Bdellovibrio, a predatory bacterium, has the potential to be used as a living antibiotic agians some major human and animal pathogens, such as E.coli and other so-called Gram-negative bacteria.
This is according to a researcher Dr Laura Hobely.
Previous studies have shown that Bdellovibrio is very effective at invading and killing other bacterial cells in a test tube. And looking like an alternative to antibiotic medicines at a time when bacterial resistance is a significant problem to human and animal health.
Dr Hobley continued "We think that Bdellovibrio could be particularly useful as a topical treatment for wounds or foot rots but we wanted to know what might happen if it is ingested – either deliberately as a treatment, or by accident."
However the scientists wanted to know the effect of Bdellovibrio if ingested, either by prescription or accidently. So it was tested on Salmonella in the guts of live chickens. The tests showed that it significantly reduced the numbers of Salmonella bacteria and, importantly, showed that Bdellovibrio are safe when ingested.
Salmonella likes to grow in the guts of poultry and other animals and can cause food poisoning in humans. In lab experiments Bdellovibrio can kill Salmonella by breaking into the cells and destroying them from the inside. This research shows that it also works inside the gut of a bird and is safe, not harming them or changing their behaviour.
Bdellovibrio reduced the numbers of Salmonella by 90% and the birds remained healthy, grew well, and were generally in good condition.
"We concluded that Bdellovibrio aren't long lived in the bird guts – they had a strong effect for about 48 hours, which dropped off after this time. If we were to use this method to completely rid the birds of Salmonella, we might have to test a program of multiple dosing. But the point of this study was really to ensure that Bdellovibrio is safe and effective when ingested," said Dr Hobley.
Professor Douglas Kell, Chief Executive, BBSRC said "Once we have understood the fundamental nature of an extraordinary organism such as Bdellovibrio, it makes sense that we should look at potential uses for it. The impact of bacterial infections on human and animal health is significant and since antibiotic resistance is a major issue, alternatives from nature may become increasingly important."
The research was funded by the Biotechnology and Biological Sciences Research Council, carried out by Professor Liz Sockett's team at The University of Nottingham, with Dr Robert Atterbury and Professor Paul Barrow at the University of Nottingham Vet School; and published in the journal Applied and Environmental Microbiology.