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1.
We report six novel members of the superfamily of human G-protein coupled receptors (GPCRs) found by searches in the human genome databases, termed GPR123, GPR124, GPR125, GPR126, GPR127, and GPR128. Phylogenetic analysis demonstrates that these are additional members of the family of GPCRs with long N-termini, previously termed EGF-7TM, LNB-7TM, B2 or LN-7TM, showing that there exist at least 30 such GPCRs in the human genome. Three of these receptors form their own phylogenetic cluster, while two other places in a cluster with the previously reported HE6 and GPR56 (TM7XN1) and one with EMR1-3. All the novel receptors have a GPS domain in their N-terminus, except GPR123, as well as long Ser/Thr rich regions forming mucin-like stalks. GPR124 and GPR125 have a leucine rich repeat (LRR), an immunoglobulin (Ig) domain, and a hormone-binding domain (HBD). The Ig domain shows similarities to motilin and titin, while the LRR domain shows similarities to LRIG1 and SLIT1-2. GPR127 has one EGF domain while GPR126 and GPR128 do not contain domains that are readily recognized in other proteins beyond the GPS domain. We found several human EST sequences for most of the receptors showing differential expression patterns, which may indicate that some of these receptors participate in central functions while others are more likely to have a role in the immune or reproductive systems.  相似文献   

2.
The adhesion G-protein-coupled receptors (GPCRs) (also termed LN-7TM or EGF-7TM receptors) are membrane-bound proteins with long N-termini containing multiple domains. Here, 2 new human adhesion-GPCRs, termed GPR133 and GPR144, have been found by searches done in the human genome databases. Both GPR133 and GPR144 have a GPS domain in their N-termini, while GPR144 also has a pentraxin domain. The phylogenetic analyses of the 2 new human receptors show that they group together without close relationship to the other adhesion-GPCRs. In addition to the human genes, mouse orthologues to those 2 and 15 other mouse orthologues to human were identified (GPR110, GPR111, GPR112, GPR113, GPR114, GPR115, GPR116, GPR123, GPR124, GPR125, GPR126, GPR128, LEC1, LEC2, and LEC3). Currently the total number of human adhesion-GPCRs is 33. The mouse and human sequences show a clear one-to-one relationship, with the exception of EMR2 and EMR3, which do not seem to have orthologues in mouse. EST expression charts for the entire repertoire of adhesion-GPCRs in human and mouse were established. Over 1600 ESTs were found for these receptors, showing widespread distribution in both central and peripheral tissues. The expression patterns are highly variable between different receptors, indicating that they participate in a number of physiological processes.  相似文献   

3.
Ig-Hepta/GPR116 is a member of the LNB-TM7 subfamily of G protein-coupled receptors (GPCRs), also termed the adhesion GPCRs, whose members have EGF, cadherin, lectin, thrombospondin, or Ig repeats in their long N-terminus. In this study, we established that Ig-Hepta is processed at multiple sites yielding the following four fragments: (i) presequence (amino acid residues 1-24), (ii) proEGF2 (25-223, alpha-fragment), (iii) Ig repeats (224-993, beta-chain), and (iv) TM7 (994-1349, gamma-chain). The proEGF2 region is converted to EGF2 (52-223) by the processing enzyme furin and remains attached to the beta- and gamma-chains. Expression of some mRNA species was affected by the presence of alpha-fragment. These results suggest that the furin-processed alpha-fragment is involved in cellular signaling.  相似文献   

4.
Alternative splicing is an important mechanism to generate proteome diversity in higher eukaryotic organisms. We searched for splice variants of the human Adhesion family of G protein-coupled receptors (GPCRs) using mRNA sequences and expressed sequence tags. The results presented here describe 53 human splice variants among the 33 Adhesion GPCRs. Many of these variants appear to be coding for "functional" proteins (29) while the others are seemingly "non-functional" (24). Novel functional splice variants were found for: CD97, CELR3, EMR2, EMR3, GPR56, GPR110, GPR112-GPR114, GPR116, GPR123-GPR126, GPR133, HE6, and LEC1-LEC3. Splice variants for GPR116, GPR125, GPR126, and HE6 were found conserved in other species. Several of the functional splice variants lack one or more of the functional domains that are found in the N-termini of these receptors. These functional domains are likely to affect ligand binding or interaction with other proteins and these novel splice variants may have important roles for the specificity of interactions between these receptors and extracellular molecules. Another type of splice variants found here lacks a GPCR proteolytic site (GPS). The GPS domain has been shown to be essential for the proteolytic cleavage of the receptors N-termini and for cellular surface expression. We suggest that these alternative splice variants may be crucial for the function of the receptors while the seemingly non-functional splice variants may be a part of a regulative mechanism.  相似文献   

5.
We report seven new members of the superfamily of human G protein-coupled receptors (GPCRs) found by searches in the human genome databases, termed GPR100, GPR119, GPR120, GPR135, GPR136, GPR141, and GPR142. We also report 16 orthologues of these receptors in mouse, rat, fugu (pufferfish) and zebrafish. Phylogenetic analysis shows that these are additional members of the family of rhodopsin-type GPCRs. GPR100 shows similarity with the orphan receptor SALPR. Remarkably, the other receptors do not have any close relative among other known human rhodopsin-like GPCRs. Most of these orphan receptors are highly conserved through several vertebrate species and are present in single copies. Analysis of expressed sequence tag (EST) sequences indicated individual expression patterns, such as for GPR135, which was found in a wide variety of tissues including eye, brain, cervix, stomach and testis. Several ESTs for GPR141 were found in marrow and cancer cells, while the other receptors seem to have more restricted expression patterns.  相似文献   

6.
We report nine new members of the Rhodopsin family of human G protein-coupled receptors (GPCRs) found by searches in the genome databases. BLAST searches and phylogenetic analyses showed that only four of the receptors are closely related to previously characterised GPCRs, GPR150 and GPR154 to oxytocin/vasopressin receptors, GPR152 to CRTH2/FPRs and GPR165 to GPR72/NPYR. Four of the receptors, GPR139, GPR146, GPR153 and GPR162, have one other orphan GPCRs as close relative while GPR148 lacks close relatives. We have identified in total 37 orthologues for the new receptors, primarily from rat, mouse, chicken, fugu and zebrafish. GPR162 and GPR139 are remarkably well conserved while GPR148 seems to be evolving rapidly. Analyses using expressed sequence tags (ESTs) indicate that all the new receptors except GPR153 have the CNS as a major site of expression.  相似文献   

7.
The M(3) muscarinic receptor is a prototypical member of the class A family of G protein-coupled receptors (GPCRs). To gain insight into the structural mechanisms governing agonist-mediated M(3) receptor activation, we recently developed a genetically modified yeast strain (Saccharomyces cerevisiae) which allows the efficient screening of large libraries of mutant M(3) receptors to identify mutant receptors with altered/novel functional properties. Class A GPCRs contain a highly conserved Asp residue located in transmembrane domain II (TM II; corresponding to Asp-113 in the rat M(3) muscarinic receptor) which is of fundamental importance for receptor activation. As observed previously with other GPCRs analyzed in mammalian expression systems, the D113N point mutation abolished agonist-induced receptor/G protein coupling in yeast. We then subjected the D113N mutant M(3) receptor to PCR-based random mutagenesis followed by a yeast genetic screen to recover point mutations that can restore G protein coupling to the D113N mutant receptor. A large scale screening effort led to the identification of three such second-site suppressor mutations, R165W, R165M, and Y250D. When expressed in the wild-type receptor background, these three point mutations did not lead to an increase in basal activity and reduced the efficiency of receptor/G protein coupling. Similar results were obtained when the various mutant receptors were expressed and analyzed in transfected mammalian cells (COS-7 cells). Interestingly, like Asp-113, Arg-165 and Tyr-250, which are located at the cytoplasmic ends of TM III and TM V, respectively, are also highly conserved among class A GPCRs. Our data suggest a conformational link between the highly conserved Asp-113, Arg-165, and Tyr-250 residues which is critical for receptor activation.  相似文献   

8.
9.
Two new cDNAs, human GPR107 and murine GPR108, were cloned from mammalian lung that are members of a novel gene family encoding proteins that are predicted to have an amino-terminal hydrophobic signal peptide sequence, a long extracellular domain and a carboxy-terminal seven transmembrane domain (LUSTR domain) similar to GPCRs. The 18-exon human GPR107 gene is located at 9q34.2-3 and spans 86.4 kb and the cDNA encodes a 552 residue protein. The closely related, but not homologous, 17-exon murine Gpr108 gene is located at 17C-D and spans 12.8 kb. The murine Gpr108 cDNA encodes a 562 residue protein that has 49% identity to human GPR107. They are distantly related to two other genes, transmembrane protein 87A and 87B that encode LUSTR domain-containing proteins in the human genome. LUSTR proteins are also found in Drosophila, Saccharomyces and Arabidopsis, but are absent from bacteria, archaea and viruses. This suggests that GPCRs are present in higher plants.  相似文献   

10.
Discovery and mapping of ten novel G protein-coupled receptor genes   总被引:10,自引:0,他引:10  
  相似文献   

11.
Human epididymal protein 6 (HE6; also known as GPR64) is an orphan member of the LNB-7TM (B(2)) subfamily of G-protein-coupled receptors. Family members are characterized by the dual presence of a secretin-like (type II) seven-transmembrane (7TM) domain and a long cell adhesion-like extracellular domain. HE6 is specifically expressed within the efferent ductules and the initial segment of the epididymis, ductal systems involved in spermatozoon maturation. Here, we report that targeted deletion of the 7TM domain of the murine HE6 gene results in male infertility. Mutant mice reveal a dysregulation of fluid reabsorbtion within the efferent ductules, leading to a backup of fluid accumulation in the testis and a subsequent stasis of spermatozoa within the efferent ducts. The fertility phenotype of HE6 knockout mice identifies this receptor as a potential nonsteroidal, nontesticular target for future male contraceptives and identifies an in vivo function for a member of this unusual gene family.  相似文献   

12.
One-third of the approximately 400 nonodorant G protein-coupled receptors (GPCRs) are still orphans. Although a considerable number of these receptors are likely to transduce cellular signals in response to ligands that remain to be identified, they may also have ligand-independent functions. Several members of the GPCR family have been shown to modulate the function of other receptors through heterodimerization. We show that GPR50, an orphan GPCR, heterodimerizes constitutively and specifically with MT(1) and MT(2) melatonin receptors, using biochemical and biophysical approaches in intact cells. Whereas the association between GPR50 and MT(2) did not modify MT(2) function, GPR50 abolished high-affinity agonist binding and G protein coupling to the MT(1) protomer engaged in the heterodimer. Deletion of the large C-terminal tail of GPR50 suppressed the inhibitory effect of GPR50 on MT(1) without affecting heterodimerization, indicating that this domain regulates the interaction of regulatory proteins to MT(1). Pairing orphan GPCRs to potential heterodimerization partners might be of clinical importance and may become a general strategy to better understand the function of orphan GPCRs.  相似文献   

13.
The amino acid sequences of 369 human nonolfactory G-protein-coupled receptors (GPCRs) have been aligned at the seven transmembrane domain (TM) and used to extract the nature of 30 critical residues supposed--from the X-ray structure of bovine rhodopsin bound to retinal--to line the TM binding cavity of ground-state receptors. Interestingly, the clustering of human GPCRs from these 30 residues mirrors the recently described phylogenetic tree of full-sequence human GPCRs (Fredriksson et al., Mol Pharmacol 2003;63:1256-1272) with few exceptions. A TM cavity could be found for all investigated GPCRs with physicochemical properties matching that of their cognate ligands. The current approach allows a very fast comparison of most human GPCRs from the focused perspective of the predicted TM cavity and permits to easily detect key residues that drive ligand selectivity or promiscuity.  相似文献   

14.
Signaling property study of adhesion G-protein-coupled receptors   总被引:1,自引:0,他引:1  
Gupte J  Swaminath G  Danao J  Tian H  Li Y  Wu X 《FEBS letters》2012,586(8):1214-1219
Adhesion G-protein-coupled receptors (GPCR) are special members of GPCRs with long N-termini containing multiple domains. We overexpressed our collection of receptors together with G-proteins in mammalian cell lines and measured the concentrations of intracellular signaling molecules, such as inositol phosphate and cAMP. Our results show that a subset of tested adhesion GPCRs has constitutive activities and is capable of coupling to a variety of G-proteins. In addition, we have identified a small molecule compound that specifically activates one of the subfamily members, GPR97, and the activation was confirmed by an independent GTPγS assay. These findings suggest classical GPCR screening assays could be applied to de-orphanize these receptors, and provide pharmacological tools to improve understanding of the physiological functions of these receptors.  相似文献   

15.
Abstract

Adhesion G-protein-coupled receptors (GPCRs) are the most recently identified and least understood subfamily of GPCRs. Adhesion GPCRs are characterized by unusually long ectodomains with adhesion-related repeats that facilitate cell– cell and cell–cell matrix contact, as well as a proteolytic cleavage site-containing domain that is a structural hallmark of the family. Their unusual chimeric structure of adhesion-related ectodomain with a seven-pass transmembrane domain and cytoplasmic signaling makes these proteins highly versatile in mediating cellular signaling in response to extracellular adhesion or cell motility events. The ligand binding and cytoplasmic signaling modes for members of this family are beginning to be elucidated, and recent studies have demonstrated critical roles for Adhesion GPCRs in planar polarity and other important cell–cell and cell–matrix interactions during development and morphogenesis, as well as heritable diseases and cancer.  相似文献   

16.
G protein-coupled receptors (GPCRs) are involved in cell recognition and signaling and their function has been experimentally determined by ligand activation and site-directed mutagenesis. Structurally, GPCRs consist of an extracellular N-terminus and an intracellular C-terminus separated by seven helical transmembrane domains (TM7). The extracellular region is highly glycosylated. The intracellular region binds to G proteins. An epididymal GPCR, designated HE6 (for human epididymis-specific protein 6), is present in the stereocilia projecting from the apical domain of principal cells into the epididymal lumen. In conceptual terms, HE6 wears two hats: an unusually long extracellular region characteristic of cell adhesion proteins, and an intracellular region with binding affinity to G protein. The binding partner to the long extracellular region has not been identified. HE6 has another remarkable feature comparable to the GPCR calcium-independent receptor of alpha-latrotoxin, designated CIRL. Both HE6 and CIRL are endogenously cleaved into two pieces at the GPCR proteolytic site (GPS) located adjacent to TM1, the first of the seven transmembrane helices. One fragment of the heterodimer wears the cell adhesion hat; the other retains the typical characteristics of GPCRs. This proteolytic processing may be regarded as a mechanism of molecular compartmentalization of cell adhesion and G protein activation functions. The latter may engage a beta-arrestin-driven endocytic trafficking mechanism independent from the adhesive properties of the mucin extracellular domain. It is also conceivable that events taking place in the epididymal lumen can be surveyed by the long adhesive rod and subsequently coupled inside principal cells to a signaling cascade.  相似文献   

17.
G protein-coupled receptors (GPCRs) constitute a large and functionally diverse family of transmembrane proteins. They are fundamental in the transfer of extracellular stimuli to intracellular signaling pathways and are among the most targeted proteins in drug discovery. The detailed molecular mechanism for agonist-induced activation of rhodopsin-like GPCRs has not yet been described. Using a combination of site-directed mutagenesis and molecular modeling, we characterized important steps in the activation of the human histamine H1 receptor. Both Ser3.36 and Asn7.45 are important links between histamine binding and previously proposed conformational changes in helices 6 and 7. Ser3.36 acts as a rotamer toggle switch that, upon agonist binding, initiates the activation of the receptor through Asn7.45. The proposed transduction involves specific residues that are conserved among rhodopsin-like GPCRs.  相似文献   

18.
The Adhesion G-protein-coupled receptors (GPCRs) are the most complex gene family among GPCRs with large genomic size, multiple introns, and a fascinating flora of functional domains, though the evolutionary origin of this family has been obscure. Here we studied the evolution of all class B (7tm2)-related genes, including the Adhesion, Secretin, and Methuselah families of GPCRs with a focus on nine genomes. We found that the cnidarian genome of Nematostella vectensis has a remarkably rich set of Adhesion GPCRs with a broad repertoire of N-terminal domains although this genome did not have any Secretin GPCRs. Moreover, the single-celled and colony-forming eukaryotes Monosiga brevicollis and Dictyostelium discoideum contain Adhesion-like GPCRs although these genomes do not have any Secretin GPCRs suggesting that the Adhesion types of GPCRs are the most ancient among class B GPCRs. Phylogenetic analysis found Adhesion group V (that contains GPR133 and GPR144) to be the closest relative to the Secretin family in the Adhesion family. Moreover, Adhesion group V sequences in N. vectensis share the same splice site setup as the Secretin GPCRs. Additionally, one of the most conserved motifs in the entire Secretin family is only found in group V of the Adhesion family. We suggest therefore that the Secretin family of GPCRs could have descended from group V Adhesion GPCRs. We found a set of unique Adhesion-like GPCRs in N. vectensis that have long N-termini containing one Somatomedin B domain each, which is a domain configuration similar to that of a set of Adhesion-like GPCRs found in Branchiostoma floridae. These sequences show slight similarities to Methuselah sequences found in insects. The extended class B GPCRs have a very complex evolutionary history with several species-specific expansions, and we identified at least 31 unique N-terminal domains originating from other protein classes. The overall N-terminal domain structure, however, concurs with the phylogenetic analysis of the transmembrane domains, thus enabling us to track the origin of most of the subgroups.  相似文献   

19.
A family of fatty acid binding receptors   总被引:4,自引:0,他引:4  
The family of G protein-coupled receptors (GPCRs) serves as the target for almost a third of currently marketed drugs, and provides the predominant mechanism through which extracellular factors transmit signals to the cell. The discovery of GPCRs with no known ligand has initiated a frenzy of research, with the aim of elucidating the physiological ligands for these "orphan" receptors and revealing new drug targets. The GPR40 family of receptors, tandemly located on chromosome 19q13.1, exhibit 30-40% homology to one another and diverse tissue distribution, yet all are activated by fatty acids. Since agonists of GPR40 are medium to longchain fatty acids and those for GPR41 and 43 are short-chain fatty acids, the family clearly provides an intriguing example of how the ligand specificity, patterns of expression, and function of GPCRs can diverge through evolution. Here we summarize the identification, structure, and pharmacology of the receptors and speculate on the respective physiological roles that the GPR40 family members may play.  相似文献   

20.
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