Supercomputers joined the fight against antibiotic resistance – EurekAlert

The participating researchers work at the Ruhr-Universitt Bochum (RUB), the University of Duisburg-Essen (UDE) in Germany, the University of Portsmouth, UK, as well as at the University of Queensland in Australia and the Weizmann Institute in Israel.

Development of new antibiotics difficult

Developing a new antibiotic is particularly difficult and very few new classes of antibiotics have been developed since the 1960s. In the current study, the researchers follow another approach. They do not develop a completely new type, but start from an already existing antibiotic, which they then modify. To do this, they used a strategy in which they simulated computationally several aspects of the candidates. Among other things, how soluble the antibiotic is, how effectively it penetrates the bacterial membrane and how efficiently it blocks the pathogens' protein production are important for its effectiveness. "The computational evaluation of whether a chemical compound will be active before it is actually synthesised avoids chemical waste." explains Professor Frank Schulz from RESOLV at RUB.

Head-to-head

The past has shown that often not much time passes before resistance to a new antibiotic emerges. Thus, it is to be expected that the bacteria will develop counterstrategies against the researchers' counterstrategies and become resistant to the new antibiotic variant. "Our hope with this study is to show that the resistance mechanisms of bacteria can be addressed in a systematic way with computational strategies that help to make the development of new antibiotic derivatives faster and more affordable" explains Professor Elsa Sanchez-Garcia, head of the Computational Biochemistry group at the UDE and Principal Investigator of RESOLV. "In this way, science can continuously fight back with the computer-assisted development of new antibiotics."

Promising candidate

The results of the supercomputer calculations were tested experimentally. In the study, the research team not only implemented the computer-based simulation approach, but also presented a new promising drug candidate. The drug candidate, which still must be clinically tested, was shown to be up to 56 times more active for the tested bacterial strains than two known antibiotics that are on the World Health Organisation's list of essential medicines. The new antibiotic variant is not only more effective against the target organisms tested, but also shows activity against the three highest ranked bacteria on the World Health Organization's priority list, for which the existing antibiotics tested are not effective. In addition to this success, a library of compounds with antibacterial activity was created, which allows for faster iteration in the development of further antibiotic variants.

Proceedings of the National Academy of Sciences

Rational prioritization strategy allows the design of macrolide derivatives that overcome antibiotic resistance

16-Nov-2021

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Supercomputers joined the fight against antibiotic resistance - EurekAlert

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