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In Vitro Fabrication of Microscale Secretory Granules

Hèctor López‐Laguna, Eloi Parladé, Patricia Álamo, Julieta M. Sánchez, Eric Voltà‐Durán, Naroa Serna, Laura Sánchez‐García, Olivia Cano‐Garrido, Alejandro Sánchez‐Chardi, Antonio Villaverde, Ramón Mangues, Ugutz Unzueta, Esther Vázquez

2021Advanced Functional Materials23 citationsDOIOpen Access PDF

Abstract

Abstract Advanced medical treatments involving drug delivery require fully biocompatible materials with the ability to release functional drugs in a time‐prolonged way. Ideally, the delivered molecules should be self‐contained as chemically homogenous entities to prevent the use of potentially toxic scaffolds or hold matrices. In nature, peptidic hormones are self‐stored in protein‐only secretory granules formed by the reversible coordination of Zn 2+ and histidine residues. Inspired by this concept, an in vitro transversal procedure is developed, analyzed, and comparatively applied for the fabrication of protein‐only secretory granules at the microscale. These materials can be produced from any polyhistidine‐tagged protein using physiological concentrations of Zn 2+ as a potent and versatile glue‐like agent. The screening of granules formed by 12 engineered and nonengineered proteins at different Zn 2+ concentrations revealed optimal fabrication conditions and the consequent release profiles. Moreover, the functional and structural properties of the delivered protein are fully validated using a drug‐targeting protein platform in a mouse model of human colorectal cancer. In summary, short histidine tags allow the packaging of structurally and functionally dissimilar polypeptides, which supports the proposed fabrication method as a powerful protocol extensible to diverse clinical scenarios in which slow protein drug delivery is required.

Topics & Concepts

Microscale chemistryDrug deliveryNanotechnologyFabricationMaterials scienceIn vitroHistidineBiophysicsBiochemistryChemistryBiologyAmino acidMathematics educationMedicineAlternative medicinePathologyMathematicsSupramolecular Self-Assembly in MaterialsNanoparticle-Based Drug DeliveryAdvanced biosensing and bioanalysis techniques
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