Enzybiotic-mediated antimicrobial functionalization of polyhydroxyalkanoates

Francisco G. Blanco; Francisco G. Blanco; Roberto Vázquez; Ana M. Hernández-Arriaga; Ana M. Hernández-Arriaga; Pedro García; M. Auxiliadora Prieto; M. Auxiliadora Prieto

doi:10.3389/fbioe.2023.1220336

Frontiers in Bioengineering and Biotechnology (Jun 2023)

Enzybiotic-mediated antimicrobial functionalization of polyhydroxyalkanoates

Francisco G. Blanco,
Francisco G. Blanco,
Roberto Vázquez,
Ana M. Hernández-Arriaga,
Ana M. Hernández-Arriaga,
Pedro García,
M. Auxiliadora Prieto,
M. Auxiliadora Prieto

Affiliations

Francisco G. Blanco: Polymer Biotechnology Group, Microbial and Plant Biotechnology Department, Margarita Salas Center for Biological Research (CIB–CSIC), Madrid, Spain
Francisco G. Blanco: Interdisciplinary Platform of Sustainable Plastics towards a Circular Economy, Spanish National Research Council (SusPlast-CSIC), Madrid, Spain
Roberto Vázquez: Protein Engineering Against Antibiotic Resistance Group, Microbial and Plant Biotechnology Department, Margarita Salas Center for Biological Research (CIB-CSIC), Madrid, Spain
Ana M. Hernández-Arriaga: Polymer Biotechnology Group, Microbial and Plant Biotechnology Department, Margarita Salas Center for Biological Research (CIB–CSIC), Madrid, Spain
Ana M. Hernández-Arriaga: Interdisciplinary Platform of Sustainable Plastics towards a Circular Economy, Spanish National Research Council (SusPlast-CSIC), Madrid, Spain
Pedro García: Protein Engineering Against Antibiotic Resistance Group, Microbial and Plant Biotechnology Department, Margarita Salas Center for Biological Research (CIB-CSIC), Madrid, Spain
M. Auxiliadora Prieto: Polymer Biotechnology Group, Microbial and Plant Biotechnology Department, Margarita Salas Center for Biological Research (CIB–CSIC), Madrid, Spain
M. Auxiliadora Prieto: Interdisciplinary Platform of Sustainable Plastics towards a Circular Economy, Spanish National Research Council (SusPlast-CSIC), Madrid, Spain

DOI: https://doi.org/10.3389/fbioe.2023.1220336
Journal volume & issue: Vol. 11

Abstract

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Polymeric nanoparticles (NPs) present some ideal properties as biomedical nanocarriers for targeted drug delivery such as enhanced translocation through body barriers. Biopolymers, such as polyhydroxyalkanoates (PHAs) are gaining attention as nanocarrier biomaterials due to their inherent biocompatibility, biodegradability, and ability to be vehiculized through hydrophobic media, such as the lung surfactant (LS). Upon colonization of the lung alveoli, below the LS layer, Streptococcus pneumoniae, causes community-acquired pneumonia, a severe respiratory condition. In this work, we convert PHA NPs into an antimicrobial material by the immobilization of an enzybiotic, an antimicrobial enzyme, via a minimal PHA affinity tag. We first produced the fusion protein M711, comprising the minimized PHA affinity tag, MinP, and the enzybiotic Cpl-711, which specifically targets S. pneumoniae. Then, a PHA nanoparticulate suspension with adequate physicochemical properties for pulmonary delivery was formulated, and NPs were decorated with M711. Finally, we assessed the antipneumococcal activity of the nanosystem against planktonic and biofilm forms of S. pneumoniae. The resulting system displayed sustained antimicrobial activity against both, free and sessile cells, confirming that tag-mediated immobilization of enzybiotics on PHAs is a promising platform for bioactive antimicrobial functionalization.

Published in Frontiers in Bioengineering and Biotechnology

ISSN: 2296-4185 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Technology: Chemical technology: Biotechnology
Website: http://www.frontiersin.org/bioengineering_and_biotechnology

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