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Amyloid-polysaccharide interfacial coacervates as therapeutic materials

Mohammad Peydayesh, Sabrina Kistler, Jiangtao Zhou, Viviane Lutz‐Bueno, Francesca Damiani Victorelli, Andréía Bagliotti Meneguin, Larissa Spósito, Taís Maria Bauab, Marlus Chorilli, Raffaele Mezzenga

2023Nature Communications67 citationsDOIOpen Access PDF

Abstract

Coacervation via liquid-liquid phase separation provides an excellent opportunity to address the challenges of designing nanostructured biomaterials with multiple functionalities. Protein-polysaccharide coacervates, in particular, offer an appealing strategy to target biomaterial scaffolds, but these systems suffer from the low mechanical and chemical stabilities of protein-based condensates. Here we overcome these limitations by transforming native proteins into amyloid fibrils and demonstrate that the coacervation of cationic protein amyloids and anionic linear polysaccharides results in the interfacial self-assembly of biomaterials with precise control of their structure and properties. The coacervates present a highly ordered asymmetric architecture with amyloid fibrils on one side and the polysaccharide on the other. We demonstrate the excellent performance of these coacervates for gastric ulcer protection by validating via an in vivo assay their therapeutic effect as engineered microparticles. These results point at amyloid-polysaccharides coacervates as an original and effective biomaterial for multiple uses in internal medicine.

Topics & Concepts

CoacervateBiomaterialPolysaccharideAmyloid (mycology)ChemistryAmyloid fibrilFibrilMaterials scienceNanotechnologyBiophysicsBiochemistryAmyloid βBiologyPathologyDiseaseInorganic chemistryMedicineProteins in Food SystemsPickering emulsions and particle stabilizationChild Nutrition and Feeding Issues
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