Importance of the second extracellular loop for melatonin MT1 receptor function and absence of melatonin binding in GPR50

Importance of the second extracellular loop for melatonin MT1 receptor function and absence of melatonin binding in GPR50

Background and Purpose Recent crystal structures of GPCRs have emphasized the previously unappreciated role of the second extracellular (E2) loop in ligand binding and gating and receptor activation. Here, we have assessed the role of the E2 loop in the activation of the melatonin MT1 receptor and i...

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Veröffentlicht in:British journal of pharmacology 2018-08, Vol.175 (16), p.3281-3297
Hauptverfasser: Clement, Nathalie, Renault, Nicolas, Guillaume, Jean‐Luc, Cecon, Erika, Journé, Anne‐Sophie, Laurent, Xavier, Tadagaki, Kenjiro, Cogé, Francis, Gohier, Arnaud, Delagrange, Philippe, Chavatte, Philippe, Jockers, Ralf
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container_end_page 3297
container_issue 16
container_start_page 3281
container_title British journal of pharmacology
container_volume 175
creator Clement, Nathalie
Renault, Nicolas
Guillaume, Jean‐Luc
Cecon, Erika
Journé, Anne‐Sophie
Laurent, Xavier
Tadagaki, Kenjiro
Cogé, Francis
Gohier, Arnaud
Delagrange, Philippe
Chavatte, Philippe
Jockers, Ralf
description Background and Purpose Recent crystal structures of GPCRs have emphasized the previously unappreciated role of the second extracellular (E2) loop in ligand binding and gating and receptor activation. Here, we have assessed the role of the E2 loop in the activation of the melatonin MT1 receptor and in the inactivation of the closely related orphan receptor GPR50. Experimental Approach Chimeric MT1‐GPR50 receptors were generated and functionally analysed in terms of 2‐[125I]iodomelatonin binding, Gi/cAMP signalling and β‐arrestin2 recruitment. We also used computational molecular dynamics (MD) simulations. Key Results MD simulations of 300 ns revealed (i) the tight hairpin structure of the E2 loop of the MT1 receptor (ii) the most suitable features for melatonin binding in MT1 receptors and (iii) major predicted rearrangements upon MT1 receptor activation, stabilizing interaction networks between Phe179 or Gln181 in the E2 loop and transmembrane helixes 5 and 6. Functional assays confirmed these predictions, because reciprocal replacement of MT1 and GPR50 residues/domains led to the predicted loss‐ and gain‐of‐melatonin action of MT1 receptors and GPR50 respectively. Conclusions and Implications Our work demonstrated the crucial role of the E2 loop for MT1 receptor and GPR50 function by proposing a model in which the E2 loop is important in stabilizing active MT1 receptor conformations and by showing how evolutionary processes appear to have selected for modifications in the E2 loop in order to make GPR50 unresponsive to melatonin. Linked Articles This article is part of a themed section on Recent Developments in Research of Melatonin and its Potential Therapeutic Applications. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v175.16/issuetoc
doi_str_mv 10.1111/bph.14029
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Here, we have assessed the role of the E2 loop in the activation of the melatonin MT1 receptor and in the inactivation of the closely related orphan receptor GPR50. Experimental Approach Chimeric MT1‐GPR50 receptors were generated and functionally analysed in terms of 2‐[125I]iodomelatonin binding, Gi/cAMP signalling and β‐arrestin2 recruitment. We also used computational molecular dynamics (MD) simulations. Key Results MD simulations of 300 ns revealed (i) the tight hairpin structure of the E2 loop of the MT1 receptor (ii) the most suitable features for melatonin binding in MT1 receptors and (iii) major predicted rearrangements upon MT1 receptor activation, stabilizing interaction networks between Phe179 or Gln181 in the E2 loop and transmembrane helixes 5 and 6. Functional assays confirmed these predictions, because reciprocal replacement of MT1 and GPR50 residues/domains led to the predicted loss‐ and gain‐of‐melatonin action of MT1 receptors and GPR50 respectively. Conclusions and Implications Our work demonstrated the crucial role of the E2 loop for MT1 receptor and GPR50 function by proposing a model in which the E2 loop is important in stabilizing active MT1 receptor conformations and by showing how evolutionary processes appear to have selected for modifications in the E2 loop in order to make GPR50 unresponsive to melatonin. Linked Articles This article is part of a themed section on Recent Developments in Research of Melatonin and its Potential Therapeutic Applications. 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Here, we have assessed the role of the E2 loop in the activation of the melatonin MT1 receptor and in the inactivation of the closely related orphan receptor GPR50. Experimental Approach Chimeric MT1‐GPR50 receptors were generated and functionally analysed in terms of 2‐[125I]iodomelatonin binding, Gi/cAMP signalling and β‐arrestin2 recruitment. We also used computational molecular dynamics (MD) simulations. Key Results MD simulations of 300 ns revealed (i) the tight hairpin structure of the E2 loop of the MT1 receptor (ii) the most suitable features for melatonin binding in MT1 receptors and (iii) major predicted rearrangements upon MT1 receptor activation, stabilizing interaction networks between Phe179 or Gln181 in the E2 loop and transmembrane helixes 5 and 6. Functional assays confirmed these predictions, because reciprocal replacement of MT1 and GPR50 residues/domains led to the predicted loss‐ and gain‐of‐melatonin action of MT1 receptors and GPR50 respectively. Conclusions and Implications Our work demonstrated the crucial role of the E2 loop for MT1 receptor and GPR50 function by proposing a model in which the E2 loop is important in stabilizing active MT1 receptor conformations and by showing how evolutionary processes appear to have selected for modifications in the E2 loop in order to make GPR50 unresponsive to melatonin. Linked Articles This article is part of a themed section on Recent Developments in Research of Melatonin and its Potential Therapeutic Applications. 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Themed Section: Research Papers
title Importance of the second extracellular loop for melatonin MT1 receptor function and absence of melatonin binding in GPR50
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