用于细胞培养和可控润湿性表面的自组装精氨酸封端肽两亲纳米片

Self-Assembled Arginine-Capped Peptide Bolaamphiphile Nanosheets for Cell Culture and Controlled Wettability Surfaces.

作者信息

da Silva Emerson Rodrigo, Walter Merlin Nathaniel Mark, Reza Mehedi, Castelletto Valeria, Ruokolainen Janne, Connon Che John, Alves Wendel Andrade, Hamley Ian William

机构信息

Centro de Ciências Naturais e Humanas, Universidade Federal do ABC , Santo André 09210-580, Brazil.

Department of Chemistry, University of Reading , Whiteknights, Reading RG6 6AD, United Kingdom.

出版信息

Biomacromolecules. 2015 Oct 12;16(10):3180-90. doi: 10.1021/acs.biomac.5b00820. Epub 2015 Sep 14.

DOI:10.1021/acs.biomac.5b00820

PMID:26348849

Abstract

The spontaneous assembly of a peptide bolaamphiphile in water, namely, RFL4FR (R, arginine; F, phenylalanine; L, leucine) is investigated, along with its novel properties in surface modification and usage as substrates for cell culture. RFL4FR self-assembles into nanosheets through lateral association of the peptide backbone. The L4 sequence is located within the core of the nanosheets, whereas the R moieties are exposed to the water at the surface of the nanosheets. Kinetic assays indicate that the self-assembly is driven by a remarkable two-step process, where a nucleation phase is followed by fast growth of nanosheets with an autocatalysis process. The internal structure of the nanosheets is formed from ultrathin bolaamphiphile monolayers with a crystalline orthorhombic symmetry with cross-β organization. We show that human corneal stromal fibroblast (hCSF) cells can grow on polystyrene films coated with films dried from RFL4FR solutions. For the first time, this type of amphiphilic peptide is used as a substrate to modulate the wettability of solid surfaces for cell culture applications.

摘要

研究了一种肽两亲分子RFL4FR（R代表精氨酸；F代表苯丙氨酸；L代表亮氨酸）在水中的自组装情况，以及它在表面修饰方面的新特性和作为细胞培养底物的用途。RFL4FR通过肽主链的横向缔合自组装成纳米片。L4序列位于纳米片的核心，而R部分则暴露在纳米片表面的水中。动力学分析表明，自组装由一个显著的两步过程驱动，即成核阶段之后是纳米片通过自催化过程快速生长。纳米片的内部结构由具有正交晶系对称性和交叉β结构的超薄两亲分子单层形成。我们表明，人角膜基质成纤维细胞（hCSF）可以在涂有从RFL4FR溶液干燥而来的薄膜的聚苯乙烯薄膜上生长。首次将这种两亲性肽用作底物来调节用于细胞培养应用的固体表面的润湿性。

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用于细胞培养和可控润湿性表面的自组装精氨酸封端肽两亲纳米片

Self-Assembled Arginine-Capped Peptide Bolaamphiphile Nanosheets for Cell Culture and Controlled Wettability Surfaces.

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