A novel target for therapeutics against Staph infection
Researchers at the Texas A&M Health Science Center Institute of Biosciences and Technology, and the University of Edinburgh have uncovered how a bacterial pathogen interacts with the blood coagulation protein fibrinogen to cause methicillin-resistant Staphylococcus aureus (MRSA) infections, a finding that could aid in developing therapeutics against the potentially deadly disease. Their work appears November 28 in the open-access journal PLoS Pathogens. Once occurring more commonly in healthcare facilities, but now affecting segments of the general population, MRSA is a bacterial pathogen responsible for a range of diseases from mild skin infection to life-threatening sepsis. Even with antibiotics, these infections can still be fatal.
Senior author Magnus Höök, Ph.D. and his colleagues carried out biochemical and structural studies to determine the binding mechanism of clumping factor A (ClfA), a surface protein that plays an important role in the pathogenesis of S. aureus. The group found that ClfA binds to the blood-clotting protein fibrinogen (Fg) at a site that is also responsible for inducing platelet activation and thrombosis (clot inside a blood vessel).
The results show significant structural differences in how staphylococcal and platelet receptor proteins recognize fibrinogen. By exploiting this difference in recognition, the researchers show that agents could be designed that inhibit the ClfA–Fg interaction but do not interfere with the interaction of Fg with the platelet integrin, therefore avoiding unwanted side effects on the circulatory system.
Source: Public Library of Science
Related
- Researchers map how staph infections alter immune systemTue, 14 Jul 2009, 0:42:57 EDT
- Control of antibiotic-resistant bacteria in out-patient clinics and officesWed, 13 May 2009, 6:08:22 EDT
- More severe bone infections, health complications in children linked to MRSA, researchers findMon, 30 Jun 2008, 10:21:51 EDT
- Protein found to promote antibiotic resistance in a common food-borne pathogenFri, 6 Jun 2008, 5:56:47 EDT
- Evolution of virulence regulation in Staphylococcus aureusThu, 9 Oct 2008, 13:36:14 EDT
Other sources
- A novel target for therapeutics against Staph infectionfrom Science CentricFri, 28 Nov 2008, 13:49:33 EST
- A novel target for therapeutics against Staph infectionfrom PhysorgFri, 28 Nov 2008, 9:21:54 EST
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