Litcius/Paper detail

Protein Vesicles with pH-Responsive Disassembly

Dylan R. Dautel, William T. Heller, Julie A. Champion

2022Biomacromolecules31 citationsDOIOpen Access PDF

Abstract

Protein biomaterials offer several advantages over those made from other components because their amino acid sequence can be precisely controlled with genetic engineering to produce a diverse set of material building blocks. In this work, three different elastin-like polypeptide (ELP) sequences were designed to synthesize pH-responsive protein vesicles. ELPs undergo a thermally induced hydrophobic transition that enables self-assembly of different kinds of protein biomaterials. The transition can be tuned by the composition of the guest residue, X, within the ELP pentapeptide repeat unit, VPGXG. When the guest residue is substituted with an ionizable amino acid, such as histidine, the ELP undergoes a pH-dependent hydrophobic phase transition. We used pH-responsive ELPs with different levels of histidine substitution, in combination with leucine zippers and globular, functional proteins, to fabricate protein vesicles. We demonstrate pH-dependent self-assembly, diameter, and disassembly of the vesicles using a combination of turbidimetry, dynamic light scattering, microscopy, and small angle X-ray scattering. As the ELP transition is dependent on the sequence, the vesicle properties also depend on the histidine content in the ELP building blocks. These results demonstrate the tunability of protein vesicles endowed with pH responsiveness, which expands their potential in drug-delivery applications.

Topics & Concepts

VesiclePentapeptide repeatChemistryHistidineDynamic light scatteringBiophysicsDrug deliveryTurbidimetryResidue (chemistry)Amino acidPeptideBiochemistryNanotechnologyMaterials scienceNanoparticleOrganic chemistryMembraneBiologyConnective tissue disorders researchSupramolecular Self-Assembly in MaterialsRNA Research and Splicing