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July 22, 2024
Superbug Slayer: New Class of Antibiotics Proves Potent Against Multi-Drug Resistant Bacteria

Superbug Slayer: New Class of Antibiotics Proves Potent Against Multi-Drug Resistant Bacteria

May 1, 2024
Antibiotic Destroying Bacteria Concept Illustration

Researchers at Uppsala University have developed a promising new class of antibiotics that effectively targets multi-drug resistant bacteria and cures bloodstream infections in mice. Credit:

A new class of antibiotics capable of combating multi-drug resistant bacteria and treating bloodstream infections in mice has been unveiled by Uppsala University scientists.

Scientists at Uppsala University have discovered a new class of antibiotics with potent activity against multi-drug resistant bacteria, and have shown that it cures bloodstream infections in mice. The new antibiotic class is described in an article in the scientific journal PNAS.

Antibiotics in Modern Medicine

Antibiotics are the foundation of modern medicine and over the last century have dramatically improved the lives of people around the world. Nowadays we tend to take antibiotics for granted and rely heavily on them to treat or prevent bacterial infections, including for example, to reduce the risk of infections during cancer therapy, during invasive surgery and transplants, and in mothers and preterm babies. Increasingly though, the global rise in antibiotic resistance threatens their effectiveness. In order to ensure access to effective antibiotics in the future, development of novel therapeutics to which there is no existing resistance is essential.

Discovery of the New Antibiotic

Researchers at Uppsala University have recently published their work in the Proceedings of the National Academy of Sciences of the USA describing a new class of antibiotics developed as a part of multi-national consortia. The class of compounds they describe target a protein, LpxH, which is used in a pathway by Gram-negative bacteria to synthesize their outermost layer of protection from the environment, called lipopolysaccharide.

Not all bacteria produce this layer, but those that do include the organisms that have been identified by the World Health Organization as being the most critical to develop novel treatments for, including Escherichia coli and Klebsiella pneumoniae that have already developed resistance to available antibiotics.

The researchers were able to show that this new antibiotic class is highly active against multidrug-resistant bacteria and was able to treat bloodstream infections in a mouse model, demonstrating the promise of this class. Importantly, since this compound class is completely new and the protein LpxH has not yet been exploited as a target for antibiotics there is no pre-existing resistance to this class of compounds. This is in contrast to the many ‘me-too’ antibiotics of existing classes currently in clinical development.

While the current results are very promising there will be considerable additional work required before compounds of this class will be ready for clinical trials.

Reference: “Antibiotic class with potent in vivo activity targeting lipopolysaccharide synthesis in Gram-negative bacteria” by Douglas L. Huseby, Sha Cao, Edouard Zamaratski, Sanjeewani Sooriyaarachchi, Shabbir Ahmad, Terese Bergfors, Laura Krasnova, Juris Pelss, Martins Ikaunieks, Einars Loza, Martins Katkevics, Olga Bobileva, Helena Cirule, Baiba Gukalova, Solveiga Grinberga, Maria Backlund, Ivailo Simoff, Anna T. Leber, Talía Berruga-Fernández, Dmitry Antonov, Vivekananda R. Konda, Stefan Lindström, Gustav Olanders, Peter Brandt, Pawel Baranczewski, Carina Vingsbo Lundberg, Edgars Liepinsh, Edgars Suna, T. Alwyn Jones, Sherry L. Mowbray, Diarmaid Hughes and Anders Karlén, 5 April 2024, Proceedings of the National Academy of Sciences.
DOI: 10.1073/pnas.2317274121

The work to discover and develop this new class of antibiotics was supported by the EU project ENABLE which was funded through the Innovative Medicines Initiative’s New Drugs 4 Bad Bugs program (ND4BB). The ENABLE project, led by researchers at Uppsala University and the pharmaceutical company GlaxoSmithKline, brought together stakeholders from across Europe representing academia and large and small pharmaceutical companies to pool resources and expertise to advance early-stage antibiotic development. This antibiotic class now continues to be developed in the follow-on project, ENABLE-2, an antibiotic drug discovery platform funded by Swedish Research Council, the National Research Programme on Antibiotic Resistance and Sweden’s innovation agency Vinnova to continue the momentum generated by the original ENABLE project.


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