News Release

New approach will help identify drugs that can 'glue' proteins together

Peer-Reviewed Publication

University of Birmingham

A new screening method that can test the effectiveness of therapeutic molecules designed to 'glue' proteins together in the body has been developed by researchers at the University of Birmingham and the University of Leicester.

The research paves the way for drug developers to screen large numbers of potential new drug compounds to discover new treatments for diseases such as breast cancer and Parkinson's disease.

The ways in which proteins interact with each other are fundamental to all cell functions. These interactions underpin every function of a healthy body, with any slight change in these interactions resulting in disease.

A handful of drugs have been designed that can break apart these interactions, and this serves to disrupt the progress of the disease. However, in some diseases, the problem is caused by protein interactions not happening, or not happening in the right way. So new drugs that work by 'gluing' these proteins together would be highly effective, but finding them is not straightforward.

In this study, Chemical Science, researchers in the University of Birmingham's School of Biosciences have designed a system that uses mass spectrometry to measure the precise mass of a pair of proteins, plus the 'glue', to identify which 'glue' is the strongest and thus will likely be the most successful in treating the disease.

Lead author Dr Aneika Leney said: "A healthy body depends very much on the cells' proteins being able to signal effectively. Any wrong signal can lead to disease and that could be the wrong proteins sticking together - or proteins not joining up as they should. We want a drug that corrects for this. Our methods provides a 'snapshot' of what is happening to the proteins when we add a potential drug so we can see quickly whether the 'glue' is working"

The team worked with chemical biologists at the University of Leicester to test the method on therapeutic compounds being studied by co-lead author Dr Richard Doveston and his team.

Dr Doveston says: Looking for molecules that act as glues is not easy because things are complicated by having two proteins in the mix. At the early stage of development we often just want to find molecules that are good starting points for development, so they might not be that good as glues at this stage. The current high-throughput screening methods available to us are usually not very effective in this context. The mass spectrometry method is great because we can learn so much from the data and it can be gathered relatively easily and quickly.

Because the glue compounds are highly specific to the identified proteins, interactions with other proteins are rare, so the therapy is unlikely to produce any unlooked-for effects."

Dr Leney adds: "We hope our approach will be taken up by pharmaceutical companies and used to rapidly screen and test promising drug compounds that can bind proteins together to deliver a therapeutic benefit."


This research is published in Chemical Science, the Royal Society of Chemistry's peer-reviewed flagship journal, and is free to read.

Notes to editor:

* The University of Birmingham is ranked amongst the world's top 100 institutions. Its work brings people from across the world to Birmingham, including researchers, teachers and more than 6,500 international students from over 150 countries.

* The University of Leicester is a leading UK university committed to international excellence through the creation of world changing research and high quality, inspirational teaching. Leicester is consistently one of the most socially inclusive of the UK's leading universities with a long-standing commitment to providing fairer and equal access to higher education.

* Royal Society of Chemistry

The Royal Society of Chemistry is the world's leading chemistry community, advancing excellence in the chemical sciences. With over 54,000 members and a knowledge business that spans the globe, we are the UK's professional body for chemical scientists; a not-for-profit organisation with over 175 years of history and an international vision for the future. We promote, support and celebrate chemistry. We work to shape the future of the chemical sciences - for the benefit of science and humanity.

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* Doveston, Leney et al (2021). 'Discovering protein-protein interaction stabilisers by native mass spectrometry.' Chemical Science

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