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Home SCIENCE NEWS Social & Behavioral Science

Sanford Burnham Prebys researchers awarded $3.6 million to study antibiotic resistance

January 14, 2022
in Social & Behavioral Science
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LA JOLLA, CALIF. – Jan 13, 2022 – Sanford Burnham Prebys professor Andrei Osterman, Ph.D., has been awarded a $3.6 million grant from the National Institutes of Health (NIH) to expand current knowledge of antibiotic resistance, which will inform more precise antibiotic prescribing practices and help researchers develop drugs that are harder for bacteria to resist.

Andrei Osterman, Ph.D.

Credit: Sanford Burnham Prebys

LA JOLLA, CALIF. – Jan 13, 2022 – Sanford Burnham Prebys professor Andrei Osterman, Ph.D., has been awarded a $3.6 million grant from the National Institutes of Health (NIH) to expand current knowledge of antibiotic resistance, which will inform more precise antibiotic prescribing practices and help researchers develop drugs that are harder for bacteria to resist.

Antibiotic resistance is responsible for at least 700,000 deaths a year, according to the World Health Organization. This number is expected to increase in the coming decades, making antibiotic resistance a growing and pressing threat to public health.

“The emergence of antibiotic resistance is inevitable for any single drug, new or old. It’s only a question of time,” says Osterman. “But how much time is different for every drug and every microbe, so studying when and how resistance to antibiotics evolves gives us powerful information for improving antibiotic treatment.”

The threat of antibiotic resistance

When a patient is treated with antibiotics, most individual bacteria die, but a few cells will survive, usually as a lucky consequence of a random genetic mutation. These survivors go on to multiply into a whole new population of antibiotic-resistant bacteria. Because antibiotics are a staple of modern medicine, antibiotic resistance is a significant threat to public health that is only expected to become worse. 

“The evolution of antibiotic resistance is a strictly Darwinian process, very similar to the evolution of other types of drug resistance, such as in cancer,” says Osterman. “The difference is that in bacteria, it happens much more rapidly, which makes antibiotic resistance one of the most pressing challenges facing medicine today.”

Real-time evolution monitoring

The team is employing an innovative approach using a morbidostat, a device that allows bacteria to grow continuously over multiple generations while being dosed with antibiotics. They will use the device to track the precise progression of antibiotic resistance in several clinically relevant bacterial species.

“It’s like an evolution machine, letting us watch the development of antibiotic resistance in real time and in an environment that models what happens to bacteria in a clinical setting more accurately than other approaches,” says Osterman. “This gives us a clearer and more comprehensive view of resistance than any we’ve had before.”

Understanding resistance is critical to reducing its harm

In addition to greatly expanding our knowledge of microbiology, the morbidostat approach has proven successful in preliminary studies. Working with Roche Pharma, Osterman’s team has completed morbidostat studies on several classes of antibiotic drugs. This approach is helping Roche identify promising candidates for antibiotics that are less prone to resistance.

“A completely ‘irresistible’ drug is a holy grail, something we can never truly achieve,” says Osterman. “But some drugs are less resistible than others, and this NIH funding will allow us to figure out which is which in a more systematic way than has ever been possible.”

The project will also explore how this approach can be translated into better methods for treating infections with existing antibiotic drugs.

“We are moving away from a trial-and-error approach to medicine, toward something much more calibrated,” says Osterman. “The tools we’re developing with this funding will allow doctors to select precisely optimized doses and combinations of antibiotics to maximize their benefit while minimizing resistance.”

###

The grant is titled Comparative Resistomics of Gram-Negative Bacterial Pathogens (R01 AI167977-01).

###

About Sanford Burnham Prebys
Sanford Burnham Prebys is a preeminent, independent biomedical research institute dedicated to understanding human biology and disease and advancing scientific discoveries to profoundly impact human health. For more than 40 years, our research has produced breakthroughs in cancer, neuroscience, immunology and children’s diseases, and is anchored by our NCI-designated Cancer Center and advanced drug discovery capabilities. For more information, visit us at SBPdiscovery.org or on Facebook facebook.com/SBPdiscovery and on Twitter @SBPdiscovery.



Tags: antibioticawardedBurnhammillionPrebysresearchersresistanceSanfordstudy
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