Cholesterol-busting bug identified
Scientists have discovered a novel species of bacteria with cholesterol-busting properties. The new bug, called Gordonia cholesterolivorans, was isolated from sewage sludge.india Updated: May 15, 2009 17:22 IST
Scientists at the Universidad Complutense de Madrid, Spain, have discovered a novel species of bacteria with cholesterol-busting properties.
The new bug, called Gordonia cholesterolivorans, was isolated from sewage sludge.
A steroid found in all body tissues, cholesterol is used in the cosmetics and pharmaceutical industries as stabilizer, emollient and water-binding agent.
As a consequence, steroids - including cholesterol - are a major group of contaminants in urban sewage residues.
Gordonia bacteria have only been classed as a separate group of bacteria since 1997 but they have already proved useful as they are able to degrade a wide range of environmental pollutants including phthalates (used in plastics), rubber and hazardous compounds such as the explosive hexogen (cyclotrimethylenetrinitramine).
Gordonia cholesterolivorans'' ability to break down cholesterol means that it could be used to clean up contamination.
Study author Dr Oliver Drzyzga and colleagues are studying the genetics of this novel bacterium to genetically modify strains that might also be used to synthesise new and industrially useful breakdown products of cholesterol.
"New steroid compounds made by these bacteria may find applications in the pharmaceutical and medical sectors in the future, but as some Gordonia species are pathogenic to humans it is unlikely that they could be used directly to treat high cholesterol-related conditions in humans", said Drzyzga.
"We are trying to work out exactly how Gordonia cholesterolivorans metabolises cholesterol so that we can identify and construct metabolically engineered strains that are more rapid and effective in breaking down cholesterol,” Drzyzga added.
Their findings are reported in the current issue of the International Journal of Systematic and Evolutionary Microbiology.