Fabrication of Protein Microparticles and Microcapsules with Biomolecular Tools

Author:

Cheung Kwan Yee1,Lai Kwok Kei2,Mak Wing Cheung13

Affiliation:

1. Department of Clinical and Experimental Medicine , Linköping University , SE 58185 Linköping , Sweden

2. Department of Chemistry , Hong Kong University of Science and Technology, Clear Water Bay , Hong Kong , P.R. China

3. Biosensors and Bioelectronics Centre , Department of Physics , Chemistry and Biology, Linköping University , SE 58183 Linköping , Sweden

Abstract

Abstract Microparticles have attracted much attention for medical, analytical and biological applications. Calcium carbonate (CaCO3) templating method with the advantages of having narrow size distribution, controlled morphology and good biocompatibility that has been widely used for the synthesis of various protein-based microparticles. Despite CaCO3 template is biocompatible, most of the conventional methods to create stable protein microparticles are mainly driven by chemical crosslink reagents which may induce potential harmful effect and remains undesirable especially for biomedical or clinical applications. In this article, we demonstrate the fabrication of protein microparticles and microcapsules with an innovative method using biomolecular tools such as enzymes and affinity molecules to trigger the assembling of protein molecules within a porous CaCO3 template followed by a template removal step. We demonstrated the enzyme-assisted fabrication of collagen microparticles triggered by transglutaminase, as well as the affinity-assisted fabrication of BSA-biotin avidin microcapsules triggered by biotin-avidin affinity interaction, respectively. Based on the different protein assemble mechanisms, the collagen microparticles appeared as a solid-structured particles, while the BSA-biotin avidin microcapsules appeared as hollow-structured morphology. The fabrication procedures are simple and robust that allows producing protein microparticles or microcapsules under mild conditions at physiological pH and temperature. In addition, the microparticle morphologies, protein compositions and the assemble mechanisms were studied. Our technology provides a facile approach to design and fabricate protein microparticles and microcapsules that are useful in the area of biomaterials, pharmaceuticals and analytical chemistry.

Publisher

Walter de Gruyter GmbH

Subject

Physical and Theoretical Chemistry

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