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Team IDs weakness in anthrax bacteria
January 25, 2008IT and New York University researchers have identified a weakness in the defenses of the anthrax bacterium that could be exploited to produce new antibiotics.
The researchers found that nitric oxide (NO) is a critical part of Bacillus anthracis's defense against the immune response launched by cells infected with the bacterium. Anthrax bacteria that cannot produce NO succumb to the immune system's attack.
Stephen Lippard, the Arthur Amos Noyes Professor of Chemistry at MIT and an author of a paper on the work, said antibiotics developed to capitalize on this vulnerability could be effective against other bacteria that employ the same defense system. Those bacteria include Staphylococcus aureus, which commonly causes infections in hospitals and can be extremely drug-resistant.
The paper appeared in the Jan. 21 online edition of the Proceedings of the National Academy of Sciences
Anthrax occurs naturally around the world and can infect all warm-blooded animals including humans. Treatment usually includes large doses of intravenous and oral antibiotics, but the disease can often be fatal--especially if treatment is not started right away.
In the human immune system, specialized cells called macrophages are the first line of defense against anthrax infection. Macrophages engulf the bacteria and bombard them with reactive oxygen and nitrogen species, which create chemical reactions toxic to the bacteria.
The research team found that NO produced by the bacteria pre-emptively defends against attack by reactive oxygen species produced by the macrophages soon after infection. Twelve hours later, when the macrophages release NO to join in the attack, it is too late--by then the bacteria have taken over and eventually destroy the macrophages.
When the gene for the enzyme that synthesizes NO is knocked out in the bacteria, they cannot defend against early attack by the macrophages, which can then survive the infection.
"With the aid of an intracellular probe developed in our laboratory, which fluoresces in the presence of NO, our collaborators Evgeny Nudler and his group discovered a completely new target for the next generation of antibiotics," said Lippard.
With this knowledge in hand, the researchers are now using the fluorescent probe to screen libraries of chemicals for compounds that could potentially interfere with the bacterium's ability to synthesize NO, said Lippard. Such compounds could eventually be developed into new antibiotics.
Lead author of the paper is Konstantin Shatalin of the New York University School of Medicine. The research was funded by the National Institutes of Health and the National Science Foundation.
Massachusetts Institute of Technology
The paper appeared in the Jan. 21 online edition of the Proceedings of the National Academy of Sciences
Anthrax occurs naturally around the world and can infect all warm-blooded animals including humans. Treatment usually includes large doses of intravenous and oral antibiotics, but the disease can often be fatal--especially if treatment is not started right away.
In the human immune system, specialized cells called macrophages are the first line of defense against anthrax infection. Macrophages engulf the bacteria and bombard them with reactive oxygen and nitrogen species, which create chemical reactions toxic to the bacteria.
The research team found that NO produced by the bacteria pre-emptively defends against attack by reactive oxygen species produced by the macrophages soon after infection. Twelve hours later, when the macrophages release NO to join in the attack, it is too late--by then the bacteria have taken over and eventually destroy the macrophages.
When the gene for the enzyme that synthesizes NO is knocked out in the bacteria, they cannot defend against early attack by the macrophages, which can then survive the infection.
"With the aid of an intracellular probe developed in our laboratory, which fluoresces in the presence of NO, our collaborators Evgeny Nudler and his group discovered a completely new target for the next generation of antibiotics," said Lippard.
With this knowledge in hand, the researchers are now using the fluorescent probe to screen libraries of chemicals for compounds that could potentially interfere with the bacterium's ability to synthesize NO, said Lippard. Such compounds could eventually be developed into new antibiotics.
Lead author of the paper is Konstantin Shatalin of the New York University School of Medicine. The research was funded by the National Institutes of Health and the National Science Foundation.
Massachusetts Institute of Technology
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Scripps research scientists identify blood component that turns bacteria virulent
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Northwestern exposing most deadly infectious diseases in 3-D
A scientist slides on a pair of plastic 3-D glasses and an unearthly blue multi-armed creature -- an image right out of a sci-fi horror flick -- seems to leap out of the computer screen into the laboratory.
New finding points way to foiling anthrax's tricks
University of California, Berkeley, chemists have discovered a trick that anthrax bacteria use to make an end run around the body's defenses, but which may turn out to be their Achilles' heel.
University of Georgia researchers discover cell-wall carbohydrate that is crucial to anthrax bacterium
A week after the 9/11 attacks in 2001, the letters began to arrive. Someone filled envelopes with a deadly strain of anthrax bacteria and mailed them to two U.S. senators and several offices of the news media. Five people died, and 17 others became infected.
New antibody shows promise as cure for anthrax
A new anthrax antibody engineered by scientists at The University of Texas at Austin protects and defends against inhalation anthrax without the use of antibiotics and other more expensive antibodies.
Sandia researchers determine that common anthrax sampling methods need improvement
A research team from the National Nuclear Security Administration's Sandia National Laboratories has discovered that common anthrax sampling methods need improvement. The research shows that more deadly spores remain after decontamination than previously believed.
Anthrax stops body from fighting back, study shows
University of Florida researchers have uncovered how the inhaled form of anthrax disarms bacteria-fighting white blood cells before they can fend off the disease, which kills most victims within days.
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