带正电荷的多孔多糖纳米粒子负载阴离子分子后，表现出“隐形”阳离子纳米载体的特性。

Positively-charged, porous, polysaccharide nanoparticles loaded with anionic molecules behave as 'stealth' cationic nanocarriers.

机构信息

Inserm U646, Pôle pharmaceutique, CHU d'Angers, Université d'Angers, 10 rue André Boquel, 49100, Angers, France.

出版信息

Pharm Res. 2010 Jan;27(1):126-33. doi: 10.1007/s11095-009-9986-z. Epub 2009 Oct 23.

DOI:10.1007/s11095-009-9986-z

PMID:19851846

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2901554/

Abstract

PURPOSE

Stealth nanoparticles are generally obtained after modifying their surface with hydrophilic polymers, such as PEG. In this study, we analysed the effect of a phospholipid (DG) or protein (BSA) inclusion in porous cationic polysaccharide (NP(+)) on their physico-chemical structure and the effect on complement activation.

METHODS

NP(+)s were characterised in terms of size, zeta potential (zeta) and static light scattering (SLS). Complement consumption was assessed in normal human serum (NHS) by measuring the residual haemolytic capacity of the complement system.

RESULTS

DG loading did not change their size or zeta, whereas progressive BSA loading lightly decreased their zeta. An electrophoretic mobility analysis study showed the presence of two differently-charged sublayers at the NP(+) surface which are not affected by DG loading. Complement system activation, studied via a CH50 test, was suppressed by DG or BSA loading. We also demonstrated that NP(+)s could be loaded by a polyanionic molecule, such as BSA, after their preliminary filling by a hydrophobic molecule, such as DG.

CONCLUSION

These nanoparticles are able to absorb large amounts of phospholipids or proteins without change in their size or zeta potential. Complement studies showed that stealth behaviour is observed when they are loaded and saturated either with anionic phospholipid or proteins.

摘要

目的

亲水性聚合物（如聚乙二醇[PEG]）对纳米粒子进行表面修饰后，通常可获得隐形纳米粒子。在这项研究中，我们分析了在多孔阳离子多糖（NP(+））中包含磷脂（DG）或蛋白质（BSA）对其物理化学结构的影响，以及对补体激活的影响。

方法

NP(+)的粒径、Zeta 电位（zeta）和静态光散射（SLS）等特性进行了表征。通过测量补体系统残余溶血能力，在正常人体血清（NHS）中评估补体消耗。

结果

DG 负载不会改变其粒径或 Zeta，但随着 BSA 负载的增加，其 Zeta 略有降低。电泳迁移率分析研究表明，NP(+)表面存在两个带不同电荷的亚层，不受 DG 负载的影响。通过 CH50 测试研究补体系统激活情况表明，DG 或 BSA 负载可抑制补体系统激活。我们还证明，NP(+)可在被疏水分子（如 DG）初步填充后，被带负电荷的分子（如 BSA）负载。

结论

这些纳米粒子能够吸收大量的磷脂或蛋白质，而其粒径或 Zeta 电位不会发生变化。补体研究表明，当 NP(+)被阴离子磷脂或蛋白质负载和饱和时，会表现出隐形行为。

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