-
March 7, 2011 - Volume 89, Number 10
- pp. 42 - 43
Science & Technology Concentrates
More Science & Technology Concentrates
- Molecular Machine Wrap
- A helical molecule that can wrap and unwrap itself around a dumbbell-shaped molecule functions as a molecular shuttle
- ‘Ethical’ Stem Cell Abnormalities Could Hinder Research
- New findings reveal that induced pluripotent stem cells can have problematic mutations
- Fluoride Sensor Also Fluorinates
- A sulfonium borane complex that traps fluoride ions can turn around and use them in substitution reactions
- Stealth Bacteria Fighters Have Golden Stability
- Chemists have designed gold-stabilized liposomes to selectively deliver antimicrobial agents to sites of infection
- Ammonia-Emitting Meteorite Hints At Life’s Origins
- Evidence from an Antarctic meteorite makes a case for outer-space delivery of chemicals essential for life
- Balancing Act Reduces Peptide Aggregation
- Scientists modulate molecular aggregation by balancing hydrophobicity and electrostatic repulsion
- Chemical Weapon For Plants Unsheathed
- The war between plants and infectious microbes uncovers sulforaphane as a natural plant-defense chemical
- Mucus Proteins Aid Hydrophobic Pollutants
- Glycoproteins in mucus may increase the toxicity of polycyclic aromatic hydrocarbons by helping them enter cells
Topics Covered
Researchers at the University of California, San Diego, have designed a new way to selectively deliver antimicrobial agents to the sites of bacterial infections. Liangfang Zhang and coworkers use chitosan-coated gold nanoparticles to stabilize phospholipid liposomes that are loaded with antibiotics (J. Am. Chem. Soc., DOI: 10.1021/ja111110e). Toxins secreted by bacteria poke holes in these liposomes, releasing the antibiotics directly at the site of infection. The gold nanoparticles are key to the drug delivery strategy, the researchers point out. Without them, the liposomes have a short shelf life because they tend to fuse uncontrollably, thereby losing their payload prematurely. To demonstrate the bacterial fighting power of the nano-enhanced liposomes, Zhang’s team loaded them with vancomycin and applied them to methicillin-resistant Staphylococcus aureus. Within 24 hours, the liposomes inhibited bacterial growth as effectively as vancomycin on its own. “This antimicrobial drug delivery approach provides an entirely new paradigm for the treatment of bacterial infections by specifically releasing drugs at the infectious sites, while minimizing possible off-target effects,” the researchers write.
- Chemical & Engineering News
- ISSN 0009-2347
- Copyright © 2011 American Chemical Society
Services & Tools
ACS Resources
ACS Careers
ACS is the leading employment source for recruiting scientific professionals. ACS Careers and C&EN Classifieds provide employers direct access to scientific talent both in print and online. Jobseekers | Employers
» Join ACS
Join more than 161,000 professionals in the chemical sciences world-wide, as a member of the American Chemical Society.
» Join Now!
Popular Sections
ACS, Analytical SCENE, Business, Careers, Economy, Editor, Education, Employment, Environmental SCENE, Letters, Government, Photo Galleries, Policy, Movies, Multimedia, Nanotechnology, Newscripts, Reel Science, Safety Letters, Science, Stem Cells, Stimulus Funds, Technology, Vaccines, Videos, What's That Stuff
Advertisements
