选择性细胞穿透肽功能化聚合物囊泡介导甲氨蝶呤二钠在体内向人肺癌的高效靶向递送。

Selective Cell Penetrating Peptide-Functionalized Polymersomes Mediate Efficient and Targeted Delivery of Methotrexate Disodium to Human Lung Cancer In Vivo.

作者信息

Yang Weijing, Xia Yifeng, Fang Yuan, Meng Fenghua, Zhang Jian, Cheng Ru, Deng Chao, Zhong Zhiyuan

机构信息

Biomedical Polymers Laboratory and Jiangsu Key Laboratory of Advanced Functional Polymer Design and Application, College of Chemistry, Chemical Engineering and Materials Science, Soochow University, Suzhou, 215123, P. R. China.

出版信息

Adv Healthc Mater. 2018 Apr;7(7):e1701135. doi: 10.1002/adhm.201701135. Epub 2017 Dec 27.

DOI:10.1002/adhm.201701135

PMID:29280317

Abstract

It is a long challenge to develop nanomedicines that simultaneously possess tumor cell selectivity and penetration functions. Here, it is reported that selective cell penetrating peptide (RLWMRWYSPRTRAYGC)-functionalized polymersomes (SCPP-PS) mediate efficient and targeted delivery of methotrexate disodium (MTX) to human lung cancer in vivo. SCPP-PS with an SCPP density of 18.7% is self-crosslinked, has a small size (63-65 nm), and high MTX loading (up to 19.4 wt%), shows selective uptake and fast penetration into A549 lung cancer cells, and efficiently releases MTX intracellularly. Interestingly, MTX-loaded SCPP-PS (MTX-SCPP-PS) displays much lower IC than those of MTX-PS and free MTX. Installing SCPP to polymersomes has no detrimental effect to their long blood circulation time but significantly increases drug accumulation in A549 tumor (5.3% injected dose per gram at 8 h post injection). Remarkably, SCPP-PS exhibits deep penetration in to A549 tumors. MTX-SCPP-PS completely inhibits tumor progression and significantly improves survival rates in mice bearing A549 lung tumor xenografts as compared to MTX-PS and free MTX groups (median survival time: 75 vs 45 and 38 d, respectively), without causing noticeable adverse effects. These results highlight that functionalization of nanomedicines with SCPP is a feasible strategy to achieve efficient and targeted tumor therapy.

摘要

开发同时具备肿瘤细胞选择性和穿透功能的纳米药物是一项长期挑战。在此，有报道称，选择性细胞穿透肽（RLWMRWYSPRTRAYGC）功能化的聚合物囊泡（SCPP-PS）在体内介导甲氨蝶呤二钠（MTX）向人肺癌的高效靶向递送。SCPP密度为18.7%的SCPP-PS是自交联的，尺寸小（63-65纳米），MTX负载量高（高达19.4重量重量），显示出对A549肺癌细胞的选择性摄取和快速穿透，并在细胞内有效释放MTX。有趣的是，负载MTX的SCPP-PS（MTX-SCPP-PS）的半数抑制浓度远低于MTX-PS和游离MTX。将SCPP安装到聚合物囊泡上对其长血液循环时间没有不利影响，但显著增加了在A549肿瘤中的药物积累（注射后8小时为每克注射剂量的5.3%）。值得注意的是，SCPP-PS在A549肿瘤中表现出深度穿透。与MTX-PS和游离MTX组相比，MTX-SCPP-PS完全抑制肿瘤进展并显著提高携带A549肺肿瘤异种移植小鼠的存活率（中位生存时间：分别为75天对45天和38天），且未引起明显不良反应。这些结果突出表明，用SCPP对纳米药物进行功能化是实现高效靶向肿瘤治疗的可行策略。

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选择性细胞穿透肽功能化聚合物囊泡介导甲氨蝶呤二钠在体内向人肺癌的高效靶向递送。

Selective Cell Penetrating Peptide-Functionalized Polymersomes Mediate Efficient and Targeted Delivery of Methotrexate Disodium to Human Lung Cancer In Vivo.

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