用于肌管形成的细胞诱导液晶网络

Cell instructive Liquid Crystalline Networks for myotube formation.

作者信息

Martella Daniele, Mannelli Michele, Squecco Roberta, Garella Rachele, Idrizaj Eglantina, Antonioli Diego, Laus Michele, Wiersma Diederik S, Gamberi Tania, Paoli Paolo, Parmeggiani Camilla, Fiaschi Tania

机构信息

Istituto Nazionale di Ricerca Metrologica INRiM, 10135 Turin, Italy.

European Laboratory for Non-Linear Spectroscopy (LENS), University of Florence, 50019 Sesto Fiorentino, Italy.

出版信息

iScience. 2021 Sep 2;24(9):103077. doi: 10.1016/j.isci.2021.103077. eCollection 2021 Sep 24.

DOI:10.1016/j.isci.2021.103077

PMID:34568797

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8449234/

Abstract

Development of biological tissues is not a trivial task and requires the correct maturation of the selected cell line. To this aim, many attempts were done mainly by mimicking the biological environment using micro/nanopatterned or stimulated scaffolds. However, the obtainment of functional tissues is still far from being achieved. In contrast with the standard methods, we here present an easy approach for the maturation of myotubes toward the reproduction of muscular tissue. By using liquid crystalline networks with different stiffness and molecular alignment, we demonstrate how the material itself can give favorable interactions with myoblasts helping a correct differentiation. Electrophysiological studies demonstrate that myotubes obtained on these polymers have more adult-like morphology and better functional features with respect to those cultured on standard supports. The study opens to a platform for the differentiation of other cell lines in a simple and scalable way.

摘要

生物组织的发育并非易事，需要所选细胞系的正确成熟。为此，人们主要通过使用微/纳米图案化或受刺激的支架来模拟生物环境进行了许多尝试。然而，功能性组织的获取仍远未实现。与标准方法不同，我们在此提出一种简单的方法，使肌管成熟以重现肌肉组织。通过使用具有不同刚度和分子排列的液晶网络，我们证明了材料本身如何能与成肌细胞产生良好的相互作用，有助于正确分化。电生理研究表明，在这些聚合物上获得的肌管相对于在标准支架上培养的肌管具有更类似成人的形态和更好的功能特征。该研究开启了一个以简单且可扩展的方式分化其他细胞系的平台。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/74cd/8449234/6a83dd4ad52f/fx1.jpg

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用于肌管形成的细胞诱导液晶网络

Cell instructive Liquid Crystalline Networks for myotube formation.

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