Literature DB >> 16301531

Crosstalk in G protein-coupled receptors: changes at the transmembrane homodimer interface determine activation.

Wen Guo1, Lei Shi, Marta Filizola, Harel Weinstein, Jonathan A Javitch.   

Abstract

Functional crosstalk between G protein-coupled receptors in a homo- or heterodimeric assembly likely involves conformational changes at the dimer interface, but the nature of this interface is not yet established, and the dynamic changes have not yet been identified. We have mapped the homodimer interface in the dopamine D2 receptor over the entire length of the fourth transmembrane segment (TM4) by crosslinking of substituted cysteines. Their susceptibilities to crosslinking are differentially altered by the presence of agonists and inverse agonists. The TM4 dimer interface in the inverse agonist-bound conformation is consistent with the dimer of the inactive form of rhodopsin modeled with constraints from atomic force microscopy. Crosslinking of a different set of cysteines in TM4 was slowed by inverse agonists and accelerated in the presence of agonists; crosslinking of the latter set locks the receptor in an active state. Thus, a conformational change at the TM4 dimer interface is part of the receptor activation mechanism.

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Year:  2005        PMID: 16301531      PMCID: PMC1287488          DOI: 10.1073/pnas.0508950102

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  52 in total

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9.  Electron crystallography reveals the structure of metarhodopsin I.

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  117 in total

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Review 6.  Computational methods in drug design: modeling G protein-coupled receptor monomers, dimers, and oligomers.

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7.  Docking studies of agonists and antagonists suggest an activation pathway of the A3 adenosine receptor.

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10.  Dopamine D2 receptors form higher order oligomers at physiological expression levels.

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