IIT Kanpur researchers visualize communication of G-protein coupled receptors
It visualizes the cross-talk between G protein-coupled receptors (GPCRs) involved in regulating heart function, blood pressure, mental disorders, and human behaviour, and another type of molecule called arrestins that regulate the function of GPCRs.
A group of researchers led by Prof. Arun K Shukla in the Department of Biological Sciences and Bioengineering at the Indian Institute of Technology Kanpur (IIT-K) has unravelled a previously unknown mechanism that regulates an important class of drug targets known as G protein-coupled receptors.
The discovery has important implications for not only understanding the fundamental mechanism of cellular signalling in our body but it also has the potential to facilitate novel drug discovery for several human disease conditions.
The study was published in the May issue of the international journal, Molecular Cell. It has been conducted using a cutting-edge technology known as cryogenic-electron microscopy (cryo-EM).
Prof Shukla said, "This study has opened up novel directions for improving the currently existing medicines by lowering their side-effects, and also provides an opportunity for discovering new medicine for several human disease conditions. For example, the chemokine receptor that is one of the receptors investigated in this study has important roles in breast cancer progression while the complement receptors also investigated here are important targets for treating inflammatory disorders such as rheumatoid arthritis."
More Details
The cells in our body are surrounded by a membrane that harbours a special type of protein molecule known as receptors. These receptors are important for our body to sense different chemicals and hormones, and respond accordingly by activating specific physiological responses. One particular class of receptors known as G protein-coupled receptors (GPCRs), is involved in regulating heart function, blood pressure, mental disorders, and our behaviour. Several drugs such as those used for depression, heart failure, cancer, and hypertension work by modulating these receptor proteins.
The function of GPCRs is regulated by another family of proteins in our body known as arrestins, which bind to GPCRs and control their function and physiological responses. However, a complete understanding of GPCR-arrestin interaction has been mostly elusive so far. The researchers have now visualized the cross-talk of GPCRs and arrestins in great detail using cutting-edge technology, cryogenic-electron microscopy (cryo-EM). The same has allowed the team to discover a novel mechanism that is responsible for regulating the function of GPCRs in our bodies.
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