A molecular recognition hypothesis for nonpeptides: Na+ K+ ATPase and endogenous digitalis-like peptides

The molecular recognition hypothesis for peptides is that binding sites of ligands and their receptors are encoded by short, complementary segments of DNA. A corollary hypothesis for nonpeptide ligands posited here is that peptide replicas may be encoded by the DNA segment complementary to the receptor binding sites for nonpeptides. This corollary was tested for digitalis. a family of cardiotonic and natriuretic steroids including ouabain. A hexapeptide (ouabain-like peptide, OLP) complementary to a ouabain binding site on sodium potassium dependent adenosine triphosphatase (Na+ K+ ATPase) exhibited activity in a digitalis bioassay. Antisera to the complementary peptide (OLP) stained the neurohypophysis in an immunocytochemical procedure. The complementary peptide was found to share an identical 4-amino acid region with the 39-amino acid glycopeptide moiety of the vasopressin-neurophysin precursor. This glycopeptide was isolated from pituitary extracts; it exhibited digitalis-like activity in the submicromolar range and cross-reacted with complementary peptide antibodies. Another digitalis-like substance with high activity also was detected in the extracts. These results demonstrate that the vasopressin-neurophysin glycopeptide has digitalis-like activity. Moreover, the findings are consistent with the hypothesis that peptide mimetics of nonpeptides are encoded in the genome.

Potential regulatory roles for G protein-coupled receptor kinases and beta-arrestins in gonadotropin-releasing hormone receptor signaling

GnRH stimulates gonadotropin secretion, which desensitizes unless the releasing hormone is secreted or administered in a pulsatile fashion. The mechanism of desensitization is unknown, but as the GnRH receptor is G protein coupled, it might involve G protein-coupled receptor kinases (GRKs). Such kinases phosphorylate the intracellular regions of seven-transmembrane receptors, permitting beta-arrestin to bind, which prevents the receptor from activating G proteins. Here, we tested the effect of GRKs and beta-arrestins on GnRH-induced inositol trisphosphate (IP3) production in COS cells transfected with the GnRH receptor complementary DNA. GRK2, -3, and -6 overexpression inhibited IP3 production by 50-75% during the 30 sec of GnRH treatment. Coexpression of GRK2 and beta-arrestin-2 suppressed GnRH-induced IP3 production more than that of either alone. Immunocytochemical staining of rat anterior pituitary revealed that all cells expressed GRK2, -3, and -6; all cells also expressed the beta-arrestins. Western blots on cytosolic extracts of rat pituitaries revealed the presence of GRK2/3 and beta-arrestin-1 and -2. The expression of GRKs and beta-arrestins by gonadotropes and their inhibition of GnRH-stimulated IP3 production in COS-1 cells expressing the GnRH receptor suggest a potential regulatory role for the GRK/beta arrestin paradigm in GnRH receptor signaling.

Components of the neuronal exocytotic machinery in the anterior pituitary of the ovariectomised ewe and the effects of oestrogen in gonadotropes as studied with confocal microscopy

We have investigated exocytotic proteins in ovine pituitary cells and sought to identify changes in expression of these proteins related to the effects of estrogen on luteinising hormone (LH) secretion in the ovariectomised ewe. Sheep were treated with either oestradiol benzoate, or oil (i.m.) and blood samples collected for LH assay. Pituitaries were perfusion-fixed and dual-label immunohistochemistry was performed to identify hormone-secreting cells, and colocalise synaptic proteins within different cell types. Synaptophysin, SNAP-25, VAMP-2, rab3A, Munc-18-1, alpha/beta-SNAP, csp, and secretogranin II were detected in gonadotropes and somatotropes. Lactotropes were positive for SNAP-25 and synaptophysin (other synaptic proteins not investigated). Synaptotagmin I was detected in gonadotropes and lactotropes, but not somatotropes. Synaptophysin, SNAP-25, synaptotagmins I, II and III, VAMP-2, rab3A, Munc-18-1, alpha/beta-SNAP, csp, and secretogranin II were detected in nerve fibres of the posterior lobe. Membrane staining for SNAP-25 and weak cytoplasmic labelling for both synaptotagmin I and secretogranin II were detected in the intermediate lobe. Syntaxin and complexin II antibodies did not label any region of the ovine pituitary. Oestrogen treatment, to induce a pre-ovulatory-like LH surge, caused migration of LH-containing secretory granules toward the plasma membrane of gonadotropes, but did not alter the percentage of gonadotropes expressing each exocytotic protein. Oestrogen treatment caused a similar redistribution of csp and secretogranin II staining in gonadotropes. We conclude that synaptic protein expression is not altered in the anterior pituitary at the time when LH secretion is maximal. The ubiquitous distribution of many exocytotic proteins suggests that all hormone-secreting cells of the pituitary gland contain the same, or similar exocytotic machinery, but distinct 'activating factors' are required to selectively trigger the secretion of individual hormones.

The capsid protein of vesicular exanthema of swine virus serotype A48: relationship to the capsid protein of other animal caliciviruses

Vesicular exanthema of swine virus (VESV), the prototype calicivirus, is the etiologic agent of the porcine disease vesicular exanthema of swine (VES). VES is characterized by vesicle formation on the extremities, mouth and snout and causes abortions and stillbirths if infection occurs during pregnancy. VESV is considered an exotic agent in the US, following its eradication in 1956. The single capsid protein gene of VESV serotype A48 was cloned and sequenced. The capsid amino acid sequence was 69% similar to the San Miguel sea lion virus serotype 1 (SMSV 1) and 89% similar to the SMSV serotype 4 (SMSV 4) capsid proteins. The six functional regions (A-F) previously identified in SMSV 1, SMSV 4, feline calicivirus and rabbit hemorrhagic disease virus capsid proteins were present in VESV A48. Two sets of PCR primers were designed which directed amplification of the 5' end (A region) and the hypervariable (E region) sequences of the capsid protein precursor gene of these viruses, as well as seven additional SMSV serotypes. Alignment and phylogenetic analysis of the N-terminal sequences demonstrated the close relationship of these viruses. Alignment of the hypervariable region amino acid sequences of the ten viruses confirmed that a great variety of sequence exists in this region; however, a consensus sequence (NxT(N/H)F(K/R)GxYI(C/M)GxLx(T/R)) was derived which is also present in the feline calicivirus capsid protein. Comparison of the E region sequences provides further evidence that this area of animal calicivirus capsid protein may contain the major antigenic determinants.

A temporally intermediate mode of gonadotropin releasing hormone-induced desensitization of luteinizing hormone secretion

The classical mode of luteinizing hormone (LH) secretory desensitization in the rat appears after 3-6 h of continuous in vitro administration of gonadotropin (GnRH). A second mode has been reported to occur very rapidly (< 2 min) after the onset of GnRH administration, and to reverse within 3 min after its withdrawal. Here, the existence of a third mode of desensitization is reported. occurring at 40-50 min after initiation of continuous GnRH administration. Rat pituitary cells were perifused with 10(-8) M GnRH for 6 h: 10 min samples were collected for LH measurements by radioimmunoassay. As expected, the pattern of LH release was biphasic: LH levels peaked in the first phase at 30 min, decreased at 40-50 min, increased in the second phase to maximal levels at 90-110 min, and then decreased in the classical desensitization mode to near-baseline values by 300-360 min. Static incubations of pituitary cells in Petri dishes in the presence of high (10(-8) M) or submaximal (10(-9) M) GnRH concentrations confirmed the decrease in LH secretion at 40-50 min. Measurement of LH by reverse hemolytic plaque assay (RHPA) confirmed the existence of this new mode of desensitization; since 93% of all gonadotropes had become secretory at 40-50 min, the possibility of two subpopulations of gonadotropes accounting for the two phases of LH secretion appears to be ruled-out. GnRH receptor binding studies demonstrated a approximately 50% decrease in cell-surface binding in association with the desensitization at 40-50 min. These studies suggest the existence of a third mode of GnRH-induced LH secretory desensitization that is not due to gonadotrope subpopulations but may be causally associated with decreased GnRH receptor binding.

Epitope-tagged gonadotropin-releasing hormone receptors heterologously-expressed in mammalian (COS-1) and insect (Sf9) cells

The molecular cloning and nucleotide sequencing of the gonadotropin-releasing hormone (GnRH) receptor represented an enhanced step in the experimental effort to understand this key molecule in the reproductive process at a cell and molecular level. A subsequent step in this broad effort is heterologous expression of the receptor in model cell systems for studies of signal transduction and desensitization, processes that may require immunologic detection of the receptor. Therefore, the GnRH receptor was tagged at its N-terminus using recombinant DNA procedures with the HA-1 epitope that is bound by a monoclonal antibody (12CA5). COS-1 cells expressing this receptor bound [(125)I]D-Ala6-desGly10-GnRH ethylamide (GnRH-A) with the expected high affinity (IC(50) = 0.47 nM), and were immunocytochemically stained by the 12CA5 antibody. Signal transduction was demonstrated by GnRH-induced [(3)H]inositol phosphate accumulation in receptor-expressing COS-1 cells. Western blotting of COS-1 cell membranes expressing the receptor revealed protein bands at 67, 57, and 32 kDa. Immunoprecipitation occurred when the solubilized receptor from COS-1 cell membranes was reacted with 12CA5 antibody and anti-mouse IgG Sepharose, and the presence of the receptor demonstrated either by its binding of [(125)I]GnRH-A or by its detection on Western blots. Desensitization of inositol 1,4,5-trisphosphate (IP(3)) production by N-epitope-tagged GnRH receptor expressing COS-1 cells was evoked by a five min GnRH pretreatment; [(32)P]i labeling of such cells during desensitization followed by immunoprecipitation of the N-epitope-tagged receptor was not associated with receptor phosphorylation. Finally, the epitope tagged receptor was expressed in the high-yield baculovirus/insect Sf9 cell system: the membrane receptor bound [(125)I]GnRH-A with slightly lowered affinity (IC(50) = 1.4 nM), and in Western blots yielded protein bands of 32, 56/57, 69, and 120/140 kDa. The development and validation of these heterologous systems will permit the study of several GnRH receptor-mediated processes that are poorly understood.

Potential role for a regulator of G protein signaling (RGS3) in gonadotropin-releasing hormone (GnRH) stimulated desensitization

The cellular and molecular mechanisms of gonadotrope desensitization are unknown but transduction of the GnRH signal is known to involve sequentially the GnRH receptor, Gq alpha protein, phospholipase C beta-1, inositol-1,4,5-trisphosphate (IP3), and intracellular Ca+2 release. Here, we report the results of studies of a new family of proteins known as regulators of G protein signaling (RGS) that recently have been implicated in desensitization of several ligand induced processes. Using DNA-mediated transfection, we co-expressed the GnRH receptor and RGS1,2,3, or 4 in COS-1 cells. Control cells and those expressing RGS1,2, and 4 produced five fold increases in IP3 levels during the 30 sec after treatment with GnRH. In contrast, RGS3 expression suppressed by 75% the GnRH-induced IP3 responses. RGS3 was shown to bind Gq alpha protein in a model in vitro system: recombinant RGS3-glutathione-S-transferase (GST) fusion protein bound five-fold more 35S-met labeled Gq alpha protein than did with GST alone, suggesting that the mechanism of RGS3 action is attenuation of Gq alpha protein activation of phospholipase C. RGS3 mRNA and protein were observed to be expressed endogenously in the gonadotropic alpha T3-1 cell line. These results suggest a potential role for RGS3 in modulating the LH secretory responsiveness of the pituitary gonadotrope to GnRH.

Identification by polymerase chain reaction of the G protein-coupled receptor kinases expressed in the mouse gonadotropic alpha T3-1 cell line

G protein-coupled receptor kinases (GRK 1-6) stimulate short-term desensitization (< 5 min) by phosphorylating G-protein coupled receptors, and also participate in receptor sequestration, which may relate to intermediate-term desensitization (30-60 min). The existence of such kinases and hence a potential role for them in gonadotrope/GnRH receptor desensitization was investigated using the PCR to identify GRKs in messenger RNA (mRNA) from the mouse alpha T3-1 gonadotrope cell line. The 150-bp complementary DNAs amplified by PCR from the kinase catalytic domain were cloned and sequenced. Seventeen of 42 clones were receptor kinases based on high nucleotide identities of 85-100% and amino acid identities of 97-100% with rat GRK2 and 3, and with human GRK6. Among the eight GRK3 clones was one differing from rat GRK3 by a single nucleotide and seven differing by six; no amino acid difference resulted from the nucleotide differences. Of the five GRK2 clones, one sequence was identical with rat GRK2, but four sequences differed by three nucleotides and one amino acid. Among four GRK6 sequences, one showed 15 nucleotide differences from human GRK6 (with no amino acid differences), and three had 16 nucleotide and one amino acid differences. For each of the three GRKs found, the most closely related isoform is assumed to be the mouse homolog of rat GRK2 and GRK3, and human GRK6, whereas the others are assumed to be previously undescribed isoforms or subtypes of GRK2, 3, and 6. Immunocytochemical staining using antibodies to GRK2, 3, and 6 confirmed their presence in alpha T3-1 cells. The function of these GRKs in alpha T3-1 cells is unknown, but they may be involved in short-term desensitization of the gonadotrope/GnRH receptor or perhaps, more likely, the sequestration of this receptor during intermediate-term desensitization.

Gonadotropin-releasing hormone-induced desensitization may account for the decrease in pituitary responsiveness after the preovulatory luteinizing hormone surge

The LH secretory response of gonadotropes to GnRH varies during the estrous cycle of the rat. The increased secretion of estrogens during the 24-48 h before the preovulatory surge of LH secretion and the enhanced quantities of progesterone secreted acutely during the surge elevate the responsiveness of hypophysial gonadotropes to GnRH. However, the cause of the massive decline in GnRH responsiveness that occurs during or after the surge remains unknown. In the present studies, we investigated the possibility that it is due to GnRH-induced desensitization of gonadotropes. Dispersed pituitary cells from proestrous and estrous rats were preincubated with GnRH (3 or 6 h, 10(- 10) or 10(-9) M), progesterone (13 h, 100 or 200 nM), GnRH plus progesterone, or medium alone. Then, the cells were retrypsinized to permit performance of the reverse hemolytic plaque assay for measurement of LH secretin, during which they were treated with GnRH(0,10(-11),10(-10), and 10(-8)M) for 2 h. The cells from estrous animals showed the large decline in GnRH responsiveness typical of that day of the cycle compared to those from proestrous animals (the total amount of LH secreted decreased by 50-70%). Preincubation of cells from proestrous rat pituitary glands with GnRH in concentrations and for durations that were designed to mimic the physiological situation induced a decline in GnRH responsiveness similar to that observed at estrus. Preincubation with progesterone also reduced the pituitary responsiveness to GnRH in a dose-dependent manner, but did not show additive effects with GnRH. Our results suggest that the major increase in GnRH secretion that induces the preovulatory surge of LH secretion may also participate in inducing the major decrease in pituitary responsiveness to GnRH that occurs from proestrus to estrus.

Effect of cAMP on GnRH stimulated LH secretion from individual pituitary gonadotropes

Enhanced responsiveness of the pituitary gland to GnRH is a fundamental step required for secretion of the proestrous LH surge, and is achieved primarily by the actions of ovarian steroid hormones on the gonadotropes. The mechanisms involved are still unclear but the cAMP second messenger pathway can mediate some of these activities. The present study was undertaken to determine the effects of in vitro cholera toxin (CTX; increases cAMP) pretreatment of pituitary cells from proestrous and diestrous 1 rats relative to their LH secretory response to GnRH using a reverse hemolytic plaque assay. The number of gonadotropes that secrete LH in the group treated with CTX increased at low doses of GnRH and also in the absence of the peptide, but decreased at high doses, showing a dual effect: stimulation of some gonadotropes and inhibition of others. The inhibition was achieved within 3 h of pretreatment in proestrous cells but it was not seen until 20 h in diestrous 1 cells. This suggests the existence of at least two subpopulations of gonadotropes, one of which is stimulated by cAMP and another which is inhibited.

Genetic relatedness of the caliciviruses: San Miguel sea lion and vesicular exanthema of swine viruses constitute a single genotype within the Caliciviridae

The San Miguel sea lion viruses (SMSV) and vesicular exanthema of swine viruses (VESV) are related morphologically and antigenically, but little has been done to determine their genotypic relationship to each other and to other caliciviruses. To examine this relationship, reverse transcriptase PCRs were performed by using oligonucleotide primer sets designed to amplify portions of the 2C RNA helicase-like and RNA-dependent RNA polymerase regions with total cellular RNA purified from virus-infected cell cultures as a template. The 2C RNA helicase primers directed the amplification of this region from eight SMSV serotypes, five VESV serotypes, and four related viruses. The RNA polymerase primer sets amplified products from all these viruses except one. Phylogenetic comparison of the caliciviruses demonstrated that SMSV, VESV, and four related viruses are closely related while being distinct from feline calicivirus, the human caliciviruses (small, round-structured viruses), and rabbit hemorrhagic disease virus and that they should be classified as a single genotype within the Caliciviridae.

Isolation of caliciviruses from skunks that are antigenically and genotypically related to San Miguel sea lion virus

Caliciviruses were isolated from feces of skunks imported from the north central United States to Canada. Virus isolation was accomplished using adenovirus-transformed human kidney (293) cells, swine testes and Vero cells. Plaque size variants were presented, but there was no apparent difference in virus morphology by negative stain or immune electron microscopy. Pigs infected with skunk calicivirus had a slightly elevated body temperature at 3 days postinfection. Although the infected animals seroconverted, no overt clinical signs were observed. Purified infectious genomic skunk calicivirus RNA behaved exactly as San Miguel sea lion virus (SMSV) 1 and 4 genomic RNA in cell culture transfection studies. Of the cell types examined, only primary porcine kidney, 293 and Vero cells supported viral replication. No viral replication was detected in cells of bovine, equine, ovine, caprine or feline origin. The skunk caliciviruses contained a single capsid protein with a relative mobility similar to SMSV virus 1 and 4 capsid proteins. The capsid protein was positive by Western blot analysis with SMSV and vesicular exanthema of swine virus (VESV) antisera. Purified RNA from skunk calicivirus infected cells was subjected to reverse transcription followed by polymerase chain reaction. Nucleotide sequences were identified that had greater than 85% similarity to the 2C and RNA polymerase gene regions of SMSV 1 and 4 and VESV A48. Predicted amino acid sequences of these regions were greater than 95% similar and the partial coding sequence of the polymerase gene contained the YGDD sequence common to positive-strand RNA virus polymerases.

Analysis of the serologic relationship among San Miguel sea lion virus and vesicular exanthema of swine virus isolates. Application of the western blot assay for detection of antibodies in swine sera to these virus types

Caliciviruses are positive-sense single-stranded RNA viruses with a single capsid protein. The serotypes of the marine mammal calicivirus, San Miguel sea lion virus (SMSV), are antigenically related to vesicular exanthema of swine virus (VESV) and are potentially hazardous to swine. Western blot assays using purified SMSV serotypes 1 and 4 were used to further examine the serologic relationship among SMSV and VESV isolates. With the exception of SMSV 8 and SMSV 12, rabbit polyclonal antisera generated against all the available SMSV and VESV isolates reacted positively, as assessed by western blot, with purified capsid protein from SMSV 1 and SMSV 4. Consequently, the SMSV 8 and SMSV 12 virus isolates may not be members of the SMSV/VESV calicivirus group. Using antisera from pigs experimentally inoculated with SMSV and VESV as positive controls, a western blot assay for these virus types was utilized to check for the presence of antibodies to calciviruses in swine sera. Sera from colostrum-deprived gnotobiotic pigs were used as a negative control in all experiments. Examination of sera from domestic and feral swine collected in Iowa, California, and Florida was completed using this technique. The presence of antibodies to these virus types was not detected in any of the porcine sera tested.

Expression of the messenger RNAs for luteinizing hormone-releasing hormone (LHRH) and its receptor in human ovarian epithelial carcinoma

Recently we reported the presence of specific high affinity binding sites for luteinizing hormone-releasing hormone (LHRH) and its analogues (Kd = 1.5 or 1.7 nM) in the human epithelial ovarian cancer cell lines EFO-21 and EFO-27. The proliferation of these cell lines was inhibited by nM concentrations of a LHRH agonist. This study was performed to ascertain whether these ovarian cancer cell lines produce LHRH and whether the high affinity LHRH binding site found previously was identical to the pituitary LHRH receptor. Significant amounts of immunoreactive LHRH were found in the extracts of both the EFO-21 cell line (449 +/- 56 fmol/10(6) cells) and the EFO-27 line (409 +/- 76 fmol/10(6) cells). LHRH bioactivity of these extracts, assessed in terms of release of luteinizing hormone by rat pituitary cells, was comparable to that of authentic LHRH. EFO-21 and EFO-27 cells expressed the mRNAs for both human LHRH and human LHRH receptor as assessed by reverse transcriptase-PCR using oligonucleotide primers according to published sequences. In addition, in eight of eight biopsy samples of human epithelial ovarian cancers we detected mRNA for LHRH, six of these specimens expressed the mRNA representing the LHRH receptor. These data support the concept that human epithelial ovarian cancers might have a local system based on LHRH to regulate cell proliferation. It is still obscure at present whether LHRH produced locally has a stimulatory, inhibitory, or no impact on the proliferation of ovarian cancer cells. However, exogenous LHRH agonists seem to have clear antiproliferative activity, probably mediated through LHRH receptors. This finding might provide the base for novel approaches in the therapy of epithelial ovarian cancer.

Development of PCR primers for specific amplification of two distinct regions of the genomes of San Miguel sea-lion and vesicular exanthema of swine viruses

The San Miguel sea-lion viruses (SMSV) and vesicular exanthema of swine viruses (VESV) are members of the calicivirus family and aetiologic agents of vesicular disease in susceptible hosts. These two virus groups have been shown by several serological methods to be closely related antigenically. To further examine their relatedness, two sets of non-degenerate oligonucleotide primers were designed for the specific amplification of two distinct regions of the SMSV and VESV genomes using a reverse transcriptase-polymerase chain reaction (RT-PCR) protocol. The sequence of the primers were based on the nucleotide sequence of SMSV serotypes 1 and 4. The RNAs from a number of SMSV serotypes and a single VESV isolate were used as template in this study. These included SMSV serotypes 1, 2, 4, 5, 6, 7, 13 and 14 and VESV serotype A48. Also included in this study were Tillamook calicivirus (Bos-1 calicivirus, BCV) and a recently isolated skunk calicivirus (SCV). The first primer set amplified a 357-bp fragment from the 2C-like or RNA-helicase-encoding region (11 of 11 viruses) and the second set amplified a fragment from the RNA-dependent RNA polymerase region (520 bp, 9 of 11 viruses). These primer sets did not amplify product from either feline calicivirus or mink calicivirus. The results of this study demonstrate the genetic relatedness of SMSV and VESV and the potential usefulness of RT-PCR to detect and identify these viruses in diagnostic and routine screening applications.

Measurement of secretogranin II release from individual adenohypophysial gonadotropes

Secretogranin II (SG-II) is an acidic 86-kDa protein found in high abundance in the anterior pituitary gland. In the present studies, we investigated the secretion and the localization of SG-II using pituitary cells from female rats at all stages of the estrous cycle. Double immunofluorescence staining revealed that SG-II immunoreactivity was localized in low abundance in about half of all pituitary cells and in high abundance in all of the luteinizing hormone (LH)-immunoreactive cells (which represent approximately 5% of all pituitary cells). Using a reverse hemolytic plaque assay for measurement of SG-II release from individual pituitary cells in culture, we found that SG-II secretion was strongly stimulated by gonadotropin-releasing hormone in a dose-related fashion, and the amount of SG-II secretion was also related to the stage of the estrous cycle: it was highest at proestrus and lowest at estrus. SG-II plaque assay followed by LH immunofluorescence staining further revealed that all the SG-II-secreting cells contained LH immunoreactivity. At proestrus all the LH-immunoreactive cells secreted SG-II, whereas another days of the estrous cycle only a fraction of them did so. Thus our findings demonstrate a striking resemblance between SG-II and LH with regard to cell localization and secretory regulation.

The human gonadotropin-releasing hormone receptor gene (GNRHR) maps to chromosome band 4q13

A cDNA representing the high-affinity gonadotropin-releasing hormone (GnRH) receptor has been molecularly cloned from the human pituitary gland, a breast tumor cell line (MCF 7), and an ovarian tumor. The nucleotide sequence of this cDNA was determined, and its expression in various human tumors and tumor cell lines was demonstrated. In this study, we localized the gene encoding the GnRH receptor to human chromosome 4, using polymerase chain reaction (PCR) analysis of genomic DNA from human x hamster somatic cell hybrids. The gene was sublocalized to chromosome band 4q13 using fluorescence in situ hybridization with the GnRH receptor gene (GNRHR).

Capsid protein gene sequence of feline calicivirus isolates 255 and LLK: further evidence for capsid protein configuration among feline caliciviruses

The capsid protein gene sequences are reported for two feline calicivirus (FCV) isolates, one a highly virulent isolate associated with respiratory disease, designated 255, and an isolate associated with neuromuscular disorders, designated LLK. Both capsid protein sequences conform to a previously described hypothesis wherein FCV capsid proteins may be divided into six regions based on sequence similarity among isolates. Region A corresponds to the amino-terminal area of the protein that is theoretically cleaved to produce the functional species. With a large area of sequence identity among isolates, region B contains a potential myristilated glycine and a putative ATP/GTP binding site. Region C is a short hypervariable sequence of unknown function followed by another conserved area designated region D. The E region is an area of extensive amino acid sequence hypervariability that presumably contains the antigenic determinants of the capsid protein. Region F contains the highly conserved carboxy-terminal portion of the protein.

The nucleotide sequences of human GnRH receptors in breast and ovarian tumors are identical with that found in pituitary

Inhibition of the growth of hormone related human tumor cells in vitro by GnRH agonists and antagonists suggests a direct effect on cell growth and proliferation, and this effect may be achieved through its receptors present in tumor cells. However, the nature of the GnRH receptors present in these tumors is controversial. To determine the molecular characteristics of GnRH receptors in such tumors, we used the reverse transcriptase/polymerase chain reaction (RT/PCR) technique to clone these receptors. Primers were selected from the human pituitary GnRH receptor cDNA sequence to amplify the open reading frame and parts of its 5' and 3'-untranslated sequences. Nucleotide sequencing of the GnRH receptor cDNAs from a breast tumor cell line (MCF-7) and from an ovarian tumor showed identity with that of the human pituitary GnRH receptor which binds GnRH with high affinity. GnRH receptor mRNA was found to be expressed in human pituitary, breast, breast tumor, ovary, ovarian tumor, prostate, prostate tumor and in breast tumor cell lines (MCF-7 and MDA-MB 468) and prostate tumor cell lines (PC-3 and LNCaP). These findings demonstrate that a mRNA representing the pituitary form of the GnRH receptor (which shows high affinity binding with GnRH) is also expressed in certain normal tissues and in hormone related human tumors and tumor cell lines derived from them.

Predicted stem-loop structures and variation in nucleotide sequence of 3' noncoding regions among animal calicivirus genomes

Caliciviruses are nonenveloped with a polyadenylated genome of approximately 7.6 kb and a single capsid protein. The "RNA Fold" computer program was used to analyze 3'-terminal noncoding sequences of five feline calicivirus (FCV), rabbit hemorrhagic disease virus (RHDV), and two San Miguel sea lion virus (SMSV) isolates. The FCV 3'-terminal sequences are 40-46 nucleotides in length and 72-91% similar. The FCV sequences were predicted to contain two possible duplex structures and one stem-loop structure with free energies of -2.1 to -18.2 kcal/mole. The RHDV genomic 3'-terminal RNA sequences are 54 nucleotides in length and share 49% sequence similarity to homologous regions of the FCV genome. The RHDV sequence was predicted to form two duplex structures in the 3'-terminal noncoding region with a single stem-loop structure, resembling that of FCV. In contrast, the SMSV 1 and 4 genomic 3'-terminal noncoding sequences were 185 and 182 nucleotides in length, respectively. Ten possible duplex structures were predicted with an average structural free energy of -35 kcal/mole. Sequence similarity between the two SMSV isolates was 75%. Furthermore, extensive cloverleaflike structures are predicted in the 3' noncoding region of the SMSV genome, in contrast to the predicted single stem-loop structures of FCV or RHDV.

Extreme evolutionary conservation of QM, a novel c-Jun associated transcription factor

QM is a 214 amino acid polypeptide, encoded by a gene (DXS648) in Xq28, that contains a high percentage of charged amino acids and has been found to bind c-Jun and DNA. Searches of the GenBank database revealed no matches between QM and any other known transcription factors. However, we and others have isolated QM homologs from a diverse array of eukaryotes. Alignment of these sequences indicated a high degree of conservation throughout the first 175 residues of the protein and revealed several interesting features. Most notable is the considerable conservation of charged amino acids within specific regions of the protein. Secondary structure analysis suggests that two of these regions form amphipathic alpha-helices, one basic and one acidic. A third conserved charged domain, comprising the N-terminal 30 amino acids, is both basic and proline rich. The rate of sequence divergence of the various homologs was found to be slow (of the order of 1% change every 22 million years), consistent with a critical role for QM in eukaryotic cells. A role for QM as a novel class of transcription regulatory protein is suggested.

Rat gonadotropin-releasing hormone (GnRH) receptor: tissue expression and hormonal regulation of its mRNA

The binding of gonadotropin-releasing hormone (GnRH) to its receptor in the anterior pituitary gland is the key molecular interaction regulating the reproductive process of mammals. Here, we report the isolation of a cDNA representing this receptor from rat anterior pituitary and the regulation of expression of its mRNA. The rat GnRH receptor cDNA was composed of 2909 nucleotides and encoded a protein containing 327 amino acids having a seven transmembrane topology. Northern blot analysis on RNA from rat pituitary, ovary and testis showed four different transcripts (5.0, 4.5, 2.5 and 1.3 kb) of which the 5.0 kb form was most abundant. The levels of expression of the transcripts were found to be highest in the pituitary followed by the ovary and the testis (about 40% and 5% compared to pituitary, respectively). Using the more sensitive reverse transcriptase/PCR technique, we also detected GnRH receptor mRNA in the adrenal and the hypothalamus. Measurement of pituitary GnRH receptor mRNA levels (the 5.0 kb form) during the estrous cycle showed the lowest levels at estrus (1.0-fold), a 2.2 +/- 0.57 (mean +/- SEM) -fold increase at diestrus I, a 3.5 +/- 0.41-fold increase at diestrus II, a 2.6 +/- 0.34-fold increase on the morning of proestrus, and a 1.9 +/- 0.25-fold on the afternoon of proestrus. Removal of the ovaries led to a 2.7 +/- 0.29-fold increase in GnRH receptor mRNA levels in the pituitary gland; treatment of ovariectomized rats with estrogen resulted in a significant decrease in GnRH receptor mRNA levels. Our studies demonstrate ovarian regulation of GnRH receptor mRNA expression in the anterior pituitary gland.

Molecular cloning, sequencing, and characterizing the bovine receptor for gonadotropin releasing hormone (GnRH)

Receptors for gonadotropin releasing hormone (GnRH), located in the cell membranes of adeno-hypophysial gonadotropes, mediate the action of GnRH to stimulate the secretion of the gonadotropic hormones (LH and FSH). In the present studies, we have isolated a GnRH receptor cDNA from bovine pituitary, determined its primary structure, and studied the regulation of its gene expression. The cDNA is composed of 1326 nucleotides and encodes a protein containing 328 amino acids. The GnRH receptor of cattle, like that in humans and mice, is a seven transmembrane receptor and has structural characteristics homologous with the family of G protein-coupled receptors. It exhibits 91% identity at the amino acid level with the human and 86% identity with mouse and rat receptors. Northern blot analysis of the RNA from bovine pituitary, probed with 32P-labeled bovine GnRH receptor cDNA, revealed the presence of four different transcripts (5.0, 3.5, 2.5 and 1.5 kb) in the pituitary of which the 5.0 kb form was most abundant. Using the reverse transcriptase/PCR technique, we detected expression of GnRH receptor mRNA in the pituitary but not in any other extrapituitary tissues such as the hypothalamus, hippocampus, testis, corpus luteum, ovary (containing follicles), myoendometrium, adrenal, kidney, liver and spleen. Higher levels of GnRH receptor mRNA were found in the pituitaries of steers than in cohort bulls, suggesting regulation of GnRH receptor gene expression by testicular steroids.

Regulation of expression of secretogranin II mRNA in female rat pituitary and hypothalamus

Secretogranin II (SgII) is an acidic 86-kD protein which is synthesized by most neuroendocrine cells but occurs in greatest abundance in the anterior pituitary gland where it is localized primarily in gonadotrophs. In the present studies, we investigated the regulation of SgII mRNA expression in the anterior pituitary gland by estrogens and gonadotropin-releasing hormone (GnRH) and compared the results to luteinizing hormone beta-subunit (LH beta) mRNA expression. Molecular cloning and nucleotide sequence analysis of a rat pituitary SgII cDNA revealed a derived amino acid sequence identical with that previously reported for the rat adrenal. Not previously reported were five putative nuclear localization signals, four of which coincided with dibasic residues previously thought to serve as proteolytic cleavage sites. In Northern blots, SgII mRNA was found in high abundance in the anterior pituitary gland, in moderate abundance in the brain and adrenal, and in low abundance in the ovary and testis. Measurements of pituitary SgII mRNA during the rat 4-day estrous cycle revealed an inverse relationship with LH beta mRNA: SgII mRNA decreased, whereas LH beta mRNA increased as the cycle progressed. Increases in pituitary SgII mRNA and LH beta mRNA levels occurred after ovariectomy, and decreases occurred after estrogen treatment of such animals. Likewise, pituitary SgII mRNA and LH beta mRNA levels decreased after treatment of ovariectomized animals with a GnRH antagonist. In contrast, ovariectomy significantly decreased SgII mRNA levels in the hypothalamus, and estrogen treatment increased its levels. Our studies reveal that ovarian estrogens and hypothalamic GnRH exert similar effects on SgII mRNA and LH beta mRNA expression in the pituitary. However, since their expression is inverse during the rat estrous cycle, other unidentified regulatory factors with differential effects on their expression may intervene in the regulation of SgII and LH beta mRNA levels.