Prof Erick Strauss in his laboratory in the Department of Biochemistry at Stellenbosch University. He is leading one of two African project teams selected to participate in a global consortium to transform antibiotic discovery to counter the growing antimicrobial resistance (AMR) crisis. Stellenbosch University (SU) biochemist Professor Erick Strauss has been selected to lead one of only two African teams in a US$60 million global consortium aimed at transforming antibiotic discovery and tackling the escalating antimicrobial resistance (AMR) crisis.
Strauss, from SU’s Department of Biochemistry, will join the newly launched Gram-Negative Antibiotic Discovery Innovator (Gr-ADI) consortium, supported by theGates Foundation,Novo Nordisk FoundationandWellcome. In a joint announcement, the funders confirmed $60m in grant funding over the next three years to support 18 research projects across 17 countries. The teams were selected for their potential to revolutionise antibiotic discovery for Gram-negative bacteria — particularlyKlebsiella pneumoniae, one of the leading drivers of AMR-related deaths worldwide.
The Gr-ADI consortium is designed as a first-of-its-kind collaborative platform, with multiple funders and research teams openly sharing data and learnings to accelerate the development of urgently needed antibiotics. It marks the first investment under a broader $300m global health research and development partnership launched by the three philanthropic organisations in 2024. Strauss, a chemical biologist and head of SU’s Department of Biochemistry, is also co-director of the Africa Centre for Therapeutic Innovation.
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His team includes Professor Andrew Whitelaw from SU’s Department of Medical Microbiology, Professor Adrienne Edkins of Rhodes University, the Ersilia Open-Source Initiative in Spain led by Dr Miquel Duran-Frigola, and Professor Willem van Otterlo from SU’s Department of Chemistry and Polymer Science. The second African team in the consortium is led by Professor Stephen Dela Ahator of the University of Ghana. Gram-negative bacteria are increasingly resistant to available antibiotic classes, complicating the treatment of life-threatening infections.
New strategies are urgently required — particularly those that work differently from existing drugs — to reduce the likelihood of resistance developing. Strauss’s team will explore an approach inspired by advances in cancer research. Instead of blocking essential bacterial processes, the strategy hijacks a cell’s natural protein-degradation machinery to destroy specific target proteins.
This is achieved using specially designed bifunctional molecules known as PROTACs (proteolysis-targeting chimeras). While PROTACs have been investigated as cancer therapies for more than two decades, bacterial versions — known as BacPROTACs — were first described in 2022 as potential treatments for mycobacterial infections, including tuberculosis. Strauss’s group previously received funding in 2023 from the Gates Foundation and LifeArc under the Grand Challenges African Drug Discovery Accelerator to apply this strategy to multi-drug-resistant tuberculosis.
The new project will build on that work, establishing a BacPROTAC development workflow focused on Gram-negative bacteria, starting withKlebsiella pneumoniae. Explaining the concept, Strauss said traditional antibiotics work by interfering with essential processes in disease-causing organisms, such as protein synthesis or cell wall formation. “If the concentration of the antibiotic is maintained at effective levels, the pathogen will be killed or at least prevented from multiplying, giving the immune system time to fight the infection,” he said.
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