Chemotactic Activity of Site-Specific Multivalent Conjugates of Stromal Cell-Derived Factor 1 α on Branched Nanoparticles

生物材料与纳米技术(英文) Pub Date : 2018-01-11 DOI:10.4236/JBNB.2018.91005

Yu-Fang Hsieh, Fang Huang, S. Patel, Song Li

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Abstract

Stromal cell-derived factor 1α (SDF1α) is a potent chemokine for the recruitment of stem cells. A challenge is to maintain its activity and control its release. In this study, we engineered a recombinant cysteine-SDF1α (cysSDF1α) protein, and performed multivalent conjugation of cysSDF1 through the maleimide functional group to two forms of branched nanoparticles: multi-arm poly (ethylene glycol) (MA-PEG) and hyaluronic acid (HA). We characterized the chemotactic activity of the conjugates, and determined how the molecular weight (MW) of MA-PEG and HA affected the chemotactic activity. CysSDF1α had similar efficiency to wild-type SDF1α in cell recruitment. Multivalent conjugation of cysSDF1α to low MW MA-PEG (~18 nm) did not significantly affect the chemotactic activity, while the conjugation of cysSDF1α to high MW MA-PEG (~72 nm) lowered the efficiency, possibly due to the larger spacing between conjugated SDF1α molecules. HA has a linear backbone and a high density of multivalent binding sites; however, the chemotactic activity of HA-linked cys-SDF1α was much lower, which further decreased with the increase of HA MW from 200 kDa (~0.78 μm) to 700 kDa (~2.7 μm). Digestion of HA into smaller fragments using hyaluronidase partially recovered the chemotactic activity of cysSDF1α, suggesting that high MW HA might exert steric hindrance for SDF1α binding to its receptors on cell surface and that HA could be used as a depot for SDF1α storage and release. These results demonstrate that multivalent conjugates of SDF1α to nanoparticles may be used to engineer SDF1α delivery for cell recruitment and tissue regeneration.

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基质细胞衍生因子1 α位点特异性多价偶联物在支化纳米颗粒上的趋化活性

基质细胞衍生因子1α (SDF1α)是一种有效的干细胞募集趋化因子。一个挑战是保持它的活性并控制它的释放。在这项研究中，我们设计了重组半胱氨酸- sdf1 α (cysSDF1α)蛋白，并通过马来酰亚胺官能团将cysSDF1多价偶联到两种形式的支链纳米颗粒:多臂聚乙二醇(MA-PEG)和透明质酸(HA)。我们表征了缀合物的趋化活性，并确定了MA-PEG和HA的分子量(MW)如何影响趋化活性。CysSDF1α在细胞募集方面与野生型SDF1α具有相似的效率。低分子量MA-PEG (~18 nm)偶联cysSDF1α对趋化活性没有显著影响，而高分子量MA-PEG (~72 nm)偶联cysSDF1α降低了趋化活性，这可能是由于偶联SDF1α分子之间的间距较大。透明质酸具有线性骨架和高密度的多价结合位点;HA连接的cys-SDF1α的趋化活性较低，随着HA分子量从200 kDa (~0.78 μm)增加到700 kDa (~2.7 μm)，趋化活性进一步降低。透明质酸酶将HA分解成更小的片段，部分恢复了cysSDF1α的趋化活性，这表明高分子量HA可能对SDF1α与细胞表面受体的结合产生空间位阻，并且HA可以作为SDF1α储存和释放的仓库。这些结果表明，SDF1α与纳米颗粒的多价偶联物可用于设计SDF1α递送，用于细胞募集和组织再生。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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生物材料与纳米技术(英文)

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