Jonathon Audia, Ph.D., professor of microbiology and immunology, is the recipient of an NIH grant to study an antibiotic-resistant bacteria. |
The National Institutes of Health (NIH) recently awarded a two-year, $400,400 grant to Jonathon P. Audia, Ph.D., a professor of microbiology and immunology, to study the virulence of P. aeruginosa, which is the most frequent Gram-negative, opportunistic pathogen causing pneumonia in patients who have chronic lung disease, are older and/or immunocompromised.
That same pathogen, P. aeruginosa, is also common in critically ill patients hospitalized with respiratory failure in intensive care units.
Coincidence? That is something Audia and other investigators would like to find out.
Importantly, Audia said, strains of the P. aeruginosa pathogen expressing what is known as the ExoU virulence factor, are associated with the highest levels of patient morbidity and mortality.
“We have discovered that ExoU triggers unscheduled inflammatory cell death in lung endothelial cells by activating an innate immune signaling complex known as the inflammasome,” he said. A main goal of the new study is to determine the mechanisms underlying ExoU-mediated inflammation.
The scientists also want to further study how other bacterial infections in the lungs interact with endothelial cells to elicit inflammatory damage.
Previous research has led them to this point. “We discovered that when the bacteria interact with endothelial cells,” Audia said, “it triggers a massive inflammatory response.”
Jonathon Audia, Ph.D., and graduate student Amanda Tuckey study the P. aeruginosa pathogen. |
“The broader impact,” said Audia, “is potentially identifying a novel target for the development of therapeutics against the bacteria and understanding the impact of infection of the host immune or inflammatory response, which may ultimately lead to a better understanding of why some patients suffer from long-term consequences.”
Mikhail Alexeyev, Ph.D., an associate professor of physiology and cell biology at the Whiddon College of Medicine, is also a collaborator on the work. “His renowned expertise in the molecular biology and genetic manipulation of cultured lung endothelial cells is an essential component of the project,” Audia said, “and will help to create new tools that can be used to develop a better understanding of endothelial inflammatory responses.”