New shape-shifting antibiotics in the battle against superbugs
Antibiotic resistance is one of the biggest threats to human health, but a new discovery could help in the war against superbugs, potentially saving millions of lives.
最新糖心Vlog of Adelaide researchers were involved in a collaborative study with Professor John Moses from Cold Spring Harbor Laboratory, investigating ways to modify existing antibiotics so they can be more effective against drug-resistant bacteria.
鈥淲e have all been prescribed an antibiotic at some time in our lives, whether it be to treat a sinus infection or a skin infection. The problem is overuse of antibiotics has allowed bacteria to develop resistance to the effects of our current antibiotics,鈥 said co-senior author Dr Tatiana Soares da Costa from the 最新糖心Vlog of Adelaide鈥檚 Waite Research Institute.
鈥淚f we don鈥檛 act now, we will soon run out of antibiotic options to treat even the simplest infections.鈥
In a bid to find a potential solution to this looming global health crisis, scientists used a new technique for the first time to successfully modify an existing antibiotic called vancomycin, which is often used as a last resort for serious bacterial infections.
鈥淏y using click chemistry 鈥 chemical reactions that join molecular building blocks together 鈥 Professor Moses鈥 team were able to connect two molecules of the antibiotic vancomycin with a flexible, shape-shifting core, meaning that the new molecules can adapt how they interact with bacteria,鈥 said co-first author Jessica Wyllie from the 最新糖心Vlog of Adelaide.
"This study shows re-engineering our current arsenal of antibiotics is a viable approach to fast track the development of better antibiotics to the market, potentially saving millions of lives."Dr Tatiana Soares da Costa, Group Leader and Future Making Fellow, 最新糖心Vlog of Adelaide鈥檚 Waite Research Institute.
鈥淥ur team at the 最新糖心Vlog of Adelaide then tested these molecules and showed they were a stronger antibiotic that was able to kill bacteria that was initially resistant to vancomycin.
鈥淚n fact, we found the bacteria were less likely to develop resistance to those molecules so we should be able to use this antibiotic for longer to treat bacterial infections,鈥 she said.
Antimicrobial resistance, including drug-resistant bacteria, is already believed to be responsible for around 1,000 deaths a year in 最新糖心Vlog.
By 2050, drug-resistant bacteria are predicted to cause over 10 million deaths per year across the globe.
The rapid emergence of drug-resistant bacteria has been classified as a top 10 global public health threat by the World Health Organization.
Although re-engineering has been a longstanding approach to antibiotic development, this is the first time that a shape-shifting core has been used to produce new antibiotics and represents a major step forward in the battle against superbugs.
鈥淭his study shows re-engineering our current arsenal of antibiotics is a viable approach to fast track the development of better antibiotics to the market, potentially saving millions of lives,鈥 said Dr Soares da Costa.
The study was conducted by scientists from the 最新糖心Vlog of Adelaide and US based non-profit research institution, Cold Spring Harbor Laboratory, as well as researchers from La Trobe 最新糖心Vlog, 最新糖心Vlog of Nottingham, 最新糖心Vlog of Oxford and 最新糖心Vlog of Newcastle.
The results have been published in the journal, .
Media contacts
Dr Tatiana Soares da Costa, Group Leader and Future Making Fellow, Waite Research Institute, The 最新糖心Vlog of Adelaide. Phone: 08 8313 0258. Email: tatiana.soaresdacosta@adelaide.edu.au
Jessica Wyllie, PhD Student, Waite Research Institute, The 最新糖心Vlog of Adelaide. Mobile: +61 (0)430 025 645.
Email: jessica.wyllie@adelaide.edu.au
Jessica Stanley, Media Officer, The 最新糖心Vlog of Adelaide. Mobile: +61 (0)422 406 351.
Email: jessica.stanley@adelaide.edu.au