Generic GPCR residue numbers – aligning topology maps while minding the gaps

Ísberg, Vignir; Graaf, Chris de; Bortolato, Andrea; Cherezov, Vadim; Katritch, Vsevolod; Marshall, Fiona H.; Mordalski, Stefan; Pin, Jean‐Philippe; Stevens, Raymond C.; Vriend, Gerrit; Gloriam, David E.

doi:10.1016/j.tips.2014.11.001

Cited by 422 publications

(475 citation statements)

References 78 publications

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“…Alternatively, the shorter ICL3_KGKY loop might pose constraints of proper folding of the receptor. Indeed, according to alignments at GPCRdb (34), all the 21 other human class C GPCRs have ICL3 loops 2-4 amino acids longer than the short (ICL3_KGKY) h6A variant. Interestingly, the closest homolog, human calcium-sensing receptor, shares the RKLP motif present in the long h6A (ICL3_KGRKLP) variant, and the RXXP motif is conserved in Shown is an alignment of the published, short ICL3_KGKY variant, as well as the three longer variants.…”

Section: Discussionmentioning

confidence: 99%

Genetic Variations in the Human G Protein-coupled Receptor Class C, Group 6, Member A (GPRC6A) Control Cell Surface Expression and Function

Jørgensen

Have

Underwood

et al. 2017

Journal of Biological Chemistry

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Edited by Henrik G. DohlmanGPRC6A is a G protein-coupled receptor activated by Lamino acids, which, based on analyses of knock-out mice, has been suggested to have physiological functions in metabolism and testicular function. The human ortholog is, however, mostly retained intracellularly in contrast to the cell surface-expressed murine and goldfish orthologs. The latter orthologs are G q -coupled and lead to intracellular accumulation of inositol phosphates and calcium release. In the present study we cloned the bonobo chimpanzee GPRC6A receptor, which is 99% identical to the human receptor, and show that it is cell surface-expressed and functional. By analyses of chimeric human/mouse and human/bonobo receptors, bonobo receptor mutants, and the single nucleotide polymorphism database at NCBI, we identify an insertion/deletion variation in the third intracellular loop responsible for the intracellular retention and lack of function of the human ortholog. Genetic analyses of the 1000 genome database and the Inter99 cohort of 6,000 Danes establish the distribution of genotypes among ethnic groups, showing that the cell surface-expressed and functional variant is much more prevalent in the African population than in European and Asian populations and that this variant is partly linked with a stop codon early in the receptor sequence (rs6907580, amino acid position 57). In conclusion, our data solve a more than decade-old question of why the cloned human GPRC6A receptor is not cell surface-expressed and functional and provide a genetic framework to study human phenotypic traits in large genome sequencing projects linked with physiological measurement and biomarkers.Communication between the exterior and interior of cells is essential for cellular survival. A pivotal class of proteins, specialized to carry out such signal transduction, is the G proteincoupled receptors (GPCRs), 2 a family that includes ϳ800 subtypes in humans. The GPCR class C, group 6, member A (GPRC6A) belongs to the non-olfactory GPCRs as part of the class C receptors. Human GPRC6A (h6A) was cloned from a human kidney cDNA library in 2004 (1). Cloning and deorphanization of the mouse (2, 3) and rat (4) GPRC6A orthologs rapidly followed. These studies, together with recent evidence (5) support the existence of GPRC6A as a dimer on the cell surface. However, surprisingly, h6A has been shown to be retained intracellularly and thus does not respond to agonists, which contrasts findings for the mouse, rat, and goldfish orthologs (2, 3, 6). To deorphanize h6A, we generated chimeras between the human and goldfish GPRC6A orthologs. We found that a fusion of the human large extracellular amino-terminal domain (ATD) to the 7-transmembrane (7TM) and C-terminal domains of the orthologous goldfish 5.24 receptor allowed efficient surface expression of the chimera and thereby a way to

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Section: Discussionmentioning

confidence: 99%

Genetic Variations in the Human G Protein-coupled Receptor Class C, Group 6, Member A (GPRC6A) Control Cell Surface Expression and Function

Jørgensen

Have

Underwood

et al. 2017

Journal of Biological Chemistry

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“…The value 100 for expression of wild type GIPR determined by binding of DY647-GIP corresponded to a binding capacity (B max ) of 1.8 AE 0.4 pM/10 6 cells as determined by analysis of homologous binding using 125 I-Phe1-GIP (see Section 2). Residue numbers in superscripts indicate the sequence-based generic GPCR numbering schemes for classes A and B [54].…”

Section: Identification Of Putative Amino Acids and Motifs Involved Imentioning

confidence: 99%

“…(B)Comparison of the amino acids forming the functional domains within secretin-like receptors. Numbers in superscript/subscript refer to the sequence-based generic GPCR residue numbering schemes for classes A and B, respectively[54]. (For interpretation of the references to color in this figure legend, the reader is referred to the web version of the article.)…”

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confidence: 99%

Functional elements of the gastric inhibitory polypeptide receptor: Comparison between secretin- and rhodopsin-like G protein-coupled receptors

Cordomí

Ismail

Matsoukas

et al. 2015

Biochemical Pharmacology

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“…The Hh pathway is controlled by two membrane proteins, Patched (Ptch), the Hh receptor, and Smoothened (Smo), a Class F G protein-coupled receptor (GPCR) which transduces the activation signal to downstream pathway components (Figure 1A and [4-7]). In the absence of Hh ligand, Ptch inhibits signaling by Smo.…”

Section: The Hedgehog Signaling Pathwaymentioning

confidence: 99%

Smoothened Regulation: A Tale of Two Signals

Arensdorf

Marada

Ogden

2016

Trends in Pharmacological Sciences

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The G protein-coupled receptor Smoothened (Smo) is the signal transducer of the developmentally- and therapeutically-relevant Hedgehog pathway. Although recent structural analyses have advanced our understanding of Smo biology, a number of questions remain. Chief among them are the identity of its natural ligand, the regulatory processes controlling its activation, and the mechanisms by which it signals to downstream effectors. This review will discuss recent discoveries from multiple model systems that have set the stage for solving these mysteries. We focus on the roles of distinct Smo functional domains, post-translational modifications and trafficking, and conclude by discussing their contributions to signal output.

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Generic GPCR residue numbers – aligning topology maps while minding the gaps

Cited by 422 publications

References 78 publications

Genetic Variations in the Human G Protein-coupled Receptor Class C, Group 6, Member A (GPRC6A) Control Cell Surface Expression and Function

Genetic Variations in the Human G Protein-coupled Receptor Class C, Group 6, Member A (GPRC6A) Control Cell Surface Expression and Function

Functional elements of the gastric inhibitory polypeptide receptor: Comparison between secretin- and rhodopsin-like G protein-coupled receptors

Smoothened Regulation: A Tale of Two Signals

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