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Research could lead to new non-antibiotic drugs to counter hospital infections
April 09, 2009'Red Death' provides clues about how P. aeruginosa attacks host
Lack of an adequate amount of the mineral phosphate can turn a common bacterium into a killer, according to research to be published in the April 14, 2009, issue of the Proceedings of the National Academies of Science. The findings could lead to new drugs that would disarm the increasingly antibiotic-resistant pathogen rather than attempting to kill it.
Pseudomonas aeruginosa is one of the most serious hospital-acquired pathogens. A common cause of lung infections, it is also found in the intestinal tract of 20 percent of all Americans and 50 percent of hospitalized patients in the United States.
It is one of the hundreds of bacteria that colonize the human intestinal tract, usually causing no apparent harm. It might even be beneficial to its host. Once the host is weakened by an illness, surgical procedure or immunosuppressive drugs, however, P. aeruginosa can cause infection, inflammation, sepsis and death.
Why P. aeruginosa can suddenly turn on its host has eluded researchers-until now. Scientists have long known that after an operation or organ surgery, levels of inorganic phosphate fall. The authors of the PNAS paper, led by scientists at the University of Chicago, hypothesized that phosphate depletion in the stressed intestinal tract signals P. aeruginosa to become lethal.
To test this theory, they let worms (Caenorhabditis elegans) feed on "lawns" of P. aeruginosa and Escherichia coli grown in both low-phosphate and high-phosphate media. Only the worms that ate P. aeruginosa with low levels of phosphate died. The researchers dubbed the phenomenon "Red Death" since unexpected large red spots appeared on the worms before they died.
"These findings provide novel insight into the mechanisms by which P. aeruginosa is able to shift from indolent colonizer to a lethal pathogen when present in the intestinal tract of a stressed host," said Alexander Zaborin, lead author of the study and a research professional at the University of Chicago's Department of Surgery.
"It's almost as if the bacterium sense when to strike," said John Alverdy, corresponding author of the study and professor of surgery at the University of Chicago Medical Center. "That should come as no surprise since the bacteria are smart, having been around for 2 billion years."
Bacteria seek phosphate as an important nutrient, Alverdy explained. And rather than try to look for it in the blood steam of critically ill patients, where they would encounter armies of antibiotics and disease-fighting white blood cells, they find it inside organ tissues. This process damages and sometimes even kills their host.
Experiments with mice showed that the harm caused when P. aeruginosa becomes activated to express lethal toxins inside the intestinal tract can be mitigated by providing excess phosphate.
The research findings could lead to a pharmaceutical product that would restore healthy phosphate levels in the intestines of such stressed and compromised patients, Alverdy said.
"Antibiotics attempt to kill harmful bacteria, but in the process they often kill beneficial bacteria," said Olga Zaborina, an associate professor at the University of Chicago's Department of Surgery and another key researcher in this study. "A more sensible approach to fighting infectious diseases may be to try to understand the circumstances that provoke a microbe to cause harm in the first place and then find ways to pacify them without destroying them."
Containment on a case-by-case basis might be a more effective and longer-lasting strategy than a scorched earth policy, Alverdy said. Midway Pharmaceuticals, which Alverdy founded in 2005, is developing a pipeline of non-antibiotic compounds that contain or disarm specific bacteria.
Appreciation of the subtle mechanisms in pathogens that colonize the intestinal tract of critically ill patients has important implications for the design of phosphate-based compounds that might prevent P. aeruginosa and other pathogens from turning lethal, the researchers concluded.
Despite the use of powerful antibiotics, P. aeruginosa remains a leading cause of sickness and death among hospitalized patients who have undergone surgery or have reduced immunity. If the bacterium attacks critical body organs such as the lungs, urinary tract and kidneys, it is likely to be fatal. P. aeruginosa thrives on moist surfaces, so it is often found on catheters, causing cross-hospital infections. It is also implicated in a common form of dermatitis associated with poor hygiene and inadequate maintenance of hot tubs.
University of Chicago Medical Center
Why P. aeruginosa can suddenly turn on its host has eluded researchers-until now. Scientists have long known that after an operation or organ surgery, levels of inorganic phosphate fall. The authors of the PNAS paper, led by scientists at the University of Chicago, hypothesized that phosphate depletion in the stressed intestinal tract signals P. aeruginosa to become lethal.
To test this theory, they let worms (Caenorhabditis elegans) feed on "lawns" of P. aeruginosa and Escherichia coli grown in both low-phosphate and high-phosphate media. Only the worms that ate P. aeruginosa with low levels of phosphate died. The researchers dubbed the phenomenon "Red Death" since unexpected large red spots appeared on the worms before they died.
"These findings provide novel insight into the mechanisms by which P. aeruginosa is able to shift from indolent colonizer to a lethal pathogen when present in the intestinal tract of a stressed host," said Alexander Zaborin, lead author of the study and a research professional at the University of Chicago's Department of Surgery.
"It's almost as if the bacterium sense when to strike," said John Alverdy, corresponding author of the study and professor of surgery at the University of Chicago Medical Center. "That should come as no surprise since the bacteria are smart, having been around for 2 billion years."
Bacteria seek phosphate as an important nutrient, Alverdy explained. And rather than try to look for it in the blood steam of critically ill patients, where they would encounter armies of antibiotics and disease-fighting white blood cells, they find it inside organ tissues. This process damages and sometimes even kills their host.
Experiments with mice showed that the harm caused when P. aeruginosa becomes activated to express lethal toxins inside the intestinal tract can be mitigated by providing excess phosphate.
The research findings could lead to a pharmaceutical product that would restore healthy phosphate levels in the intestines of such stressed and compromised patients, Alverdy said.
"Antibiotics attempt to kill harmful bacteria, but in the process they often kill beneficial bacteria," said Olga Zaborina, an associate professor at the University of Chicago's Department of Surgery and another key researcher in this study. "A more sensible approach to fighting infectious diseases may be to try to understand the circumstances that provoke a microbe to cause harm in the first place and then find ways to pacify them without destroying them."
Containment on a case-by-case basis might be a more effective and longer-lasting strategy than a scorched earth policy, Alverdy said. Midway Pharmaceuticals, which Alverdy founded in 2005, is developing a pipeline of non-antibiotic compounds that contain or disarm specific bacteria.
Appreciation of the subtle mechanisms in pathogens that colonize the intestinal tract of critically ill patients has important implications for the design of phosphate-based compounds that might prevent P. aeruginosa and other pathogens from turning lethal, the researchers concluded.
Despite the use of powerful antibiotics, P. aeruginosa remains a leading cause of sickness and death among hospitalized patients who have undergone surgery or have reduced immunity. If the bacterium attacks critical body organs such as the lungs, urinary tract and kidneys, it is likely to be fatal. P. aeruginosa thrives on moist surfaces, so it is often found on catheters, causing cross-hospital infections. It is also implicated in a common form of dermatitis associated with poor hygiene and inadequate maintenance of hot tubs.
University of Chicago Medical Center
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No hiding place for infecting bacteria
Scientists in Colorado have discovered a new approach to prevent bacterial infections from taking hold. Writing in the Journal of Medical Microbiology, Dr Quinn Parks and colleagues describe how they used enzymes against products of the body's own defence cells to prevent Pseudomonas aeruginosa bacteria from building a protective biofilm which enables them to avoid both the body's immune mechanisms and antibiotics
Scientists build 'roach motel' for nasty bugs of the bacterial variety
The vacancy sign is on, but the lowlifes who check in never check out. Scientists at the University of Florida and the University of New Mexico have created tiny microscopic spheres that trap and kill harmful bacteria in a manner the scientists liken to "roach motels" snaring and killing cockroaches.
New approach to treating cystic fibrosis lung infection shows promise
Researchers at the University of Calgary have found a new method of fighting severe lung infections in people with cystic fibrosis (CF). These findings are published in Proceedings of the National Academy of Science USA, this week.
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