P. aeruginosa is an opportunistic bacterium responsible for many hospital-acquired infections. It is often associated with chronic wounds in which the bacteria clump together to form biofilms. By effectively talking to each other via a well-studied communication system called quorum sensing (QS), bacteria in biofilms are known to be more successful at avoiding destruction by the host immune system as well as antibiotics. Dr Anders Schou Andersen, who led the research, explained that QS was also the key to P. aeruginosa's toxicity to maggots. "When we blocked the QS signalling pathways in the bacteria, the maggots were much better at surviving and potentially cleansing the wounds. Signalling between bacteria growing in biofilms is known to lead to the production of lethal toxins, without which the bacteria are more vulnerable to eradication." Dr Andersen believes the research could benefit patients with persistent wounds. "MDT is generally very effective. It has been said that in a few cases MDT had failed, leaving the maggots dead in the lesion. We now think that this was probably due to the presence of P. aeruginosa in the wound," he said. "If we can find the specific bacterial mechanism that kills the maggots, we could target this when developing new treatments. For example, wounds infected with P. aeruginosa could be treated with an agent that interrupts bacterial signalling to ensure the success of maggot therapy and thereby wound healing."
Science Daily
March 9, 2010
Original web page at Science Daily
