水相两亲性乳液模板化可定制多孔海藻酸钙珠用于 3D 细胞培养。

Aqueous two-phase emulsions-templated tailorable porous alginate beads for 3D cell culture.

机构信息

School of Life Sciences and Engineering, Southwest Jiaotong University, Chengdu, Sichuan, 610031, PR China.

出版信息

Carbohydr Polym. 2021 Apr 15;258:117702. doi: 10.1016/j.carbpol.2021.117702. Epub 2021 Jan 28.

DOI:10.1016/j.carbpol.2021.117702

Abstract

A facile method was developed to produce porous alginate beads (PABs) with a controllable interconnected porous structure with aqueous two phase (ATPS) emulsions as template for 3D cell culture. ATPS emulsions, containing two biocompatible immiscible aqueous phases of cell/dextran (Dex) mixture and alginate (Alg)/polyethylene glycol (PEG) mixture and stabilized by mPEG-BSA particles, were introduced to form PABs. The pore size of PABs could be controlled by changing the emulsification frequency and the volume ratio between the ATPS emulsions and PEG-Alg solution. Moreover, cells could be directly encapsulated in the interconnected pores due to the excellent biocompatibility of ATPS. HeLa and human liver cancer cells encapsulated in the PABs present stronger cell activity (>95 %), proliferation, and enhanced functions compared with the cells encapsulated in general alginate beads (GABs). It is believed that the PABs is a promising microcarriers for 3D cell culture in vitro.

摘要

一种简单的方法被开发出来，通过使用双水相乳液（ATPS）作为模板，制备具有可控互连通孔结构的多孔海藻酸钠珠（PAB），用于 3D 细胞培养。ATPS 乳液由细胞/葡聚糖（Dex）混合物和海藻酸钠（Alg）/聚乙二醇（PEG）混合物的两种生物相容性不混溶的水相组成，并通过 mPEG-BSA 颗粒稳定，被引入以形成 PAB。通过改变乳化频率和 ATPS 乳液与 PEG-Alg 溶液之间的体积比，可以控制 PAB 的孔径。此外，由于 ATPS 的优异生物相容性，细胞可以直接包封在互连通孔中。与包封在普通海藻酸钠珠（GAB）中的细胞相比，包封在 PAB 中的 HeLa 和人肝癌细胞表现出更强的细胞活性（>95%）、增殖能力和增强的功能。相信 PAB 是体外 3D 细胞培养有前途的微载体。

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水相两亲性乳液模板化可定制多孔海藻酸钙珠用于 3D 细胞培养。

Aqueous two-phase emulsions-templated tailorable porous alginate beads for 3D cell culture.

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