Peptide-Protein Coassemblies into Hierarchical and Bioactive Tubular Membranes

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Abstract

Multicomponent self-assembly offers opportunities for the design of complex and functional biomaterials with tunable properties. Here, we demonstrate how minor modifications in the molecular structures of peptide amphiphiles (PAs) and elastin-like recombinamers (ELs) can be used to generate coassembling tubular membranes with distinct structures, properties, and bioactivity. First, by introducing minor modifications in the charge density of PA molecules (PAK2, PAK3, PAK4), different diffusion-reaction processes can be triggered, resulting in distinct membrane microstructures. Second, by combining different types of these PAs prior to their coassembly with ELs, further modifications can be achieved, tuning the structures and properties of the tubular membranes. Finally, by introducing the cell adhesive peptide RGDS in either the PA or EL molecules, it is possible to harness the different diffusion-reaction processes to generate tubular membranes with distinct bioactivities. The study demonstrates the possibility to trigger and achieve minor but crucial differences in coassembling processes and tune material structure and bioactivity. The study demonstrates the possibility to use minor, yet crucial, differences in coassembling processes to tune material structure and bioactivity.

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APA

Majkowska, A., Inostroza-Brito, K. E., Gonzalez, M., Redondo-Gómez, C., Rice, A., Rodriguez-Cabello, J. C., … Mata, A. (2023). Peptide-Protein Coassemblies into Hierarchical and Bioactive Tubular Membranes. Biomacromolecules, 24(10), 4419–4429. https://doi.org/10.1021/acs.biomac.2c01095

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