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The intrinsic antimicrobial activity of citric acid-coated manganese ferrite nanoparticles is enhanced after conjugation with the antifungal peptide Cm-p5

Carlos Lopez-Abarrategui,1 Viviana Figueroa-Espi,2 MariaB Lugo-Alvarez,1 Caroline D Pereira,3 Hilda Garay,4 João ARG Barbosa,5 Rosana Falcão,6 Linnavel Jiménez-Hernández,2 Osvaldo Estévez-Hernández,2,7 Edilso Reguera,8 Octavio L Franco,3,9 SimoniC Dias,3 Anselmo JOtero-Gonzalez1 1Faculty of Biology,...

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Published in:International journal of nanomedicine 2016-08, Vol.2016 (default), p.3849-3857
Main Authors: Lopez-Abarrategui C, Figueroa-Espi V, Lugo-Alvarez MB, Pereira CD, Garay H, Barbosa JARG, Falcão R, Jiménez-Hernández L, Estévez-Hernández O, Reguera E, Franco OL, Dias SC, Otero-Gonzalez AJ
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Language:English
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Summary:Carlos Lopez-Abarrategui,1 Viviana Figueroa-Espi,2 MariaB Lugo-Alvarez,1 Caroline D Pereira,3 Hilda Garay,4 João ARG Barbosa,5 Rosana Falcão,6 Linnavel Jiménez-Hernández,2 Osvaldo Estévez-Hernández,2,7 Edilso Reguera,8 Octavio L Franco,3,9 SimoniC Dias,3 Anselmo JOtero-Gonzalez1 1Faculty of Biology, Center for Protein Studies, 2Lab of Structural Analysis, Institute of Materials Science and Technology, Havana University, La Habana, Havana, Cuba; 3Center for Biochemical and Proteomics Analyses, Catholic University of Brasilia, Brasilia, Brazil; 4Laboratory of Peptide Analysis and Synthesis, Center of Genetic Engineering and Biotechnology, La Habana, Havana, Cuba; 5Department of Cellular Biology, Laboratory of Biophysics, Institute of Biological Science, University of Brasilia, 6Brazilian Agricultural Research Corporation (EMBRAPA), Center of Genetic Resources and Biotechnology (CENARGEN), Brasilia DF, Brazil; 7Instituto de Ciencia y Tecnología de Materiales (IMRE), Universidad de La Habana, Cuba; 8Research Center for Applied Science and Advanced Technology (CICATA), National Polytechnic Institute (IPN), Lagaria Unit, Mexico DF, Mexico; 9S-Inova Biotech, Post-Graduate in Biotechnology, Universidade Catolica Dom Bosco, Campo Grande, Brazil Abstract: Diseases caused by bacterial and fungal pathogens are among the major health problems in the world. Newer antimicrobial therapies based on novel molecules urgently need to be developed, and this includes the antimicrobial peptides. In spite of the potential of antimicrobial peptides, very few of them were able to be successfully developed into therapeutics. The major problems they present are molecule stability, toxicity in host cells, and production costs. A novel strategy to overcome these obstacles is conjugation to nanomaterial preparations. The antimicrobial activity of different types of nanoparticles has been previously demonstrated. Specifically, magnetic nanoparticles have been widely studied in biomedicine due to their physicochemical properties. The citric acid-modified manganese ferrite nanoparticles used in this study were characterized by high-resolution transmission electron microscopy, which confirmed the formation of nanocrystals of approximately 5 nm diameter. These nanoparticleswere able to inhibit Candida albicans growth in vitro. The minimal inhibitory concentration was 250 µg/mL. However, the nanoparticles were not capable of inhibiting Gram-negative bacteria (Escherichia coli) or Gram-positiv
ISSN:1178-2013