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Physical Intelligence Theory of Inhomogeneous Condensed Matter Article 2017

Magnetotactic bacteria powered biohybrids target e. coli biofilms

Thumb ticker sm morgan stanton
Physical Intelligence
Morgan Stanton
  • Postdoctoral Researcher
Thumb ticker sm byung wook
Physical Intelligence
Byung-Wook Park
  • Postdoctoral Researcher
Thumb ticker sm metin eth vertical small
Physical Intelligence
Metin Sitti
Guest Researcher
Thumb ticker sm 27431 1470222805
Sámuel Sánchez
Comp 5d copy

Biofilm colonies are typically resistant to general antibiotic treatment and require targeted methods for their removal. One of these methods includes the use of nanoparticles as carriers for antibiotic delivery, where they randomly circulate in fluid until they make contact with the infected areas. However, the required proximity of the particles to the biofilm results in only moderate efficacy. We demonstrate here that the nonpathogenic magnetotactic bacteria Magnetosopirrillum gryphiswalense (MSR-1) can be integrated with drug-loaded mesoporous silica microtubes to build controllable microswimmers (biohybrids) capable of antibiotic delivery to target an infectious biofilm. Applying external magnetic guidance capability and swimming power of the MSR-1 cells, the biohybrids are directed to and forcefully pushed into matured Escherichia coli (E. coli) biofilms. Release of the antibiotic, ciprofloxacin, is triggered by the acidic microenvironment of the biofilm, ensuring an efficient drug delivery system. The results reveal the capabilities of a nonpathogenic bacteria species to target and dismantle harmful biofilms, indicating biohybrid systems have great potential for antibiofilm applications.

Author(s): Stanton, Morgan M. and Park, Byung-Wook and Vilela, Diana and Bente, Klaas and Faivre, Damien and Sitti, Metin and Sánchez, Samuel
Journal: ACS Nano
Volume: 11
Number (issue): 10
Pages: 9968--9978
Year: 2017
Project(s):
Bibtex Type: Article (article)
DOI: 10.1021/acsnano.7b04128
Electronic Archiving: grant_archive

BibTex 

@article{doi:10.1021/acsnano.7b04128,
  title = {Magnetotactic bacteria powered biohybrids target e. coli biofilms},
  journal = {ACS Nano},
  abstract = {Biofilm colonies are typically resistant to general antibiotic treatment and require targeted methods for their removal. One of these methods includes the use of nanoparticles as carriers for antibiotic delivery, where they randomly circulate in fluid until they make contact with the infected areas. However, the required proximity of the particles to the biofilm results in only moderate efficacy. We demonstrate here that the nonpathogenic magnetotactic bacteria Magnetosopirrillum gryphiswalense (MSR-1) can be integrated with drug-loaded mesoporous silica microtubes to build controllable microswimmers (biohybrids) capable of antibiotic delivery to target an infectious biofilm. Applying external magnetic guidance capability and swimming power of the MSR-1 cells, the biohybrids are directed to and forcefully pushed into matured Escherichia coli (E. coli) biofilms. Release of the antibiotic, ciprofloxacin, is triggered by the acidic microenvironment of the biofilm, ensuring an efficient drug delivery system. The results reveal the capabilities of a nonpathogenic bacteria species to target and dismantle harmful biofilms, indicating biohybrid systems have great potential for antibiofilm applications. },
  volume = {11},
  number = {10},
  pages = {9968--9978},
  year = {2017},
  slug = {doi-10-1021-acsnano-7b04128},
  author = {Stanton, Morgan M. and Park, Byung-Wook and Vilela, Diana and Bente, Klaas and Faivre, Damien and Sitti, Metin and Sánchez, Samuel}
}