9ade9f995fc/IDRD_A_1422300_F0001_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2921/6058493/761086b0a086/IDRD_A_1422300_F0002_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2921/6058493/14e8742913d1/IDRD_A_1422300_F0004_C.jpg

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