Magnetic nanoparticles: New players in antimicrobial peptide therapeutics

C. López-Abarrategui; V. Figueroa-Espí; O. Reyes-Acosta; E. Reguera; A. J. Otero-Gonzalez

doi:10.2174/1389203711209070682

Magnetic nanoparticles: New players in antimicrobial peptide therapeutics

C. López-Abarrategui, V. Figueroa-Espí, O. Reyes-Acosta, E. Reguera, A. J. Otero-Gonzalez

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Antimicrobial peptides are distributed in all forms of life presenting activity against bacteria, fungi, viruses, parasites and cancer. In spite of the tremendous potential of these molecules, very few of them have been successfully developed into therapeutics. The major problems associated with this new class of antimicrobials are molecule stability, toxicity in host cells and production cost. A novel strategy to overcome these obstacles is conjugation to nanomaterials. Magnetic nanoparticles have been widely studied in biomedicine due to their physicochemical properties. The conjugation of antimicrobial peptides to magnetic nanoparticles could combine the best properties of both, generating an improved antimicrobial nanoparticle. Here we provide an overview and discuss the potential application of magnetic nanoparticles conjugated to antimicrobial peptides in overcoming diseases.

Original language	English
Pages (from-to)	595-606
Number of pages	12
Journal	Current Protein and Peptide Science
Volume	14
Issue number	7
DOIs	https://doi.org/10.2174/1389203711209070682
State	Published - 2013
Externally published	Yes

Keywords

Antimicrobial peptides
Host defense peptides
Immunomodulation
Magnetic nanoparticles
Therapeutics

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abstract = "Antimicrobial peptides are distributed in all forms of life presenting activity against bacteria, fungi, viruses, parasites and cancer. In spite of the tremendous potential of these molecules, very few of them have been successfully developed into therapeutics. The major problems associated with this new class of antimicrobials are molecule stability, toxicity in host cells and production cost. A novel strategy to overcome these obstacles is conjugation to nanomaterials. Magnetic nanoparticles have been widely studied in biomedicine due to their physicochemical properties. The conjugation of antimicrobial peptides to magnetic nanoparticles could combine the best properties of both, generating an improved antimicrobial nanoparticle. Here we provide an overview and discuss the potential application of magnetic nanoparticles conjugated to antimicrobial peptides in overcoming diseases.",

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AU - López-Abarrategui, C.

AU - Figueroa-Espí, V.

AU - Reyes-Acosta, O.

AU - Reguera, E.

AU - Otero-Gonzalez, A. J.

PY - 2013

Y1 - 2013

N2 - Antimicrobial peptides are distributed in all forms of life presenting activity against bacteria, fungi, viruses, parasites and cancer. In spite of the tremendous potential of these molecules, very few of them have been successfully developed into therapeutics. The major problems associated with this new class of antimicrobials are molecule stability, toxicity in host cells and production cost. A novel strategy to overcome these obstacles is conjugation to nanomaterials. Magnetic nanoparticles have been widely studied in biomedicine due to their physicochemical properties. The conjugation of antimicrobial peptides to magnetic nanoparticles could combine the best properties of both, generating an improved antimicrobial nanoparticle. Here we provide an overview and discuss the potential application of magnetic nanoparticles conjugated to antimicrobial peptides in overcoming diseases.

AB - Antimicrobial peptides are distributed in all forms of life presenting activity against bacteria, fungi, viruses, parasites and cancer. In spite of the tremendous potential of these molecules, very few of them have been successfully developed into therapeutics. The major problems associated with this new class of antimicrobials are molecule stability, toxicity in host cells and production cost. A novel strategy to overcome these obstacles is conjugation to nanomaterials. Magnetic nanoparticles have been widely studied in biomedicine due to their physicochemical properties. The conjugation of antimicrobial peptides to magnetic nanoparticles could combine the best properties of both, generating an improved antimicrobial nanoparticle. Here we provide an overview and discuss the potential application of magnetic nanoparticles conjugated to antimicrobial peptides in overcoming diseases.

KW - Antimicrobial peptides

KW - Host defense peptides

KW - Immunomodulation

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JO - Current Protein and Peptide Science

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Magnetic nanoparticles: New players in antimicrobial peptide therapeutics

Abstract

Keywords

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