• Cellular Controllers Captured in Action

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Cellular Controllers Captured in Action

Jun 22 2023

A team of international researchers led by Professor Davide Calebiro from the University of Birmingham, have used advanced microscopy to understand the role of beta-arrestin molecules in controlling activity of G protein-coupled receptors (GPCRs) the largest group of receptors in the human body. 

GPCR’s mediate the effects of many hormones and neurotransmitters and as a result, are major targets for drug development; between 30-40% of all current therapeutics are against these receptors. Once the receptors are activated, beta-arrestins dampen the signal in a process called desensitisation but can also mediate signals of their own.

The new study has unexpectedly revealed that beta-arrestins attach themselves to the outer cell membrane waiting for hormones or neurotransmitters to land on receptors. Surprisingly, the interactions between beta-arrestins and active receptors are much more dynamic than previously thought, allowing for a far better control of receptor-mediated signals.

Davide Calebiro, Professor of Molecular Endocrinology in the Institute of Metabolism and Systems Research at the University of Birmingham and Co-Director of the Centre of Membrane Proteins and Receptors (COMPARE) of the Universities of Birmingham and Nottingham said: “In our study, we used innovative single-molecule microscopy and computational methods developed in our lab to observe for the first time how individual beta-arrestin molecules work in our cells with unprecedented detail.

“We have revealed a new mechanism that explains how beta-arrestins can efficiently interact with receptors on the plasma membrane of a cell. Acting like air traffic controllers, these proteins sense when receptors are activated by a hormone or a neurotransmitter to modulate the flow of signals within our cells. By doing so, they play a key role in signal desensitisation, a fundamental biological process that allows our organism to adapt to prolonged stimulation.

“These results are highly unexpected and could pave the way to novel therapeutic approaches for diseases such as heart failure and diabetes or the development of more effective and better tolerated analgesics.”

 This success attributed to the COMPARE environment, a world-leading research centre for the study of membrane proteins and receptors that brings together 36 research groups with complementary expertise in cell biology, receptor pharmacology, biophysics, advanced microscopy and computer science.

 The novel single-molecule microscopy and computational approaches developed in this study could provide a significant new tool for future drug development, allowing researchers to directly observe how therapeutic agents modulate receptor activity in living cells with unprecedented detail. In the future, COMPARE researchers led by Prof Calebiro plan to further automate the current pipeline so that it can be used to screen for novel drugs such as biased opioids currently in development for the treatment of pain.

Dr Zsombor Koszegi, who shares first co-authorship of the study with Dr Jak Grimes and Dr Yann Lanoiselée, said: “Being able to see for the first time how individual receptors and beta-arrestins work in our cells was incredibly exciting. Our findings are highly unexpected and bring our understanding of the way beta-arrestin coordinates receptor signalling to a whole new level, with major implications for cell biology and drug discovery.”

The research was funded by the Wellcome Trust, Medical Research Council and the DBT/Wellcome Trust India Alliance.

The study was published in Cell

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