The effect of mineral coating morphology on mesenchymal stem cell attachment and expansion.

Siyoung Choi, William L Murphy
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引用次数: 22

Abstract

Previous studies have demonstrated the influence of calcium phosphate (CaP) mineral coating characteristics on cell attachment, proliferation, and differentiation. However, the wide range of mineral properties that can potentially influence cell behavior calls for an efficient platform to screen for the effects of specific mineral properties. To address this need, we have developed an efficient well-plate format to probe for the effects of mineral coating properties on stem cell behavior. Specifically, here we systematically controlled mineral coating morphology by modulating ion concentrations in modified simulated body fluids (mSBF) during mineral nucleation and growth. We found that mineral micro-morphology could be gradually changed from spherulitic, to plate-like, to net-like depending on [Ca2+] and [PO43-] in mSBF solutions, while other mineral properties (Ca/P ratio, crystallinity, dissolution rate) remained constant. Differences in mineral morphology resulted in significant differences in stem cell attachment and expansion in vitro. These findings suggest that an enhanced throughput mineral coating format may be useful to identify mineral coating properties for optimal stem cell attachment and expansion, which may ultimately permit efficient intraoperative seeding of patient derived stem cells.

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矿物包覆形态对间充质干细胞附着和扩增的影响。
先前的研究已经证明了磷酸钙(CaP)矿物包被特性对细胞附着、增殖和分化的影响。然而,可能影响细胞行为的各种矿物性质需要一个有效的平台来筛选特定矿物性质的影响。为了满足这一需求,我们开发了一种高效的孔板格式来探测矿物涂层特性对干细胞行为的影响。具体来说,在这里,我们系统地控制矿物涂层形态通过调节离子浓度在修饰模拟体液(mSBF)在矿物成核和生长。我们发现矿物的微观形态可以根据[Ca2+]和[PO43-]在mSBF溶液中逐渐从球粒状转变为板状,再转变为网状,而其他矿物性质(Ca/P比,结晶度,溶解速率)保持不变。矿物形态的差异导致干细胞在体外的附着和扩增有显著差异。这些发现表明,增强通量的矿物涂层形式可能有助于确定最佳干细胞附着和扩增的矿物涂层特性,这可能最终允许术中有效地播种患者来源的干细胞。
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来源期刊
Journal of Materials Chemistry
Journal of Materials Chemistry 工程技术-材料科学:综合
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审稿时长
1.5 months
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Improved anti-proliferative effect of doxorubicin-containing polymer nanoparticles upon surface modification with cationic groups. Anisotropic nanocrystal arrays organized on protein lattices formed by recombinant clathrin fragments. The effect of mineral coating morphology on mesenchymal stem cell attachment and expansion. Location-tuned relaxivity in Gd-doped mesoporous silica nanoparticles. Photoreactive elastin-like proteins for use as versatile bioactive materials and surface coatings.
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