An important discovery for sure.
A “game changing” new antibiotic which is capable of killing superbugs has been successfully synthesised and used to treat an infection for the first time — and could lead to the first new class of antibiotic drug in 30 years.
The breakthrough is another major step forward on the journey to develop a commercially viable drug version based on teixobactin — a natural antibiotic discovered by US scientists in soil samples in 2015 which has been heralded as a “gamechanger” in the battle against antibiotic resistant pathogens such as MRSA and VRE.
Scientists from the University of Lincoln, UK, have now successfully created a simplified, synthesised form of teixobactin which has been used to treat a bacterial infection in mice, demonstrating the first proof that such simplified versions of its real form could be used to treat real bacterial infection as the basis of a new drug.
As well as clearing the infection, the synthesised teixobactin also minimised the infection’s severity, which was not the case for the clinically-used antibiotic, moxifloxacin, used as a control study. The findings are published in the Journal of Medicinal Chemistry.
It has been predicted that by 2050 an additional 10 million people will succumb to drug resistant infections each year. The development of new antibiotics which can be used as a last resort when other drugs are ineffective is therefore a crucial area of study for healthcare researchers around the world.
Dr Ishwar Singh, a specialist in novel drug design and development from the University of Lincoln’s School of Pharmacy, said: “Translating our success with these simplified synthetic versions from test tubes to real cases is a quantum jump in the development of new antibiotics, and brings us closer to realising the therapeutic potential of simplified teixobactins.
“When teixobactin was discovered it was groundbreaking in itself as a new antibiotic which kills bacteria without detectable resistance including superbugs such as MRSA, but natural teixobactin was not created for human use.
“A significant amount of work remains in the development of teixobactin as a therapeutic antibiotic for human use — we are probably around six to ten years off a drug that doctors can prescribe to patients — but this is a real step in the right direction and now opens the door for improving our in vivo analogues.”
Dr Lakshminarayanan Rajamani from SERI added: “We need sophisticated armour to combat antibiotic-resistant pathogens. Drugs that target the fundamental mechanism of bacterial survival, and also reduce the host’s inflammatory responses are the need of the hour. Our preliminary studies suggest that the modified peptide decreases the bacterial burden as well as disease severity, thus potentially enhancing the therapeutic utility.”