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Paclitaxel-loaded and A10-3.2 aptamer-targeted poly(lactide-co-glycolic acid) nanobubbles for ultrasound imaging and therapy of prostate cancer

机译：载有紫杉醇且靶向A10-3.2适体的聚丙交酯-乙醇酸纳米气泡用于超声成像和前列腺癌治疗

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摘要

In the current study, we synthesized prostate cancer-targeting poly(lactide-co-glycolic acid) (PLGA) nanobubbles (NBs) modified using A10-3.2 aptamers targeted to prostate-specific membrane antigen (PSMA) and encapsulated paclitaxel (PTX). We also investigated their impact on ultrasound (US) imaging and therapy of prostate cancer. PTX-A10-3.2-PLGA NBs were developed using water-in-oil-in-water (water/oil/water) double emulsion and carbodiimide chemistry approaches. Fluorescence imaging together with flow cytometry verified that the PTX-A10-3.2-PLGA NBs were successfully fabricated and could specifically bond to PSMA-positive LNCaP cells. We speculated that, in vivo, the PTX-A10-3.2-PLGA NBs would travel for a long time, efficiently aim at prostate cancer cells, and sustainably release the loaded PTX due to the improved permeability together with the retention impact and US-triggered drug delivery. The results demonstrated that the combination of PTX-A10-3.2-PLGA NBs with low-frequency US achieved high drug release, a low 50% inhibition concentration, and significant cell apoptosis in vitro. For mouse prostate tumor xenografts, the use of PTX-A10-3.2-PLGA NBs along with low-frequency US achieved the highest tumor inhibition rate, prolonging the survival of tumor-bearing nude mice without obvious systemic toxicity. Moreover, LNCaP xenografts in mice were utilized to observe modifications in the parameters of PTX-A10-3.2-PLGA and PTX-PLGA NBs in the contrast mode and the allocation of fluorescence-labeled PTX-A10-3.2-PLGA and PTX-PLGA NBs in live small animals and laser confocal scanning microscopy fluorescence imaging. These results demonstrated that PTX-A10-3.2-PLGA NBs showed high gray-scale intensity and aggregation ability and showed a notable signal intensity in contrast mode as well as aggregation ability in fluorescence imaging. In conclusion, we successfully developed an A10-3.2 aptamer and loaded PTX-PLGA multifunctional theranostic agent for the purpose of obtaining US images of prostate cancer and providing low-frequency US-triggered therapy of prostate cancer that was likely to constitute a strategy for both prostate cancer imaging and chemotherapy.

机译：在当前的研究中，我们合成了靶向前列腺癌的聚丙交酯-乙醇酸（PLGA）纳米气泡（NBs），该纳米气泡使用针对前列腺特异性膜抗原（PSMA）和封装的紫杉醇（PTX）的A10-3.2适体进行了修饰。我们还调查了它们对超声（US）成像和前列腺癌治疗的影响。 PTX-A10-3.2-PLGA NB是使用水包油包水（水/油/水）双乳化液和碳二亚胺化学方法开发的。荧光成像和流式细胞仪验证了PTX-A10-3.2-PLGA NBs已成功制备，并且可以特异性结合PSMA阳性LNCaP细胞。我们推测，在体内，PTX-A10-3.2-PLGA NBs会传播很长时间，有效地靶向前列腺癌细胞，并由于改善的通透性，保留力影响和US触发而可持续释放负载的PTX。药物输送。结果表明，PTX-A10-3.2-PLGA NB与低频US的组合在体外实现了高药物释放，低50％抑制浓度和显着的细胞凋亡。对于小鼠前列腺肿瘤异种移植物，PTX-A10-3.2-PLGA NB与低频US的结合使用可实现最高的肿瘤抑制率，延长了荷瘤裸鼠的存活率，而没有明显的全身毒性。此外，利用小鼠的LNCaP异种移植物以对比模式观察了PTX-A10-3.2-PLGA和PTX-PLGA NBs参数的变化以及荧光标记的PTX-A10-3.2-PLGA和PTX-PLGA NBs的分配在活体小动物和激光共聚焦扫描显微镜下进行荧光成像。这些结果表明PTX-A10-3.2-PLGA NBs显示出高灰度强度和聚集能力，并且在对比模式下显示出显着的信号强度以及荧光成像中的聚集能力。总之，我们成功开发了A10-3.2适体并装载了PTX-PLGA多功能治疗试剂，以获取前列腺癌的US图像并提供低频US触发的前列腺癌治疗，这很可能构成两者的策略前列腺癌的成像和化疗。

著录项

期刊名称 International Journal of Nanomedicine
作者
Meng Wu; Ying Wang; Yiru Wang; Mingbo Zhang; Yukun Luo; Jie Tang; Zhigang Wang; Dong Wang; Lan Hao; Zhibiao Wang;
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作者单位

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年(卷),期 2017(12),-1
年度 2017
页码 5313–5330
总页数 18
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
nanobubbles ultrasound imaging paclitaxel cancer therapy aptamer prostate-specific membrane antigen;

机译：纳米气泡;超声成像;紫杉醇;癌症治疗;适体;前列腺特异性膜抗原;

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专利

1. Paclitaxel-loaded and A10-3.2 aptamer-targeted poly(lactide-co-glycolic acid) nanobubbles for ultrasound imaging and therapy of prostate cancer [J] . Meng Wu, Ying Wang, Yiru Wang, International Journal of Nanomedicine . 2017,第3期

机译：载有紫杉醇和A10-3.2适体靶向的聚丙交酯- co </ em>-乙醇酸的纳米气泡用于超声成像和前列腺癌的治疗

2. Ultrasound-mediated nanobubble destruction (UMND) facilitates the delivery of A10-3.2 aptamer targeted and siRNA-loaded cationic nanobubbles for therapy of prostate cancer [J] . Meng Wu, Hongyun Zhao, Liang Guo, Drug delivery. . 2018,第1期

机译：超声介导的纳米气泡破坏（UMND）促进了A10-3.2适体靶向和siRNA负载的阳离子纳米气泡的递送，可用于治疗前列腺癌

3. Folate-receptor-targeted laser-activable poly(lactide-co-glycolic acid) nanoparticles loaded with paclitaxel/indocyanine green for photoacoustic/ultrasound imaging and chemo/photothermal therapy [J] . Fengqiu Liu, Yuli Chen, Yizhen Li, International Journal of Nanomedicine . 2018,第1期

机译：叶酸受体靶向的激光活化聚乳酸-乙醇酸共聚物纳米粒子，负载紫杉醇/吲哚菁绿，用于光声/超声成像和化学/光热疗法

4. Quantification of PSMA expression in prostate cancer by pharmacokinetic modeling of targeted ultrasound nanobubbles [C] . Simona Turco, Reshani H. Perera, Hessel Wijkstra, IEEE International Ultrasonics Symposium . 2019

机译：靶向超声纳米博上药代动力学建模的前列腺癌中PSMA表达的定量

5. Image guided radiation therapy applications for head and neck, prostate, and breast cancers using 3D ultrasound imaging and Monte Carlo dose calculations. [D] . Fraser, Danielle. 2010

机译：使用3D超声成像和蒙特卡洛剂量计算，针对头颈部，前列腺癌和乳腺癌的图像引导放射疗法应用。

6. Ultrasound-mediated nanobubble destruction (UMND) facilitates the delivery of A10-3.2 aptamer targeted and siRNA-loaded cationic nanobubbles for therapy of prostate cancer [O] . Meng Wu, Hongyun Zhao, Liang Guo, 2018

机译：超声介导的纳米气泡破坏（UMND）促进了A10-3.2适体靶向和siRNA负载的阳离子纳米气泡的递送可用于治疗前列腺癌

7. Real time ultrasound molecular imaging of prostate cancer with PSMA-targeted nanobubbles [O] . Reshani H. Perera, Al de Leon, Xinning Wang, 2020

机译：与PSMA靶向纳米博语的前列腺癌实时超声分子成像

8. Development of Targeted Nanobubbles for Ultrasound Imaging and Ablation of Metastatic Prostate Cancer Lesions. [R] . El-Sayed, M. E. 2015

机译：用于超声成像和消融转移性前列腺癌病变的靶向纳米气泡的开发。

1. 载紫杉醇星型M-PLA-TPGS纳米颗粒的合成及其用于前列腺癌治疗药物载体的研究 [J] . 王海 ,张超 ,张琳华 . 高等学校化学学报 . 2014,第010期

2. 多西紫杉醇靶向纳米药物对小细胞肺癌治疗作用分析 [J] . 赵守焱 . 湖南中医药大学学报 . 2018,第A01期

3. MG7抗体靶向紫杉醇纳米药物对胃癌治疗的研究 [J] . 刘圣活 ,帅心涛 ,周建华 . 中国医学创新 . 2011,第017期

4. 核酸适体靶向红荧烯有机纳米探针用于肿瘤成像研究 [J] . 李传胜 ,吴亚运 ,姜涛 . 集成技术 . 2016,第004期

5. 基于核酸适体模板的稀土纳米载体用于靶向成像及治疗 [J] . 蒲芳 ,任劲松 . 科技创新导报 . 2016,第17期

6. PSMA靶向适体介导的前列腺癌靶向基因递送载体 [C] . 武鑫 ,朱全刚 ,刘继勇 . 第十一届全国青年药学工作者最新科研成果交流会 . 2012

7. 核酸适配体A10-3.2介导前列腺癌靶向纳米给药系统的构建及其诊疗作用研究 [A] . 陈中建 . 2018

1. A10-3.2/Fe3O4@mSiO2/DTX靶向载药纳米粒的制备方法及其应用 [P] . 中国专利： CN113456833A . 2021-10-01

2. 一种用于靶向肺癌治疗的基因纳米探针及其制备方法和应用 [P] . 中国专利： CN108753770B . 2020.07.28

3. phosphodiesterase 4d7 (pde4d7), for use as a marker for hormone-sensitive malignant prostate cancer; composition or method of data acquisition or immunoassay to diagnose, detect, monitor or predict hormone-sensitive malignant prostate cancer or to diagnose, detect, monitor or predict progression to hormone-sensitive malignant prostate cancer; use of pde4d7; immunoassay to discriminate between a benign prostate tumor and a hormone-sensitive malignant prostate cancer; method for identifying an individual for eligibility for hormone-sensitive malignant prostate cancer therapy; immunoassay to classify an individual or section of individuals with a hormone-sensitive malignant prostate cancer disease; inhibitory pharmaceutical composition for the treatment or prevention of hormone sensitive malignant prostate cancer; stimulatory pharmaceutical composition; and; use of a pde4d7 protein-specific antibody and / or a pde4d7 protein-specific antibody variant [P] . 外国专利： BRPI1007704A2 . 2019-12-03

机译：磷酸二酯酶4d7（pde4d7），用作激素敏感性恶性前列腺癌的标志物;用于诊断，检测，监测或预测激素敏感性恶性前列腺癌或诊断，检测，监测或预测进展为激素敏感性恶性前列腺癌的数据采集或免疫测定的组合物或方法;使用pde4d7;免疫测定，以区分良性前列腺肿瘤和激素敏感性恶性前列腺癌;鉴定有资格接受激素敏感性恶性前列腺癌治疗的人的方法;免疫测定法，对患有激素敏感性恶性前列腺癌的个体或个体进行分类;用于治疗或预防激素敏感性恶性前列腺癌的抑制性药物组合物;刺激性药物组合物;和; pde4d7蛋白特异性抗体和/或pde4d7蛋白特异性抗体变异的用途

4. "Prostate and prostate cancer stem cells, methods of isolating a prostate stem cell and selection of a prostate cancer patient, and methods to inhibit proliferation of a prostate stem cell, for the prevention of prostate cancer relapse, for prostate cancer treatment, for providing adjuvant therapy, for promoting growth or repair of prostate tissue, for promoting prostate growth, for functional prostate delivery, and for selecting a compound " [P] . 外国专利： BRPI0914473A2 . 2019-09-24

机译：“前列腺和前列腺癌干细胞，分离前列腺干细胞和选择前列腺癌患者的方法以及抑制前列腺干细胞增殖的方法，以预防前列腺癌复发，治疗前列腺癌，提供佐剂治疗，以促进前列腺组织的生长或修复，促进前列腺的生长，功能性前列腺的输送，以及选择一种化合物

5. methods for determining prostate cancer susceptibility in a human individual, identifying a marker for use in prostate cancer susceptibility assessment, and for genotyping a nucleic acid sample obtained from a human individual at risk of, or diagnosed with, cancer to assess a human individual for likelihood of response to a therapeutic agent to prevent and / or ameliorate symptoms associated with prostate cancer, to predict prognosis of an individual diagnosed with cancer, and to monitor progress in treatment of an individual undergoing treatment. for prostate cancer, kit for assessing susceptibility to prostate cancer in a human individual, use of a computer readable oligonucleotide probe, and apparatus for determining a genetic indicator for prostate cancer in a human individual. [P] . 外国专利： BRPI0807236A2 . 2019-09-24

机译：用于确定人类个体中前列腺癌易感性，鉴定用于前列腺癌易感性评估中的标记以及对从患有癌症或被诊断患有癌症的人类个体获得的核酸样品进行基因分型以评估人类个体可能性的方法对治疗剂的反应的预防，预防和/或改善与前列腺癌有关的症状，预测诊断为癌症的个体的预后以及监测正在接受治疗的个体的治疗进展。用于前列腺癌的试剂盒，用于评估人类个体对前列腺癌的易感性的试剂盒，计算机可读寡核苷酸探针的用途以及用于确定人类个体的前列腺癌的遗传指标的设备。

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Paclitaxel-loaded and A10-3.2 aptamer-targeted poly(lactide-co-glycolic acid) nanobubbles for ultrasound imaging and therapy of prostate cancer

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