UNIPROT:P01185 - FACTA Search

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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The precursor of ACTH and beta-LPH is a glycoprotein with a molecular weight of more than 30 000. Its gene consists of three exons with two intervening sequences and most of the protein coding sequence is in exon 3. The gene is expressed not only in the pituitary gland but also in extrapituitary tissues. The gene expression in the anterior pituitary gland is regulated by CRF and glucocorticoids, but it is regulated differently in other tissues. The processing of the ACTH/beta-LPH precursor yields several peptides, but final products vary in tissues due to differential processing. The processing is abnormal in ACTH-producing tumours, especially in ectopic ACTH-producing tumours. Some abnormalities may also occur at the transcriptional or post-transcriptional level as well. Peptides derived from the same precursor are secreted concomitantly from the pituitary gland. CRF is the major stimulating factor, but vasopressin and some other factors are also involved in stimulating ACTH release. On the other hand, glucocorticoids inhibit ACTH release by acting at the hypothalamic and pituitary levels. In the pituitary ACTH-producing adenomas of Cushing's disease, CRF, vasopressin as well as other non-physiological factors stimulate ACTH secretion. Such abnormal receptor mechanisms are also seen in ectopic ACTH-producing tumours.
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PMID:ACTH and related peptides: molecular biology, biochemistry and regulation of secretion. 286 40

The V1 vasopressin receptor has been solubilized from rat liver membranes with the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammoniol]-1-propanesulfonate (CHAPS) and reconstituted into phospholipid vesicles. There is essentially complete solubilization of the receptor by 3% CHAPS at a protein concentration of 15 mg/ml. Reconstitution into soybean phospholipid vesicles is readily achieved either by gel filtration chromatography or by membrane dialysis. The binding of [3H]vasopressin to proteoliposomes is specific, saturable, reversible, and magnesium-dependent. In contrast, the detergent-soluble vasopressin receptor does not display specific binding. The apparent affinity of the reconstituted receptor for [3H]vasopressin is approximately 4-fold lower than that of the receptor in native membranes. In addition, the binding of [3H]vasopressin to reconstituted vesicles is not sensitive to 100 microM guanosine 5'-O-thiotriphosphate (GTP gamma S) as it is in native membranes. However, the apparent affinity of the reconstituted receptor for ligand approximates that of native membranes when membranes are prebound with vasopressin prior to solubilization and reconstitution into vesicles. Furthermore, vesicles reconstituted from membranes prebound with vasopressin show GTP gamma S sensitivity of [3H] vasopressin binding. This finding strongly suggests that vasopressin stabilizes a receptor-G-protein complex during solubilization. The rat liver vasopressin receptor is a glycoprotein, as shown by its specific binding to the lectin "wheat germ agglutinin." The vasopressin receptor can be reconstituted from the N-acetylglucosamine-eluted peak of a wheat germ agglutinin-Sepharose column, and [3H] vasopressin binding activity is purified 5-6-fold from membranes by this chromatographic procedure. The functionality of the partially purified receptor is indicated by its ability to bind ligand with high affinity and by its ability to functionally interact with a G-protein when vasopressin is bound prior to solubilization.
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PMID:Reconstitution of the rat liver vasopressin receptor coupled to guanine nucleotide-binding proteins. 295 55

Glycoconjugates were localized by light microscopy with lectin-peroxidase conjugates and by electron microscopy with the periodic acid-thiocarbohydrazide-silver proteinate (PA-TCH-SP) sequence in immunocytochemically or morphologically identified cell types in rat pituitary. Lectin histochemistry demonstrated sialic acid and glycoconjugates with N-glycosidically linked oligosaccharides in gonadotrophs, thyrotrophs, and corticotrophs. Galactose penultimate to sialic acid was observed mostly in gonadotrophs. The terminal galactose-N-acetylgalactosamine disaccharide was detected in a few gonadotrophs and in a moderate number of mammotrophs. Fucose was localized in only corticotrophs with two fucose-binding lectins and in thyrotrophs with another. Several different monosaccharides were seen in glycoconjugates in melanotrophs and in Herring bodies. Melanotrophs displayed heterogeneous staining with fucose-binding lectins. A small number of nonsecretory cells were also visualized in the pars distalis by virtue of their glycogen content. PA-TCH-SP staining revealed complex carbohydrates in secretory granules and some Golgi cisternae in all types of hormone-producing cells in the pars distalis except for the somatotrophs. Melanotrophs of pars intermedia exhibited stained secretory granules and irregular dense bodies containing a stained meshwork. Corticotrophs of the pars distalis lacked the latter bodies, although they form the same glycoprotein precursor hormone as melanotrophs. Lectin conjugates and the PA-TCH-SP sequence stained some groups of secretion granules in Herring bodies, possibly representing vasopressin-containing granules as well as other cell types in the pars nervosa.
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PMID:Glycoconjugate localization with lectin and PA-TCH-SP cytochemistry in rat hypophysis. 299 73

Two tetrapeptide sequence homologies between mouse epidermal growth factor precursor (mEGFP) and human follitropin (FSH) were revealed by a computer program that identifies identical residues among polypeptide sequences. The two tetrapeptides, Lys-Thr-Cys-Thr (KTCT) and Thr-Arg-Asp-Leu (TRDL), are present in the hormone-specific beta subunit of FSH from all species studied. These tetrapeptides are not present in the alpha subunit, which is common to all pituitary glycoprotein hormones. Both tetrapeptides are also found in mEGFP, and one tetrapeptide, TRDL, is located within the 53-residue form of mEGF purified from mouse submaxillary glands. Computer-generated hydropathy profiles predicted that both tetrapeptides are located in hydrophilic portions of the FSH beta subunit and that TRDL is in a hydrophilic portion of commercially available mEGF. Therefore, the tetrapeptides might be accessible to receptor binding sites for FSH. We report that mEGF inhibits binding of 125I-labeled human FSH to receptors in testis by 50% (I50) at a concentration of 1.8 X 10(-5) M. No binding inhibition was observed by GnRH or arginine-vasopressin at 10(-4) M, neither of which contain the tetrapeptide sequences. FSH beta subunit, which contains both tetrapeptides, also inhibited binding (I50 = 9 X 10(-8) M) of 125I-labeled human FSH to testis receptor. Thus, it appears that FSH beta subunit and mEGF are capable of inhibiting binding of FSH to testicular FSH receptors, presumably through interactions that include the homologous tetrapeptides. This presumption was supported by the observation that the synthetic tetrapeptides (KTCT or TRDL) were also active in inhibiting binding of 125I-labeled human FSH to testis receptor.
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PMID:Inhibition of iodine-125-labeled human follitropin binding to testicular receptor by epidermal growth factor and synthetic peptides. 301 10

The neuropeptides arginine vasopressin and oxytocin are generated from their prohormones in the hypothalamoneurohypophysial system by enzymatic cleavages at paired basic residues (i.e. Lys-Arg). This study describes the purification of an enzyme from bovine neural lobe secretory vesicles, the putative site of this processing, which is capable of cleaving several prohormones at paired basic residues. The enzyme is a glycoprotein of Mr approximately 70,000 and has an acidic pH maximum. It processes the heterologous precursors pro-opiomelanocortin and insulin at paired basic residues in a manner similar to a pro-opiomelanocortin-converting enzyme derived from bovine intermediate lobe secretory vesicles which has been described previously. In addition, the neural lobe-derived converting enzyme cleaves the human vasopressin prohormone in vitro to yield arginine vasopressin-Gly10-Lys11-Arg12 as the major vasopressin cleavage product. This indicates that the enzymatic cleavage in the vasopressin precursor occurred primarily on the carboxyl side of the arginine in the pair of Lys-Arg basic residues separating the vasopressin peptide from the neurophysin moiety in the precursor. The properties of the neural and intermediate lobe-derived enzymes are virtually identical, raising the possibility that a family of similar enzymes may be responsible for cleaving a number of prohormones at paired basic residues in different tissues.
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PMID:Purification and characterization of a paired basic residue-specific prohormone-converting enzyme from bovine pituitary neural lobe secretory vesicles. 302 39

The primary structures of the precursors of neurohypophysial hormones vasotocin (VT) and mesotocin (MT) in the hypothalamus of the toad Bufo japonicus were determined by analyzing the nucleotide sequences of the cloned cDNAs encoding them. The MT precursor consists of 125 amino acid residues containing a signal peptide followed directly by MT, which in turn is connected to the MT neurophysin by Gly-Lys-Arg, a processing and carboxyl-terminal amidation signal. In contrast, the VT precursor includes a glycoprotein of 36 amino acids following the VT neurophysin. Except for glycoprotein, the structures of MT and VT precursors are quite similar. RNA transfer blotting analysis showed that both MT and VT mRNAs are present in the brain but not in the liver, ovaries, and testes of the toad. The sequences and the structural organizations of the MT and VT precursors are highly homologous to those of their mammalian counterparts, oxytocin and arginine vasopressin precursors, respectively. This fact suggests that, in the evolutionary pathway of neurohypophysial hormones, VT is the ancestor molecule of vasopressin, while MT is that of oxytocin.
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PMID:Cloning and sequence analysis of cDNAs for neurohypophysial hormones vasotocin and mesotocin for the hypothalamus of toad, Bufo japonicus. 303 76

In situ hybridization provides a method for identifying cells that contain specific nucleic acid sequences. This report outlines an in situ hybridization procedure for mammalian neural tissue. The method maintains morphological quality and produces excellent specificity. Seven tritiated nucleic acid probes were examined: two ribosomal RNA probes, a control pBR322 plasmid probe, two probes encoding portions of the gene for oxytocin, one probe each encoding a portion of vasopressin glycoprotein, and neurophysin. Using cryostat-cut rat brain sections, rRNA probes labeled the cytoplasm of all cells and the nucleoli of larger neurons. The plasmid probe failed to produce a strong signal. Oxytocin and vasopressin probes appropriately labeled the cytoplasm of hypothalamic magnocellular neurons. Vasopressin parvocellular neurons were not identified by the current method, and the shorter length neurophysin probe failed to produce a signal. Methodological variables were examined by counting autoradiographic grains in cells. The longer oxytocin probe produced a stronger signal than the shorter oxytocin and vasopressin probes, and higher probe concentrations resulted in stronger signal. Hybridization could be abolished by tissue pretreatment with RNAse A, and longer exposure time increased signal strength. The outlined fixation steps with fresh-frozen tissue produced a superior signal compared to paraformaldehyde-perfused tissue.
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PMID:In situ hybridization technique to localize rRNA and mRNA in mammalian neurons. 394 Dec 65

To determine whether propressophysin (vasopressin-neurophysin precursor) is present in human plasma, the nature of the immunoreactive neurophysin was characterized by gel filtration. When plasma samples obtained from six patients with the syndrome of inappropriate antidiuretic hormone secretion due to central nervous system disease were fractionated on a column of Sephadex G-50 in 0.2 N acetic acid, virtually all of the nicotine-stimulated neurophysin (NSN) immunoreactivity coeluted with 125I-labeled NSN. In contrast, gel filtration of plasma from six patients with oat cell carcinoma of the lung with ectopic vasopressin production consistently demonstrated, in addition, a peak of a higher molecular weight (HMW) form of neurophysin. This HMW neurophysin represented 8.7-29.4% of the total NSN immunoreactivity in plasma and its elution profile was not changed when chromatographed after incubation in 6 M urea. On sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the HMW neurophysin ran in the 20,000-dalton area of the gel. A substantial portion of the HMW neurophysin appeared to be a glycoprotein judging from its binding to Concanavalin A. When the HMW neurophysin was incubated with trypsin, most of the immunoreactivity was converted into a smaller neurophysin which bound to a vasopressin-agarose column in a pH-dependent manner. Moreover, a definite peak of immunoreactive vasopressin appeared after the trypsin treatment. This peak coeluted with synthetic arginine vasopressin on gel filtration and had the characteristic affinity of vasopressin for neurophysin-agarose. These results indicate that propressophysin circulates in patients with oat cell carcinoma of the lung with ectopic vasopressin production and suggest that plasma propressophysin may be a marker for ectopic vasopressin production.
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PMID:Propressophysin in human blood: a possible marker of ectopic vasopressin production. 608 1

Continuous cell lines have been established from a variety of biopsy and postmortem species of tumor from patients with small-cell carcinoma of the lung (SCCL) and have been maintained over several years. The medium from the cultures has been assayed for peptide, glycoprotein, and steroid hormones. Significant amounts of 14 hormones including calcitonin, adrenocorticotropin (ACTH), parathormone, luteinizing hormone, chorionic gonadotropin, glucagon, growth hormone, somatostatin, prolactin, beta-endorpin, lipotropin, oxytocin-neurophysin, vasopressin-neurophysin, and estradiol have been demonstrated. Up to ten different hormones have been produced by a single cell line. Most produce ACTH and all evaluated so far produce estradiol. These studies indicate that cells from SCCL have a potential for producing a wide variety of hormones and that this characteristic can be maintained for prolonged periods of culture in vitro.
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PMID:Hormone production by cultures of small-cell carcinoma of the lung. 626 22

In an attempt to delineate the nature of the immunoreactive neurophysins in oat cell carcinomas of the lung with ectopic vasopressin production, tumor neurophysins were characterized by gel filtration and by electrophoresis. In all of the five tumor tissues, activities of both vasopressin and nicotine-stimulated neurophysin (NSN) determined by radioimmunoassay were demonstrated. A small amount of oxytocin as well as estrogen-stimulated neurophysin was detected in three of the tissues. When tissue extract was subjected to Sephadex G-50 gel filtration in 0.2 N acetic acid, the major portion of immunoreactive NSN emerged in the fractions corresponding to the molecular size of 10,000. The migration pattern of NSN in these fractions on electrophoresis was qualitatively the same as that of NSN extracted from human posterior pituitary glands. In addition to this major neurophysin, immunoreactive NSN with the molecular size of 20,000 was consistently demonstrated in three tumor extracts. This high molecular weight form of neurophysin represented 6.5--8.7% of total NSN immunoactivities in each tumor extract and its elution profile was not changed when analyzed under denaturating conditions in 6 M guanidine hydrochloride. On electrophoresis, it migrated near the gamma globulin region; however, the peak was broad suggesting that it consists of more than two different molecular populations. A substantial portion of the high molecular weight NSN appears to be a glycoprotein judging from its binding to concanavalin A. When the high molecular weight from of neurophysin was incubated with trypsin, essentially all of the activities were converted into NSN with the molecular size of 10,000. Moreover, an equimolar amount of vasopressin was liberated after the treatment, the elution pattern of which closely resembled that of synthetic arginine vasopressin. When a lower concentration of trypsin was used, some of the 20,000-dalton neurophysin exhibited activities of both NSN and vasopressin. Since the antivasopressin serum used in this study appeared to be directed toward the ring portion side of vasopressin, these results suggest that this 20,000-dalton neurophysin is, in all probability, a common precursor to vasopressin and neurophysin, and that vasopressin may be located in the middle of the precursor molecule.
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PMID:Nature of the immunoreactive neurophysins in ectopic vasopressin-producing oat cell carcinomas of the lung. Demonstration of a putative common precursor to vasopressin and neurophysin. 626 3

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