Self‐assembly of peptide amphiphiles: From molecules to nanostructures to biomaterials
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TLDR
The strategies for using molecular self‐assembly as a toolbox to produce peptide amphiphile nanostructures and materials are highlighted and efforts to translate this technology into applications as therapeutics are reviewed.Abstract:
Peptide amphiphiles are a class of molecules that combine the structural features of amphiphilic surfactants with the functions of bioactive peptides and are known to assemble into a variety of nanostructures. A specific type of peptide amphiphiles are known to self-assemble into one-dimensional nanostructures under physiological conditions, predominantly nanofibers with a cylindrical geometry. The resultant nanostructures could be highly bioactive and are of great interest in many biomedical applications, including tissue engineering, regenerative medicine, and drug delivery. In this context, we highlight our strategies for using molecular self-assembly as a toolbox to produce peptide amphiphile nanostructures and materials and efforts to translate this technology into applications as therapeutics. We also review our recent progress in using these materials for treating spinal cord injury, inducing angiogenesis, and for hard tissue regeneration and replacement.read more
Citations
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Journal ArticleDOI
Selective Capture and Recovery of Monoclonal Antibodies by Self-Assembling Supramolecular Polymers of High Affinity for Protein Binding
Yi Li,Lye Lin Lock,Jason Mills,Ben S. Ou,Marina Morrow,David Stern,Han Wang,Caleb F. Anderson,Xuankuo Xu,Sanchayita Ghose,Zheng Jian Li,Honggang Cui,Honggang Cui +12 more
TL;DR: A supramolecular polymeric system that can undergo multiple reversible processes for efficient capture, precipitation, and recovery of monoclonal antibodies (mAbs) is reported.
Book ChapterDOI
Self-assembling peptides and their application in tissue engineering and regenerative medicine
TL;DR: This chapter provides a comprehensive overview on supramolecular self-assembly of peptides starting from the elementary nature of common protein and peptide folds to the formation of higher-order organized structures with potential application in tissue engineering and regenerative medicine.
Journal ArticleDOI
Self-Assembly of a Catalytically Active Lipopeptide and Its Incorporation into Cubosomes.
Valeria Castelletto,Charlotte J. C. Edwards-Gayle,Ian W. Hamley,Juliane N. B. D. Pelin,Wendel A. Alves,Andrea M. Aguilar,Jani Seitsonen,Janne Ruokolainen +7 more
TL;DR: It is shown that lipopeptides can be incorporated into lipid cubosomes, leading to restructuring into vesicles at high loadings, and the peptide–lipid chain linker does not influence self-assembly but does impart an improved biocatalytic activity.
Journal ArticleDOI
Biocompatible hybrid silica nanobiocomposites for the efficient delivery of anti-staphylococcal drugs.
Paul Cătălin Balaure,Raisa Anamaria Popa,Alexandru Mihai Grumezescu,Georgeta Voicu,Marius Radulescu,L Mogoantă,Tudor-Adrian Bălşeanu,George Dan Mogoşanu,Mariana Carmen Chifiriuc,Coralia Bleotu,Alina Maria Holban,Alexandra Bolocan +11 more
TL;DR: In vitro microbiological tests proved that the obtained nanobiostructure significantly enhance the antimicrobial activity of three commonly used antibiotics against S. aureus, highlighting the promising therapeutic potential of this carrier that allows a decrease of the required active doses while significantly lessening the harmful side effects of the medication on the host organism.
Journal ArticleDOI
A Morphology‐Dependent Bio‐organic Template for Inorganic Nanowire Synthesis
TL;DR: It is reasoned that with a method for selectively accessing various phases available to a micellar soft material in hand, one could plausibly facilitate the morphology-dependent, hierarchical assembly of higher-ordered materials.
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