Derk J. Bergsma scite author profile

The hypothalamus plays a central role in the integrated control of feeding and energy homeostasis. We have identified two novel neuropeptides, both derived from the same precursor by proteolytic processing, that bind and activate two closely related (previously) orphan G protein-coupled receptors. These peptides, termed orexin-A and -B, have no significant structural similarities to known families of regulatory peptides. prepro-orexin mRNA and immunoreactive orexin-A are localized in neurons within and around the lateral and posterior hypothalamus in the adult rat brain. When administered centrally to rats, these peptides stimulate food consumption. prepro-orexin mRNA level is up-regulated upon fasting, suggesting a physiological role for the peptides as mediators in the central feedback mechanism that regulates feeding behavior.

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AXOR12, a Novel Human G Protein-coupled Receptor, Activated by the Peptide KiSS-1

Muir

Chamberlain

Elshourbagy

et al. 2001

Journal of Biological Chemistry

820

742

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A novel human G protein-coupled receptor named AXOR12, exhibiting 81% homology to the rat orphan receptor GPR54, was cloned from a human brain cDNA library. Heterologous expression of AXOR12 in mammalian cells permitted the identification of three surrogate agonist peptides, all with a common C-terminal amidated motif. High potency agonism, indicative of a cognate ligand, was evident from peptides derived from the gene KiSS-1, the expression of which prevents metastasis in melanoma cells. Quantitative reverse transcriptase-polymerase chain reaction was used to study the expression of AXOR12 and KiSS-1 in a variety of tissues. The highest levels of expression of AXOR12 mRNA were observed in brain, pituitary gland, and placenta. The highest levels of KiSS-1 gene expression were observed in placenta and brain. A polyclonal antibody raised to the C terminus of AXOR12 was generated and used to show localization of the receptor to neurons in the cerebellum, cerebral cortex, and brainstem. The biological significance of these expression patterns and the nature of the putative cognate ligand for AXOR12 are discussed.The G protein-coupled receptors (GPCRs) 1 form a large family of membrane bound proteins that share a unique structural feature comprising seven transmembrane ␣-helices. These molecules act as receptors for a diverse range of extracellular signaling molecules including small molecules (amino acids and biogenic amines), lipids, small bioactive peptides, and large polypeptides (1). They have been used successfully as drug targets by the pharmaceutical industry for a number of years. Attention has focused on a number of proteins that are known to be GPCRs through structural homology but for which no ligand has been identified: so-called orphan receptors. At the same time as the recent discovery of new GPCRs, there has been a renewed focus on discovering potential novel peptides that may act as endogenous ligands for these receptors.Here, we describe the cloning of a novel human orphan receptor, a class I GPCR with sequence similarity to receptors for the neuropeptide galanin. This receptor was given the name AXOR12 in accordance with its position in a series of receptors identified in our organization. AXOR12 has a high degree of homology to the rat orphan receptor GPR54 (2) (81% amino acid identity), which suggests that these two receptors may be orthologs. To identify a ligand for AXOR12, we expressed this receptor in mammalian cells and screened the transfected cells in a functional assay against a library rich in known and putative peptide transmitters. Although there was no activity in response to galanin, we identified three peptides that acted as low potency agonists of AXOR12. These peptides were all derived from invertebrates and shared a C-terminal LRF-or LRW-amide motif.During the preparation of this article, a search of patent literature revealed the existence of additional high potency agonists with sequence similarities to the surrogate agonists identified from the screen. These peptides were deri...

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Human urotensin-II is a potent vasoconstrictor and agonist for the orphan receptor GPR14

Ames

Sarau²,

Chambers³

et al. 1999

Nature

760

721

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Urotensin-II (U-II) is a vasoactive 'somatostatin-like' cyclic peptide which was originally isolated from fish spinal cords, and which has recently been cloned from man. Here we describe the identification of an orphan human G-protein-coupled receptor homologous to rat GPR14 and expressed predominantly in cardiovascular tissue, which functions as a U-II receptor. Goby and human U-II bind to recombinant human GPR14 with high affinity, and the binding is functionally coupled to calcium mobilization. Human U-II is found within both vascular and cardiac tissue (including coronary atheroma) and effectively constricts isolated arteries from non-human primates. The potency of vasoconstriction of U-II is an order of magnitude greater than that of endothelin-1, making human U-II the most potent mammalian vasoconstrictor identified so far. In vivo, human U-II markedly increases total peripheral resistance in anaesthetized non-human primates, a response associated with profound cardiac contractile dysfunction. Furthermore, as U-II immunoreactivity is also found within central nervous system and endocrine tissues, it may have additional activities.

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Identification, Molecular Cloning, Expression, and Characterization of a Cysteinyl Leukotriene Receptor

et al. 1999

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The cysteinyl leukotrienes (CysLTs) have been implicated in the pathophysiology of inflammatory disorders, in particular asthma, for which the CysLT receptor antagonists pranlukast, zafirlukast, and montelukast, have been introduced recently as novel therapeutics. Here we report on the molecular cloning, expression, localization, and pharmacological characterization of a CysLT receptor (CysLTR), which was identified by ligand fishing of orphan seven-transmembrane-spanning, G protein-coupled receptors. This receptor, expressed in human embryonic kidney (HEK)-293 cells responded selectively to the individual CysLTs, LTC(4), LTD(4), or LTE(4), with a calcium mobilization response; the rank order potency was LTD(4) (EC(50) = 2.5 nM) > LTC(4) (EC(50) = 24 nM) > LTE(4) (EC(50) = 240 nM). Evidence was provided that LTE(4) is a partial agonist at this receptor. [(3)H]LTD(4) binding and LTD(4)-induced calcium mobilization in HEK-293 cells expressing the CysLT receptor were potently inhibited by the structurally distinct CysLTR antagonists pranlukast, montelukast, zafirlukast, and pobilukast; the rank order potency was pranlukast = zafirlukast > montelukast > pobilukast. LTD(4)-induced calcium mobilization in HEK-293 cells expressing the CysLT receptor was not affected by pertussis toxin, and the signal appears to be the result of the release from intracellular stores. Localization studies indicate the expression of this receptor in several tissues, including human lung, human bronchus, and human peripheral blood leukocytes. The discovery of this receptor, which has characteristics of the purported CysLT(1) receptor subtype, should assist in the elucidation of the pathophysiological roles of the CysLTs and in the identification of additional receptor subtypes.

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Derk J. Bergsma

Orexins and Orexin Receptors: A Family of Hypothalamic Neuropeptides and G Protein-Coupled Receptors that Regulate Feeding Behavior

AXOR12, a Novel Human G Protein-coupled Receptor, Activated by the Peptide KiSS-1

Human urotensin-II is a potent vasoconstrictor and agonist for the orphan receptor GPR14

Identification, Molecular Cloning, Expression, and Characterization of a Cysteinyl Leukotriene Receptor

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