Activation of G-protein-coupled receptors correlates with the formation of a continuous internal water pathway

2018-05-24T09:41:20Z (GMT) by Shuguang Yuan
More than 800 human GPCRs allow the selective detection of extracellular signals as diverse as photons, odorants, flavors, nucleotides, hormones, neurotransmitters - revealing GPCRs fundamental role in signal transduction. As they regulate many central physiological processes and are thus implicated in many diseases, GPCRs are among the most important targets for modern medicines. In spite of this medical importance and the recent progress in elucidating the 3D structures of various GPCRs, central questions how these receptors recognize extracellular chemical signals and transfer them across the cellular membrane to finally evoke an intracellular response are largely unresolved at a molecular level, mainly because the different steps during signal transmission are not directly accessible by experiments. In this context we are concentrating on central questions of GPCR mediated cellular signalling using molecular dynamics simulations and structural modelling. Our work revealed for the first time, in atomic detail, the entire process of transmembrane signalling of various GPCRs: we found that ligand binding induces a series of conformational changes within a GPCR which opens a gate inside the receptor for water molecules entering the internal region of the receptor and subsequently driving conformational switches within the receptor which finally led to the activation of a G protein on the intracellular side of the receptor. The discovery of these internal water channels paved the way for novel approaches in drug development.
Reference:
1. Yuan S*, Palczewski K.; Peng Q, Kolinski M, Vogel H*, Filipek S*. (2015) Ligand specificity of the ?- and ?-opioid receptors, a matter of space. Angew. Chem. Int. Edt DOI: 10.1002/anie.201501742R2
2. Yuan S*, Hu Z, Filipek S, Vogel H*. (2015) W2466.48 opens a gate for a continuous intrinsic water pathway during activation of the adenosine A2A receptor. Angew. Chem. Int. Edt 127(2),566-569
3. Yuan S*.; Filipek S.; Palczewski K.; Vogel H*. (2014) Activation of G-protein-coupled receptor correlates with the formation of a continuous internal water pathway.Nature Communication 5, 4377 DOI:10.1038/ncomms5733
4. Yuan S*.; Vogel H.; Filipek S*., (2013) The Role of Water Molecules and Sodium Ions in ?-opioid Receptor Activation. Angew. Chem. Int. Edt52(38) 10112-10115

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