Synthesis of Cationized Magnetoferritin for Ultra-fast Magnetization of Cells.

Sara Correia Carreira, James P K Armstrong, Mitsuhiro Okuda, Annela M Seddon, Adam W Perriman, Walther Schwarzacher
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Abstract

Many important biomedical applications, such as cell imaging and remote manipulation, can be achieved by labeling cells with superparamagnetic iron oxide nanoparticles (SPIONs). Achieving sufficient cellular uptake of SPIONs is a challenge that has traditionally been met by exposing cells to elevated concentrations of SPIONs or by prolonging exposure times (up to 72 hr). However, these strategies are likely to mediate toxicity. Here, we present the synthesis of the protein-based SPION magnetoferritin as well as a facile surface functionalization protocol that enables rapid cell magnetization using low exposure concentrations. The SPION core of magnetoferritin consists of cobalt-doped iron oxide with an average particle diameter of 8.2 nm mineralized inside the cavity of horse spleen apo-ferritin. Chemical cationization of magnetoferritin produced a novel, highly membrane-active SPION that magnetized human mesenchymal stem cells (hMSCs) using incubation times as short as one minute and iron concentrations as lows as 0.2 mM.

用于细胞超快速磁化的阳离子化磁铁素的合成。
用超顺磁性氧化铁纳米粒子(SPIONs)标记细胞可以实现许多重要的生物医学应用,如细胞成像和远程操控。要使细胞充分吸收 SPIONs 是一项挑战,传统的方法是将细胞暴露于高浓度的 SPIONs 或延长暴露时间(长达 72 小时)。然而,这些方法很可能会产生毒性。在这里,我们介绍了基于蛋白质的 SPION 磁铁素的合成方法,以及一种简便的表面功能化方案,该方案可使细胞在低浓度下快速磁化。磁铁素的 SPION 核心由平均粒径为 8.2 纳米的掺钴氧化铁组成,矿化在马脾脏 apo-ferritin 的空腔内。磁铁素的化学阳离子化产生了一种新型的高膜活性 SPION,它能在短至一分钟的培养时间和低至 0.2 mM 的铁浓度下磁化人类间充质干细胞(hMSCs)。
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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来源期刊
Agricultural Sciences in China
Agricultural Sciences in China AGRICULTURE, MULTIDISCIPLINARY-
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3.2 months
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