National Institutes of Health (NIH)
scientists and their colleagues in China have described a rapidly emerging
Staphylococcus aureus gene, called sasX, which plays a pivotal role in
establishing methicillin-resistant S. aureus (MRSA) epidemics in most of Asia.
Senior
author Michael Otto, Ph.D., of NIH's National Institute of Allergy and
Infectious Diseases, says these findings illustrate at the molecular level how
MRSA epidemics may emerge and spread. Moreover, their study identifies a
potential target for novel therapeutics.
MRSA is
a leading cause of severe infections that occur predominantly in hospitals.
MRSA epidemics happen in waves, with old clones of MRSA bacteria disappearing
and new clones emerging, a process whose molecular underpinnings are not fully
understood.
Previous
data indicated that the sasX gene is extremely rare.
Therefore, the researchers were surprised when they analyzed 807 patient
samples of invasive S. aureus taken over the past decade from
three Chinese hospitals.
Their
data showed that sasX is more prevalent in MRSA strains from
China than previously thought, and the gene's frequency is increasing
significantly: From 2003 to 2011, the percentage of MRSA samples containing sasX
almost doubled, from 21 to 39 percent.
This
finding suggests that the sasX gene is involved in molecular
processes that help MRSA spread and cause disease. The researchers determined
in laboratory and mouse studies that sasX helps bacteria to
colonize in the nose, cause skin abscesses and lung disease, and evade human
immune defenses.
Further,
the scientists say their work provides additional evidence for a long-held
theory that the emergence of new clones of highly virulent MRSA bacteria occurs
through horizontal
gene transfer, the exchange of DNA between different strains. Notably, the sasX gene
is embedded in a so-called mobile genetic element, a DNA segment that can
transfer easily between strains.
Most sasX-positive
samples found in the study were from the ST239 group, the predominant MRSA
lineage in China and large parts of Asia. However, because the scientists have
already observed the transfer of sasX to MRSA clones other
than those belonging to the ST239 group, Dr. Otto and his team predict that the
frequency of sasX will increase internationally.
They
plan to both monitor its spread and work to develop therapeutics to prevent
MRSA strains expressing sasX from colonizing and infecting
people.
Min Li,
Ph.D., associate professor at Fudan University in Shanghai, a former
postdoctoral fellow in Dr. Otto's laboratory, designed the study. Other
collaborators are from the University of California, San Francisco.
More
information: Nature
Medicine , 2012. DOI: 10.1038/nm.2692
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