Peptide supramolecular materials for therapeutics

Supramolecular assembly of peptide-based monomers into nanostructures offers many promising applications in advanced therapies. In this Tutorial Review, we introduce molecular designs to control the structure and potential biological function of supramolecular assemblies. An emphasis is placed on pe...

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Published in:Chemical Society reviews 2018-10, Vol.47 (2), p.7539-7551
Main Authors: Sato, Kohei, Hendricks, Mark P, Palmer, Liam C, Stupp, Samuel I
Format: Article
Language:English
Subjects:
cell growth
Growth factors
Molecular structure
nanofibers
Nanostructure
Peptides
Receptors
Strings
Structural hierarchy
therapeutics
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description Supramolecular assembly of peptide-based monomers into nanostructures offers many promising applications in advanced therapies. In this Tutorial Review, we introduce molecular designs to control the structure and potential biological function of supramolecular assemblies. An emphasis is placed on peptide-based supramolecular nanostructures that are intentionally designed to signal cells, either directly through the incorporation of amino acid sequences that activate receptors or indirectly by recruiting native signals such as growth factors. Additionally, we describe the use and future potential of hierarchical structures, such as single molecules that assemble into nanoscale fibers which then align to form macroscopic strings; the strings can then serve as scaffolds for cell growth, proliferation, and differentiation. Supramolecular assembly of peptide-based monomers into nanostructures offers many promising applications in advanced therapies. In this Tutorial Review, we introduce molecular designs to control the structure and potential biological function of supramolecular assemblies.
doi_str_mv 10.1039/c7cs00735c
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source Royal Society of Chemistry (RSC) Journals
subjects cell growth
Growth factors
Molecular structure
nanofibers
Nanostructure
Peptides
Receptors
Strings
Structural hierarchy
therapeutics
title Peptide supramolecular materials for therapeutics
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