通过在层层组装过程中改变 pH 值来调节仿生聚电解质多层膜上的细胞黏附和生长。

Tuning cell adhesion and growth on biomimetic polyelectrolyte multilayers by variation of pH during layer-by-layer assembly.

机构信息

Biomedical Materials Group, Institute of Pharmacy, Martin Luther University Halle-Wittenberg, Heinrich-Damerow-Strasse 4, 06120, Halle (Saale), Germany.

出版信息

Macromol Biosci. 2013 Oct;13(10):1327-38. doi: 10.1002/mabi.201300153. Epub 2013 Jul 10.

DOI:10.1002/mabi.201300153

PMID:23840005

Abstract

Polyelectrolyte multilayers of chitosan and heparin are assembled on glass where heparin is applied at pH = 4, 9 and 4 during the formation of the first layers followed by pH = 9 at the last steps (denoted pH 4 + 9). Measurements of wetting properties, layer mass, and topography show that multilayers formed at pH = 4 are thicker, contain more water and have a smoother surface compared to those prepared at pH = 9 while the pH = 4 + 9 multilayers expressed intermediate properties. pH = 9 multilayers are more cell adhesive and support growth of C2C12 cells better than pH = 4 ones. However, pH 4 + 9 conditions improve the bioactivity to a similar level of pH = 9 layers. Multilayers prepared using pH 4 + 9 conditions form thick enough layers that may allow efficient loading of bioactive molecules.

摘要

壳聚糖和肝素的聚电解质多层在玻璃上组装，在第一层形成过程中肝素在 pH=4、9 和 4 下施加，然后在最后步骤中在 pH=9 下施加（表示为 pH 4+9）。润湿性能、层质量和形貌的测量表明，与在 pH=9 下制备的多层相比，在 pH=4 下制备的多层更厚、含有更多的水并且表面更光滑，而 pH=4+9 的多层则表现出中间性能。pH=9 的多层更具细胞粘附性，并且比 pH=4 的多层更能支持 C2C12 细胞的生长。然而，pH 4+9 的条件将生物活性提高到与 pH=9 层相似的水平。使用 pH 4+9 条件制备的多层形成足够厚的层，这可能允许有效负载生物活性分子。

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通过在层层组装过程中改变 pH 值来调节仿生聚电解质多层膜上的细胞黏附和生长。

Tuning cell adhesion and growth on biomimetic polyelectrolyte multilayers by variation of pH during layer-by-layer assembly.

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