将白蛋白包封的紫杉醇纳米颗粒靶向肿瘤。

Targeting of albumin-embedded paclitaxel nanoparticles to tumors.

作者信息

Karmali Priya Prakash, Kotamraju Venkata Ramana, Kastantin Mark, Black Matthew, Missirlis Dimitris, Tirrell Matthew, Ruoslahti Erkki

机构信息

Vascular Mapping Center, Burnham Institute for Medical Research at UCSB, University of California, Santa Barbara, California 93106-9610, USA.

出版信息

Nanomedicine. 2009 Mar;5(1):73-82. doi: 10.1016/j.nano.2008.07.007. Epub 2008 Oct 1.

DOI:10.1016/j.nano.2008.07.007

PMID:18829396

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2824435/

Abstract

We have used tumor-homing peptides to target abraxane, a clinically approved paclitaxel-albumin nanoparticle, to tumors in mice. The targeting was accomplished with two peptides, CREKA and LyP-1 (CGNKRTRGC). Fluorescein (FAM)-labeled CREKA-abraxane, when injected intravenously into mice bearing MDA-MB-435 human cancer xenografts, accumulated in tumor blood vessels, forming aggregates that contained red blood cells and fibrin. FAM-LyP-1-abraxane co-localized with extravascular islands expressing its receptor, p32. Self-assembled mixed micelles carrying the homing peptide and the label on different subunits accumulated in the same areas of tumors as LyP-1-abraxane, showing that Lyp-1 can deliver intact nanoparticles into extravascular sites. Untargeted, FAM-abraxane was detected in the form of a faint meshwork in tumor interstitium. LyP-1-abraxane produced a statistically highly significant inhibition of tumor growth compared with untargeted abraxane. These results show that nanoparticles can be effectively targeted into extravascular tumor tissue and that targeting can enhance the activity of a therapeutic nanoparticle.

摘要

我们已使用肿瘤归巢肽将临床上已获批的紫杉醇白蛋白纳米粒（阿霉素）靶向到小鼠体内的肿瘤。这种靶向作用是通过两种肽，即CREKA和LyP-1（CGNKRTRGC）来实现的。当将荧光素（FAM）标记的CREKA-阿霉素静脉注射到携带MDA-MB-435人癌异种移植瘤的小鼠体内时，它会在肿瘤血管中积累，形成包含红细胞和纤维蛋白的聚集体。FAM-LyP-1-阿霉素与表达其受体p32的血管外岛共定位。在不同亚基上携带归巢肽和标记物的自组装混合胶束与LyP-1-阿霉素一样在肿瘤的相同区域积累，这表明LyP-1可以将完整的纳米颗粒递送至血管外部位。未靶向的FAM-阿霉素以肿瘤间质中微弱网状物的形式被检测到。与未靶向的阿霉素相比，LyP-1-阿霉素对肿瘤生长产生了统计学上高度显著的抑制作用。这些结果表明，纳米颗粒可以有效地靶向到血管外肿瘤组织，并且靶向作用可以增强治疗性纳米颗粒的活性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1a64/2824435/a45b66965713/nihms-170275-f0001.jpg

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