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Scientists break record while battling antibiotic resistance

Drug-resistant diseases could cause up to 10 million deaths a year by 2050, according to the听World Health Organization.

Drug-resistant diseases could cause up to 10 million deaths a year by 2050, according to the听World Health Organization. Scientists used the Canadian Light Source (CLS) at the University of Saskatchewan to better understand how current antibiotics work and how we might curb bacterial resistance to these life-saving drugs.

Many new antibiotics are able to kill infection-causing bacteria by binding to these bacteria鈥檚 ribosomes, which are the essential machines that make proteins. In order to see exactly what antibiotics do at an atomic level, researchers from McGill University used the CLS to determine the physical structure of a ribosome as it interacted with one of the newest antibiotics.

To understand how some bacteria are already resistant to this new antibiotic, they also determined how the drug interacts with a key bacterial enzyme that causes the resistance. The results were recently听published听in听Nature听Communications Biology.

Visualizing the antibiotic bound to the ribosome, which is a complex with 300,000 atoms, was a feat that took the team roughly five years to complete. In the process, the scientists broke the record for the largest structure ever analyzed using the CMCF beamline at the CLS, which is the only facility of its kind in Canada. The previous record, set in 2013, was for a structure six times smaller.

鈥淭he antibiotic we studied is made of about 40 atoms 鈥 just a little bigger than one sugar molecule,鈥 explained lead researcher Dr. Albert Berghuis, Chair of the Department of Biochemistry at McGill University鈥檚 Faculty of Medicine and Health Sciences. 鈥淚t鈥檚 a bit crazy that we had to figure out 300,000 atoms in order to know what those 40 atoms in the antibiotic are doing.鈥

Berghuis described the research process as both fun and very challenging.

鈥淭he people at the CMCF beamline deserve a lot of credit,鈥 said Berghuis. 鈥淭hey tried probably 50 to 80 samples, and only a few of them worked really well.鈥 He also credited the hard work co-authors Tolou Golkar and Angelia Bassenden from McGill put into the research.

By determining the structural basis for antibiotic action and resistance, their work will make it easier to create and test antibiotics in the future.

This research builds on work published in听2017听and听2021听that the team conducted in collaboration with the CLS. With that knowledge, they made sure to analyze the structure of an antibiotic as it interacted with a ribosome as well as this enzyme. According to Berghuis, figuring out both parts will be critical to making better antibiotics.

鈥淲e will now want to make a next-generation drug that still binds to the ribosome, but no longer to enzymes that will cause resistance,鈥 said Dr. Berghuis. 鈥淭hat鈥檚 why we needed both pieces of information. Now we have that picture, we can make changes.鈥

Their findings will allow researchers to test the interaction between ribosomes and next-generation antibiotics in great detail and in a much shorter time frame.

鈥淲e have figured out all the problems. We have jumped over all the hurdles,鈥 said Berghuis, who estimates that replicating the research with a new form of antibiotic would not take another five years but roughly a tenth of that time.

The team hopes that these discoveries can fast-track the development of more effective antibiotics.

The Canadian Light Source at the University of Saskatchewan is a national research facility, producing the brightest light in Canada鈥攎illions of times brighter than even the sun. One of the largest science projects in the country鈥檚 history, the CLS hosts annually more than 1,000 scientists from around the world who use our light to conduct ground-breaking health, agricultural, environmental and advanced materials research.

The Canada Foundation for Innovation, Natural Sciences and Engineering Research Council, National Research Council of Canada, Canadian Institutes of Health Research, the Government of Saskatchewan and the University of Saskatchewan fund its operations.

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