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Bacterium S. Aureus Colonizes Our Nasal Passages

by Bidita Debnath on  December 29, 2012 at 9:49 PM Research News   - G J E 4
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A mechanism by which the bacterium Staphylococcus aureus (S. aureus) colonizes our nasal passages is being identified by a team of researchers.
 Bacterium S. Aureus Colonizes Our Nasal Passages
Bacterium S. Aureus Colonizes Our Nasal Passages

Their study showed for the first time that a protein located on the bacterial surface called clumping factor B (ClfB) has high affinity for the skin protein loricrin.

S. aureus is a major human pathogen, with the potential to cause severe invasive diseases. It is a major cause for concern in hospitals and healthcare facilities, where many infections are caused by strains resistant to commonly used antibiotics [MRSA].

Interestingly, S. aureus persistently colonizes about 20 percent of the human population by binding to skin-like cells within the nasal cavity. Being colonized predisposes an individual towards becoming infected so it is vital that we understand the mechanisms involved.

ClfB was previously shown to promote S. aureus colonization in a human nasal colonization volunteer study.

The latest study by researchers at the School of Biochemistry and Immunology and the Department of Microbiology at Trinity College Dublin has now identified the mechanism by which ClfB facilitates S. aureus nasal colonization.

Purified ClfB bound loricrin with high affinity and this interaction was shown to be crucial for successful colonization of the nose in a mouse model. A knockout mouse lacking loricrin in its skin cells allowed fewer bacterial cells to colonize its nasal passages than a normal mouse. When S. aureus strains that lacked ClfB were used nasal colonization could not be achieved at all. Finally it was shown that soluble loricrin could reduce binding of S. aureus to human nasal skin cells and that nasal administration of loricrin reduced S. aureus colonization of mice.

"Loricrin is a major determinant of S. aureus nasal colonization," Rachel McLoughlin, the study's corresponding author and Lecturer at the School of Biochemistry and Immunology at Trinity College Dublin concluded.

This discovery therefore opens new avenues for developing therapeutic strategies to reduce the burden of nasal carriage and consequently infections with this bacterium. This is particularly important given the difficulties associated with treating MRSA infections.

The study has been published in the Open Access journal PLOS Pathogens.

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