Evolutionary roots of ancient bacteria may open new line of attack on CF
The redox-active pigments responsible for the blue-green stain of the mucus that clogs the lungs of children and adults with cystic fibrosis (CF) are primarily signaling molecules that allow large clusters of the opportunistic infection agent, Pseudomonas aeruginosa, to organize themselves into structured communities, report Massachusetts Institute of Technology geobiologists at American Society for Cell Biology (ASCB) 48th Annual Meeting, Dec. 13-17, 2008 in San Francisco. For decades, these pigments, called phenazines, have been wrongly regarded as antibiotics, generated by P. aeruginosa, to kill off the microbe's bacterial competitors in the lungs.
This new insight about the leading cause of death of people with CF suggests that the phenazine-processing machinery could become a potential target for drugs to treat P. aeruginosa infections in CF patients, says Dianne K. Newman, who heads the MIT lab, and postdoctoral fellow Lars Dietrich.
P. aeruginosa appears as a classic opportunistic infection, easily shrugged off by healthy people but a grave threat to those with CF, which chokes the lungs of its victims with sticky mucus.
"We have a long way to go before being able to test this idea, but the hope is that if survival in the lung is influenced by phenazine -- or some other electron-shuttling molecule or molecules --tampering with phenazine trafficking might be a potential way to make antibiotics more effective," explains Newman, whose lab investigates how ancestral bacteria on the early Earth evolved the ability to metabolize minerals.
Newman and Dietrich looked at phenazines from an evolutionary perspective, and using RNA arrays to probe all of the small molecules' actions, they discovered that phenazines are not mere redox-active weapons but are molecules that activate the transcription factor SoxR.
In Escherichia coli and other closely related bacteria, SoxR regulates the response to superoxide stress and appears to be utilized to regulate a handful of genes that might be involved in the transport and modification of redox-active signals.
By manipulating phenazine activity in colonies of P. aeruginosa grown in the lab, the MIT scientists learned that these molecules create a smooth biofilm surface under which the colony can prosper in anaerobic bliss.
The less phenazine available, the more wrinkled and less strong the colony surface becomes.
A thick biofilm also develops in the lungs of patients with CF infected with P. aeruginosa. Sealed under the biofilm are the pseudomonads that have adapted to the patients' lungs, developed antibiotic resistance and formed large anaerobic colonies.
Most people with CF die from a cascade of damaging lung infections. Pathogenic bacteria such as Staphylococcus aureus weaken the CF patient, but it is the onset of P. aeruginosa infection that signals a dangerous turn.
Source: American Society for Cell Biology
Related
- Hope for preventative treatment for cystic fibrosis lung diseaseThu, 5 Feb 2009, 14:16:18 EST
- Common cold virus efficiently delivers corrected gene to cystic fibrosis cellsMon, 20 Jul 2009, 20:43:08 EDT
- Scientists identify gene for short-circuiting excess mucus in lung disease, common coldsMon, 14 Sep 2009, 18:15:42 EDT
- Cystic fibrosis treatments may have unseen long-term benefitsThu, 16 Jul 2009, 10:51:40 EDT
- Immune cells play surprising role in cystic fibrosis lung damage, Stanford/Packard study showsMon, 16 Mar 2009, 18:29:14 EDT
Other sources
- Bacteria help themselves in damaged lungsfrom Sciencenews.orgThu, 18 Dec 2008, 10:42:31 EST
- Evolutionary Roots Of Ancient Bacteria May Open New Line Of Attack On Cystic Fibrosisfrom Science DailyWed, 17 Dec 2008, 23:28:16 EST
- Evolutionary roots of ancient bacteria may open new line of attack on CFfrom Science CentricWed, 17 Dec 2008, 6:02:11 EST
- Cystic Fibrosis Treatment Gets A New Approach In The Evolutionary Roots Of Ancient Bacteriafrom Scientific BloggingTue, 16 Dec 2008, 15:49:54 EST
- Evolutionary roots of ancient bacteria may open new line of attack on CFfrom PhysorgTue, 16 Dec 2008, 13:56:39 EST
- Ancient bacteria offer new line of attack on CFfrom MIT ResearchTue, 16 Dec 2008, 13:35:41 EST
Latest Science Newsletter
Get the latest and most popular science news articles of the week in your Inbox!Learn more about
Popular science news articles
- Scientists visualize how bacteria talk to one another
- Findings show nanomedicine promising for treating spinal cord injuries
- Carnegie Mellon researchers link health-care debate to risk of dying in US and Europe
- Developmental delay could stem from nicotinic receptor deletion
- Deep creep means milder, more frequent earthquakes along Southern California's San Jacinto fault
- African desert rift confirmed as new ocean in the making
- Wolves, moose and biodiversity: An unexpected connection
- Does green tea prevent cancer? Evidence continues to brew, but questions remain
- Why nice guys usually get the girls
- Digital 'plaster' for monitoring vital signs undergoes first clinical trials
- African desert rift confirmed as new ocean in the making
- 1 shot of gene therapy and children with congenital blindness can now see
- Scientists discover influenza's Achilles heel: Antioxidants
- Cleanliness is next to godliness: New research shows clean smells promote moral behavior
- Super typhoon Lupit heading west in the Philippine Sea
No popular news yet
- African desert rift confirmed as new ocean in the making
- Study reveals a 'missing link' in immune response to disease
- Common plants can eliminate indoor air pollutants
- Reduction in glycotoxins from heat-processing of foods reduces risk of chronic disease
- Does green tea prevent cancer? Evidence continues to brew, but questions remain