Urinary tract infections are both very common and potentially very dangerous. More than half of all Australian women will suffer from a UTI in their lifetime, and nearly one in three women will have an infection requiring treatment with antibiotics before the age of 24.
Around 80 per cent of UTIs are caused by uropathogenic E. coli (UPEC), which is increasingly resistant to antibiotics. E. coli-related death due to antimicrobial resistance is the leading cause of bacterial fatalities worldwide.
In a bid to aid discovery of new treatment options, researchers at the University of Technology Sydney (UTS) are using state-of-the-art microscopy to pinpoint how these bacteria spread and multiply.
Dr Bill Söderström and Associate Professor Iain Duggin, of the Australian Institute for Microbiology and Infection at UTS, said their latest research examined the shapeshifting behaviour of UPEC. During a UTI infection cycle, the bacteria form spaghetti-like filaments hundreds of times their normal lengths before reverting to their original form.
The study, which is published in Nature Communications, used a human bladder cell infection model to generate the filaments, and look at their reversal back to rod shape.
“While we don’t fully understand why they do this extreme lifestyle make-over, we know they must revert to their original size before they can reinfect new bladder cells,” Dr Söderström said.
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