Key Anthrax Virulence Factor Discovered
TOOLBOX   Resize Text
 Save/Share +
COMMENT
 Discussion Policy
 CLOSE
Comments that include profanity or personal attacks or other inappropriate comments or material will be removed from the site. Additionally, entries that are unsigned or contain "signatures" by someone other than the actual author will be removed. Finally, we will take steps to block users who violate any of our posting standards, terms of use or privacy policies or any other policies governing this site. Please review the full rules governing commentaries and discussions. You are fully responsible for the content that you post.
|
Thursday, January 24, 2008; 12:00 AM
THURSDAY, Jan. 24 (HealthDay News) -- Researchers have discovered how the anthrax bacterium protects itself from the immune system's biochemical assault.
The results reveal not only a novel aspect of anthrax virulence, they also suggest a new target, known as bacterial nitric oxide synthase (bNOS), for fighting the pathogen, said study leader Evgeny Nudler, a professor of biochemistry at the New York University School of Medicine.
"That is the obvious continuation of our work," said Nudler, "to find small molecule inhibitors of bacterial nitric oxide synthase that would not touch its human counterpart. If we are lucky, we will find this inhibitor that would potentially work as an antibiotic."
One expert thought the finding could have therapeutic potential.
"bNOS can definitely be a therapeutic target," said Philip Tierno Jr.,director of clinical microbiology & immunology in the Departments of Microbiology & Pathology at New York University Medical Center. "Clearly they showed that it should be a target, and if that somehow could be met, they may have knocked out the virulence of the organism, as they showed in the mouse model."
"But it may be more complicated than the model suggests, and there may be more factors at play than they suggest," Tierno added. "Things may not be a simple as it seems, but it's certainly a step in the right direction and should be explored, and might offer a solution, especially because anthrax could be a viable candidate for a terrorist."
The results were reported in this week's issue of theProceedings of the National Academy of Sciences.
According to Nudler, this study stems from earlier research in which his team determined that bNOS (an enzyme that synthesizes nitric oxide) protects some bacteria from the stress of oxidizing chemicals, including the hydrogen peroxide and nitric oxide that immune cells called macrophages use to kill pathogens. That research involvedBacillus subtilis, a close relative of the anthrax pathogen,Bacillus anthracis.
In the present study, the team found that when they mutated the bNOS gene in the anthrax pathogen, the resulting bacteria were far more susceptible to oxidative stress, less able to germinate within macrophages and considerably less deadly in mice.
Those observations, said Nudler, were not unexpected. However, their magnitude was.
"The surprise was it was so dramatic," he said. "We expected some effect." But with a decrease in virulence of almost 1,000-fold, he explained, "This implies bNOS is an essential virulence factor in anthrax."
The results present an apparent paradox, that the bacteria must synthesize their own nitric oxide to survive the nitric oxide attack inflicted by the immune system. But Nudler said it is all a matter of timing.
