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Sleeping Sickness Could be Treated by Fly Gut Bacteria

by Rajshri on  May 11, 2010 at 7:47 PM Research News   - G J E 4
A new bacterial species in the gut of the fly that transmits African sleeping sickness has been discovered by French scientists. They say that the bacteria could be engineered to kill the parasite that causes the disease.
 Sleeping Sickness Could be Treated by Fly Gut Bacteria
Sleeping Sickness Could be Treated by Fly Gut Bacteria
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According to researchers from IRD, the French Research Institute for Development in Montpellier, France, the study could lead to new approaches to control this fatal infection that is becoming resistant to drug therapy.

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As part of the research, the authors isolated the novel bacterium from the midgut of the tsete fly that also harbours the protozoan Trypanosoma brucei gambiense (Tbg), responsible for Human African Trypanosomiasis, known as sleeping sickness.

The new bacterium was named Serratia glossinae after genomic analysis showed it was closely genetically linked to other bacteria in the Serratia genus.

nterestingly one of the species in this genus is able to kill another trypanosome that causes Chagas' disease in South America.

This has prompted the group to hypothesise that the Serratia group of bacteria has the potential to be exploited to treat trypanosomiasis.

More than 60 million people are exposed to African sleeping sickness in Sub-Saharan Africa. The causative agent, Tbg, can be transmitted through the bites of infected flies that feed on human blood.

The parasite multiplies in the blood of infected individuals and may eventually invade the brain. Infections by Tbg are often asymptomatic for months or years and can remain undetected until patients are in advanced stages of the disease. Without treatment, these infections are fatal.

The research could contribute to new treatment strategies that are desperately needed to fight African sleeping sickness. Current drugs are expensive and are not always effective due to increasing resistance of Tbg.

"Our work could lead to an alternative vector-based approach that exploits selected strains of bacteria naturally present in the fly's gut to either kill the parasite, or prevent it from establishing itself in the gut," said Dr Anne Geiger, lead author of the study.

The study has been published in the International Journal of Systematic and Evolutionary Microbiology.

Source: ANI
RAS
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