The structure and expression of the guinea pig Fc receptor for IgG1 and IgG2 (Fc gamma 1/gamma 2R).

A cDNA clone encoding the receptor for guinea pig immunoglobulin G was isolated from a guinea pig peritoneal macrophage cDNA library. The cloned cDNA encoded 271 amino acids containing an N-terminal signal sequence. The deduced amino acid sequence is most homologous to murine Fc gamma RII beta 2. The receptor protein could be expressed in COS-7 and L cells transfected with the cDNA, suggesting that the expression of this receptor does not require the co-expression of a second chain such as gamma chain of Fc epsilon RI or CD3 zeta chain. The transformant L cells showed the binding to both the guinea pig IgG1 and IgG2 antibodies complexed with antigen, indicating that the cDNA we cloned was the one for guinea pig Fc gamma 1/gamma 2R.     

CRRP: a guinea pig protein, identified by sequence homology to human CR1, which contains two short consensus repeat motifs and appears not to be transmembrane or secreted.

cDNA from the C4b-binding site of the human C3b/C4b receptor (CR1) was used to find homologous sequences in the guinea pig. This cDNA identified an 18S mRNA species in guinea pig spleen, but not liver. Probing of a guinea pig spleen cDNA library identified clones with identical 1.5-kb inserts, which also hybridized to mRNA in spleen, but not liver. Sequence analysis of the insert revealed a single long open-reading frame coding for a 20,000 Mr protein consisting of two short consensus repeat motifs homologous to human CR1, and unique sequence at the amino- and carboxy-terminals of the short consensus repeats. This sequence did not encode peptides with features of transmembrane domains or signal peptides. Antibody to this complement receptor-related protein-beta galactosidase fusion protein recognized a 20,000 Mr protein in SDS lysates of guinea pig spleen, lymph node, lymphocytes, neutrophils, and peritoneal macrophages. Immunoprecipitation of human serum by this antibody revealed an 180,000 Mr protein reacting both with the anti-guinea pig protein antibody and with anti-human CR1 antibody. Immunoprecipitation of guinea pig serum revealed no protein reacting with the anti-guinea pig protein antibody. Tissue staining of cultured peritoneal macrophages with this antibody showed intracellular staining, as opposed to membrane staining obtained with anti-guinea pig Ig antibody. The lack of membrane expression was confirmed by surface protein radiolabeling experiments and by fluorescent staining of surface proteins. Thus, we have identified a guinea pig protein with homology to human CR1, which may have an unusual property for this class of proteins in that it appears to be intracellular.     

Cloning and expression of sterol Delta 14-reductase from bovine liver.

Biosynthesis of cholesterol represents one of the fundamental cellular metabolic processes. Sterol Delta 14-reductase (Delta 14-SR) is a microsomal enzyme involved in the conversion of lanosterol to cholesterol in mammals. Amino-acid sequence analysis of a 38-kDa protein purified from bovine liver in our laboratory revealed > 90% similarity with a human sterol reductase, SR-1, encoded by the TM7SF2 gene, and with the C-terminal domain of human lamin B receptor. A cDNA encoding the 38-kDa protein, similar to human TM7SF2, was identified by analysis of a bovine expressed sequence tag (EST) database. The cDNA was synthesized by RT-PCR, cloned, and sequenced. The cDNA encodes a 418 amino-acid polypeptide with nine predicted transmembrane domains. The deduced amino-acid sequence exhibits high similarity with Delta 14-SR from yeasts, fungi, and plants (55-59%), suggesting that the bovine cDNA encodes Delta 14-SR. Northern blot analysis of bovine tissues showed high expression of mRNA in liver and brain. The polypeptide encoded by the cloned cDNA was expressed in COS-7 cells. Immunofluorescence analysis of transfected cells revealed a distribution of the protein throughout the ER. COS-7 cells expressing the protein exhibited Delta 14-SR activity about sevenfold higher than control cells. These results demonstrate that the cloned bovine cDNA encodes Delta 14-SR and provide evidence that the human TM7SF2 gene encodes Delta 14-SR.     

Guinea pig 11beta-hydroxysteroid dehydrogenase type 1: primary structure and catalytic properties

The 11beta-hydroxysteroid dehydrogenase type 1 (11beta-HSD1) enzyme is responsible for the interconversion of glucocorticoids and their inactive metabolites, and thus modulates the intracellular level of bioactive glucocorticoids. The present study was designed to clone and characterize 11beta-HSD1 in the guinea pig, a laboratory animal known for resistance to glucocorticoids. The cDNA encoding guinea pig 11beta-HSD1 was cloned by a modified 3'-RACE (rapid amplification of cDNA ends) protocol using the hepatic RNA as template. The cloned cDNA encodes a protein of 300 amino acids that shares 71 to 74% sequence identity with other known mammalian 11beta-HSD1 proteins. Sequence comparison analysis revealed that the deduced guinea pig 11beta-HSD1 was longer, by eight amino acids at the C terminus, than those of other mammals. Moreover, one of the two absolutely conserved consensus sites for N-glycosylation was absent. To examine the functional significance of these structural changes, we also characterized 11beta-HSD1 activity in the hepatic microsomes. Although the guinea pig hepatic enzyme was NADP(H)-dependent and reversible, it displayed equal affinity for cortisol and cortisone (apparent K(m) for both substrates was 3 microM). This is in marked contrast to 11beta-HSD1 in other mammals whose affinity for cortisone is approximately 10 times higher than that for cortisol (apparent K(m) of 0.3 vs. 3.0 microM). The apparent lower affinity of the guinea pig enzyme for cortisone would suggest that the intracellular bioformation of cortisol from circulating cortisone may be less efficient in this species. Northern blot analysis and RT-PCR revealed that the mRNA for 11beta-HSD1 was widely expressed in the adult guinea pig but at low amounts. In conclusion, the present study has identified distinct features in the deduced primary structure and catalytic function of 11beta-HSD1 in the guinea pig. Thus, the guinea pig provides a useful model in which the structural determinants of catalytic function of 11beta-HSD1 may be studied.     

The human platelet-activating factor receptor gene (PTAFR) contains no introns and maps to chromosome 1.

Platelet-activating factor (PAF), a phospholipid, exhibits a variety of potent inflammatory bioactivities that are mediated by a specific cell surface receptor. The gene for the human PAF receptor (PTAFR) has been isolated by hybridization with a guinea pig probe. The coding sequence contains no intervening sequences. The encoded protein is highly homologous to the guinea pig PAF receptor (82% identity) and contains seven putative transmembrane domains. The PAF receptor therefore appears to be a member of the G protein coupled family of receptors and exhibits significant similarity to many members of the family. Analysis of somatic cell hybrids suggests that the PAF receptor is encoded by a single gene on human chromosome 1.     

Molecular cloning of a new bombesin receptor subtype expressed in uterus during pregnancy.

The homology screening approach has been used to clone a new member of the guanine-nucleotide-binding-protein-coupled receptor superfamily from guinea pig uterus. The cloned cDNA encodes a 399-amino-acid protein and shows the highest amino acid similarity to members of the bombesin receptor family; 52% and 47% similarity to the gastrin-releasing-peptide (GRP) receptor and the neuromedin-B receptor, respectively. Binding experiments with the stably transfected LLC-PK1 cell line expressing the new receptor protein confirmed the bombesin-like nature of the cloned receptor. The relative order of ligand affinity, GRP = neuromedin C much greater than neuromedin B, suggests that the cloned cDNA represents the GRP subtype rather than the neuromedin-B subtype of bombesin receptors. Northern-blot analysis of mRNA species from several guinea-pig tissues showed that the mRNA for the new bombesin receptor subtype is expressed mainly in uteri of pregnant animals.     

Molecular cloning and functional expression of a VIP-specific receptor

Three receptors for VIP and pituitary adenylate cyclase-activating peptide (PACAP) have been cloned and characterized: PAC(1), with high affinity for PACAP, and VPAC(1) and VPAC(2) with equally high affinity for VIP and PACAP. The existence of a VIP-specific receptor (VIP(s)) in guinea pig (GP) teniae coli smooth muscle was previously surmised on the basis of functional studies, and its existence was confirmed by cloning of a partial NH(2)-terminal sequence. Here we report the cloning of the full-length cDNAs of two receptors, a VPAC(2) receptor from GP gastric smooth muscle and VIP(s) from GP teniae coli smooth muscle. The cDNA sequence of the VIP(s) encodes a 437-amino acid protein (M(r) 49,560) that possesses 87% similarity to VPAC(2) receptors in rat and mouse and differs from the VPAC(2) receptor in GP gastric smooth muscle by only two amino-acid residues, F(40)F(41) in lieu of L(40)L(41). In COS-1 cells transfected with the GP teniae coli smooth muscle receptor, only VIP bound with high affinity (IC(50) 1.4 nM) and stimulated cAMP formation with high potency (EC(50) 1 nM). In contrast, in COS-1 cells transfected with the GP gastric smooth muscle receptor, both VIP and PACAP bound with equally high affinity (IC(50) 2.3 nM) and stimulated cAMP with equally high potency (EC(50) 1.5 nM). We conclude that the receptor cloned from GP teniae coli smooth muscle is a VIP(s) distinct from VPAC(1) and VPAC(2) receptors. The ligand specificity in this species is determined by a pair of adjacent phenylalanine residues (L(40)L(41)) in the NH(2)-terminal ligand-binding domain.     

Molecular characterization of the interleukin-8 receptor

Recently a rabbit cDNA (F3R) was characterized as binding and causing calcium mobilization induced by the formyl-methionine-leucine-phenylalanine peptide (fMLP). In the study reported here, cloned DNAs were isolated from rabbit genomic DNA by PCR based on the sequence of F3R. The cloned DNAs have several differences in the DNA sequence compared to the reported F3R sequence that alter the predicted protein sequence. COS-7 cells transfected with these clones in a mammalian expression vector bind human IL-8 with high affinity, but do not bind fMLP. We therefore believe that the cDNAs isolated encode the rabbit IL-8 receptor.     

Cloning and pharmacological characterization of a human bradykinin (BK-2) receptor.

A human BK-2 bradykinin receptor was cloned from the lung fibroblast cell line CCD-16Lu. The cDNA clone encodes a 364 amino acid protein that has the characteristics of a seven transmembrane domain G-protein coupled receptor. The predicted amino acid sequence of the human BK-2 receptor is 81% identical to the smooth muscle rat BK-2 receptor (1). Transfection of the human BK-2 receptor cDNA into COS-7 cells results in the expression of high levels of specific BK binding sites. Saturation binding analysis indicates that the human BK-2 receptor expressed in COS-7 cells binds BK with a KD of 0.13 nM. Pharmacological characterization of the expressed BK receptor is consistent with the cDNA encoding a receptor of the BK-2 subtype. The BK-2 receptor antagonist Hoe 140 (2), D-Arg0[Hyp3, Thi5, D-Tic7, Oic8]BK has a high affinity (IC50 = 65 pM) for the cloned human receptor. The tissue distribution of the human BK-2 receptor was analyzed by competitive PCR with human tissue cDNA and is similar to that determined for the BK-2 receptor in the rat.     

Isolation and expression of a guanylate cyclase-coupled heat stable enterotoxin receptor cDNA from a human colonic cell line.

Heat stable enterotoxins (STs) are low molecular-weight peptides secreted by enterotoxigenic bacteria. One type of these enterotoxins (STa) induces intestinal secretion leading to acute diarrhea by binding to a membrane form of guanylate cyclase. We have isolated a cDNA from a human colonic cell line, T84, encoding for a guanylate cyclase-coupled enterotoxin receptor (STaR). The predicted amino acid sequence of the human STa receptor is 81% identical with the previously cloned enterotoxin receptor (GC-C) from rat intestine. COS-7 cells transiently transfected with the cloned cDNA expressed specific concentration-dependent response to STa as measured by cyclic GMP accumulation and is about 20 times more sensitive to the stimulation by STa than has been shown for GC-C.     

Molecular Cloning, Expression, and In Silico Structural Analysis of Guinea Pig IL-17

Interleukin-17A (IL-17A) is a potent proinflammatory cytokine and the signature cytokine of Th17 cells, a subset which is involved in cytokine and chemokine production, neutrophil recruitment, promotion of T cell priming, and antibody production. IL-17 may play an important role in tuberculosis and other infectious diseases. In preparation for investigating its role in the highly relevant guinea pig model of pulmonary tuberculosis, we cloned guinea pig IL-17A for the first time. The complete coding sequence of the guinea pig IL-17A gene (477 nucleotides; 159 amino acids) was subcloned into a prokaryotic expression vector (pET-30a) resulting in the expression of a 17 kDa recombinant guinea pig IL-17A protein which was confirmed by mass spectrometry analysis. Homology modeling of guinea pig IL-17A revealed that the three-dimensional structure resembles that of human IL-17A. The secondary structure predicted for this protein showed the presence of one extra helix in the N-terminal region. The expression profile of IL-17A was analyzed quantitatively in spleen, lymph node, and lung cells from BCG-vaccinated guinea pigs by real-time PCR. The guinea pig IL-17A cDNA and its recombinant protein will serve as valuable tools for molecular and immunological studies in the guinea pig model of pulmonary TB and other human diseases.     

Cloning and Expression of a Human Serotonin 5-HT4 Receptor cDNA

Abstract: Using a combination of library screening and nested PCR based on a partial human serotonin 5-HT₄ receptor sequence, we have cloned the complete coding region for a human 5-HT₄ receptor. The sequence shows extensive similarity to the published porcine 5-HT_4A and rat 5-HT_4L receptor cDNA; however, in comparison with the latter, we find an open reading frame corresponding to only 388 amino acids instead of 406 amino acids. This difference is due to a frame shift caused by an additional cytosine found in the human sequence after position 1,154. Moreover, we also found the same additional cytosine in the rat 5-HT₄ sequence. We confirmed the occurrence of the sequence by examining this part of the sequence in genomic DNA of 10 human volunteers and in rat genomic DNA. Based on a part of the genomic 5-HT₄ receptor sequence that was identified in the cloning process, there seem to be at least two possible splice sites in the coding region of the gene. The human 5-HT₄ receptor, transiently expressed in COS-7 cells, showed radioligand binding properties similar to 5-HT₄ receptors in guinea pig striatal tissue. [³H]GR 113808 revealed K _D values of 0.15 ± 0.01 n M for the human receptor and 0.3 ± 0.1 n M in the guinea pig tissue. Binding constants were determined for four investigated 5-HT₄ antagonists and three agonists, and appropriate binding inhibition constants were found in each case. Stimulation of transfected COS-7 cells with 5-HT₄-specific agonists caused an increase in cyclic AMP levels.     

Cloning and characterization of cDNA encoding human A-type endothelin receptor.

A cDNA coding for the human A-type endothelin receptor (ETA) was cloned from a human placenta cDNA library. The cDNA contained the entire coding sequence for the 427 amino acid protein with a relative Mr of 48,722. The deduced amino acid sequence of the human ETA was, respectively, 94% and 93% homologous with the sequence of bovine ETA and rat ETA, but was only 64% homologous with that of the human ETB receptor. Upon expression in COS-1 cells, the human ETA receptor showed binding activity to ETA, with the highest selectivity to ET-1. Northern blot analysis showed that the mRNA of human placenta ETA consists of one species 5 kilo-nucleotides in length, and the same analysis for the uterus, testis, heart and adrenal gland of Cynomolgus monkey showed that the cognate mRNAs are widely distributed.     

Molecular cloning and expression of mouse brain sialidase.

Sialidase (EC 3.2.1.18) catalyzes the release of sialic acid from sialo-oligosaccharides, gangliosides, or sialo-glycoproteins. In this investigation, we cloned a novel cDNA for mouse brain sialidase and expressed the cDNA in COS-7 cells. This 1,699 bp cDNA codes for a 41.6 kDa protein consisting of 372 deduced amino acid residues. In COS-7 cells transiently transfected with the cDNA, a 250-fold increase was observed in specific activity toward 2'-(4-methylumbelliferyl)-alpha-D-N-acetylneuraminic acid. Similarity searches of the nonredundant GenBank peptide sequence database by the PSI-BLAST program identified rat, hamster, human, and bacterial sialidases homologous to this mouse brain sialidase. Amino acid sequence identities to rat and hamster sialidases (84% and 77%, respectively) suggest that this form of sialidase is conserved in rodents. Sequence identities to human and mouse lysosomal sialidases (30% and 28%, respectively) indicate that the mouse brain sialidase is distinct from the lysosomal enzyme. Mouse brain sialidase has two amino acid sequence motifs common to bacterial sialidases: the 'F/YRIP' motif and the 'Asp-box' motif. The 'F/YRIP' motif is present near the N terminus while two 'Asp-box' motifs are present downstream.     

Chicken epidermal growth factor (EGF) receptor: cDNA cloning, expression in mouse cells, and differential binding of EGF and transforming growth factor alpha.

The primary structure of the chicken epidermal growth factor (EGF) receptor was deduced from the sequence of a cDNA clone containing the complete coding sequence and shown to be highly homologous to the human EGF receptor. NIH-3T3 cells devoid of endogenous EGF receptor were transfected with the appropriate cDNA constructs and shown to express either chicken or human EGF receptors. Like the human EGF receptor, the chicken EGF receptor is a glycoprotein with an apparent molecular weight of 170,000. Murine EGF bound to the chicken receptor with approximately 100-fold lower affinity than to the human receptor molecule. Surprisingly, human transforming growth factor alpha (TGF-alpha) bound equally well or even better to the chicken EGF receptor than to the human EGF receptor. Moreover, TGF-alpha stimulated DNA synthesis 100-fold better than did EGF in NIH 3T3 cells that expressed the chicken EGF receptor. The differential binding and potency of mammalian EGF and TGF-alpha by the avian EGF receptor contrasts with the similar affinities of the mammalian receptor for the two growth factors.     

Molecular cloning and expression of the porcine high-affinity immunoglobulin G Fc receptor (FcγRI)

Receptors for the Fc region (FcγRs) of immunoglobulin G (IgG) play a crucial role in the immune system and host protection against infection. In this study, we describe the cloning, sequencing, and expression of the high-affinity IgG receptor from pig. By screening a translated Expressed Sequence Tags database with the human FcγRI (CD64) protein sequence, we identified a putative porcine homologue. Subsequent polymerase chain reaction amplification confirmed that the identified full-length cDNA was expressed in porcine cells. Rosetting analysis shows that COS-7 cells transfected with a plasmid containing the cloned cDNA were able to bind chicken erythrocytes sensitized with porcine IgG. Scatchard analysis indicated that monomeric IgG bound to transiently transfected cells with an affinity of approximately 4×10⁷ M⁻¹. The porcine FcγRI cDNA is 1,038 nucleotides long and is predicted to encode a 346-amino-acid transmembrane glycoprotein composed of three Ig-like domains, a transmembrane region, and a short cytoplasmic tail. The overall identity of the porcine FcγRI to its human and mouse counterparts at the level of the amino acid sequence was 75% and 57%, respectively. Identification of porcine FcγRI will aid in the understanding of the molecular basis of the porcine immune system and further studies of the receptor function.Gaiping Zhang and Songlin Qiao contributed equally to this study.The GenBank accession number of the nucleotide sequence reported here is DQ026063.