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by Leigh MacMillan | Posted on Thursday, Jan. 17, 2013 — 8:00 AM
The bacterium Acinetobacter baumannii is causing an increasing number of infections in the hospital setting – and most strains are resistant to commonly used antibiotics. To identify new therapeutic approaches to combat this pathogen, Eric Skaar, Ph.D., MPH, Ernest W. Goodpasture Chair in Pathology, and colleagues explored the role of nutrient metals in A. baumannii infections.
The researchers found that calprotectin, a host protein that binds metals and has antimicrobial activity, inhibits A. baumannii growth in vitro by binding manganese and zinc. They showed that calprotectin accumulates in the mouse lung following an infectious challenge and protects against A. baumannii pneumonia and dissemination of the bacteria to other organs.
Using calprotectin as a probe, the researchers discovered A. baumannii’s zinc acquisition system and found that this system is required for full bacterial pathogenesis. They also demonstrated that limiting zinc availability reversed the antibiotic resistance of a carbapenem-resistant strain of A. baumannii.
The findings, reported in the December PLoS Pathogens, establish zinc acquisition as a therapeutic target for fighting A. baumannii infections.
Leigh MacMillan, (615) 322-4747
Health and Medicine, Reporter, Research acinetobacter, Aliquots, antibiotic, antibiotic resistance, bacteria, Burroughs Wellcome Fund, Eric Skaar, infection, journal publication, Mass Spectrometry Research Center, NIAID, NIGMS, NIH, pathology microbiology and immunology, PLoS Pathogens, Reporter Jan 18 2013, Richard Caprioli, Vanderbilt Center for Structural Biology, Walter Chazin, zinc
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