NIH Scientists Identify New Toxin That May be Key to MRSA Severity
A research project to identify all the surface proteins of USA300the most common community-associated strain of the methicillin-resistant form of the bacterium Staphylococcus aureus (MRSA)has resulted in the identification and isolation of a plentiful new toxin that laboratory studies indicate is a potent killer of human immune cells.
A research project to identify all the surface proteins of USA300the most common community-associated strain of the methicillin-resistant form of the bacterium Staphylococcus aureus (MRSA)has resulted in the identification and isolation of a plentiful new toxin that laboratory studies indicate is a potent killer of human immune cells.
Scientists at the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health, say the toxin could be a key factor in the severity of MRSA infections in otherwise healthy people. The toxin, named LukGH, consists of two small proteins found on the surface of the bacteria and is secreted freely into the surrounding environment.
The scientists identified 113 proteins associated with the surface of USA300 and began to examine the role of the previously uncharacterized proteins. S. aureus surface proteins are key indicators of how the pathogen will respond to contact with immune system cells, such as neutrophils, which the body produces in large numbers to kill invading microbes. Some proteins can aggressively attack these immune cells, and the demise of the neutrophils ultimately enables the bacteria to replicate and thrive. When the LukGH toxin was removed from USA300, studies showed that the strain caused little to no damage to human neutrophils. With the toxin present, the bacteria began forming pores in neutrophils which eventually led to their destruction.
The scientists say they do not know the full contribution of LukGH to the severity of MRSA infection. However, LukGH is the only MRSA toxin currently known to promote destruction of human neutrophils after the bacteria have been ingested by the immune cells designed to destroy them. Using animal models of MRSA infection, the NIH team is continuing to study the role of LukGH in disease.
Reference: Ventura C, et al. Identification of a novel Staphylococcus aureus two-component leukotoxin using cell surface proteomics. PLoS One DOI: 10.1371/journal.pone.0011634 (2010).
CDC Urges Vigilance: New Recommendations for Monitoring and Testing H5N1 Exposures
July 11th 2025With avian influenza A(H5N1) infections surfacing in both animals and humans, the CDC has issued updated guidance calling for aggressive monitoring and targeted testing to contain the virus and protect public health.
IP LifeLine: Layoffs and the Evolving Job Market Landscape for Infection Preventionists
July 11th 2025Infection preventionists, once hailed as indispensable during the pandemic, now face a sobering reality: budget pressures, hiring freezes, and layoffs are reshaping the field, leaving many IPs worried about their future and questioning their value within health care organizations.
A Helping Hand: Innovative Approaches to Expanding Hand Hygiene Programs in Acute Care Settings
July 9th 2025Who knew candy, UV lights, and a college kid in scrubs could double hand hygiene adherence? A Pennsylvania hospital’s creative shake-up of its infection prevention program shows that sometimes it takes more than soap to get hands clean—and keep them that way.
