通过肝素结合蛋白与硫酸藻酸盐的亲和结合实现生物活性纳米颗粒的自发共组装。

Spontaneous Coassembly of Biologically Active Nanoparticles via Affinity Binding of Heparin-Binding Proteins to Alginate-Sulfate.

作者信息

Ruvinov Emil, Freeman Inbar, Fredo Roei, Cohen Smadar

机构信息

Avram and Stella Goldstein-Goren Department of Biotechnology Engineering, ‡Regenerative Medicine and Stem Cell (RMSC) Research Center, and §The Ilse Katz Institute for Nanoscale Science and Technology, Ben-Gurion University of the Negev , Beer-Sheva 8410501, Israel.

出版信息

Nano Lett. 2016 Feb 10;16(2):883-8. doi: 10.1021/acs.nanolett.5b03598. Epub 2016 Jan 13.

DOI:10.1021/acs.nanolett.5b03598

PMID:26745552

Abstract

Controlled delivery of heparin-binding (HB) proteins represents a challenge in regenerative medicine strategies. Here, we describe the features of novel nanoparticles (NPs), spontaneously coassembled due to affinity interactions between HB proteins and the semisynthetic anionic polysaccharide, alginate-sulfate. The NPs efficiently encapsulated and protected the proteins from proteolysis. Injection of a combination of NPs encapsulating multiple therapeutic growth factors promoted effective and long-term tissue repair in animal models of severe ischemia (murine model of hindlimb ischemia and acute myocardial infarction in rats). This simple yet efficient NP fabrication method is amenable for clinical use.

摘要

肝素结合（HB）蛋白的可控递送是再生医学策略中的一项挑战。在此，我们描述了新型纳米颗粒（NPs）的特性，这些纳米颗粒由于HB蛋白与半合成阴离子多糖硫酸藻酸盐之间的亲和相互作用而自发共组装。这些纳米颗粒有效地包裹并保护蛋白质免受蛋白水解。注射封装多种治疗性生长因子的纳米颗粒组合可促进严重缺血动物模型（小鼠后肢缺血模型和大鼠急性心肌梗死模型）中的有效和长期组织修复。这种简单而有效的纳米颗粒制备方法适用于临床应用。

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通过肝素结合蛋白与硫酸藻酸盐的亲和结合实现生物活性纳米颗粒的自发共组装。

Spontaneous Coassembly of Biologically Active Nanoparticles via Affinity Binding of Heparin-Binding Proteins to Alginate-Sulfate.

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