Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

When [35S]cysteine was injected adjacent to the supraoptic nucleus (SON) in rats, it was rapidly incorporated into proteins in the SON. The [35S]cysteine-labeled proteins extracted from the SON were separated by isoelectric focusing on polyacrylamide gels. Twenty minutes after the injection of [35S]cysteine, two major labeled peaks (pI = 5.4 and 6.1) were found in the SON of normal rats; Brattleboro rats had only one major labeled peak (pI = 5.4). One hour after the injection, four major radioactive peaks were found in the SON of normal animals (pI = 5.1, 5.4, 5.6, and 6.1). Animals with diabetes insipidus had only two major labeled proteins (pI = 5.1 AND 5.4). Twenty-four hours after normal rats were injected with [35S]cysteine, all of the labeled peaks described above, except for the one with pI = 5.1, had decreased markedly in size and a small amount of labeled protein with pI about 4.8 was present in the SON. After 24 hr the posterior pituitary of normal animals contained two [35S]cysteine-labeled proteins with pI = 4.6 AND 4.8. The pituitaries of Brattleboro rats had only the pI = 4.6 labeled protein. These pulse-chase data, with data we have presented elsewhere, indicate that the vasopressin- and oxytocin-neurophysins are synthesized as parts of separate precursors (pI = 6.1 and 5.4, respectively). These precursors are converted into at least two intermediates (pI = 5.6 and 5.1) which, in turn, yield the vasopressin-neurophysin (pI = 4.8) and the oxytocin-neurophysin (pI = 4.6).
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PMID:Neurophysin biosynthesis in normal rats and in rats with hereditary diabetes insipidus. 26 51

The biosynthetic origin of the 10,000 molecular weight neurophysins, carriers of the peptide hormones oxytocin and vasopressin, has been studied by cell-free synthesis, Poly(A)-RNA was isolated from bovine hypothalamus and translated in a wheat germ system containing (35)S- or (3)H-labeled amino acids. A number of unique [(35)S]cysteine- but few [(35)S]-methionine-labeled proteins were coded by hypothalamic mRNA. A single, major, isotopically labeled protein (molecular weight 23,000-25,000) was immunoprecipitated from these translation mixtures by addition of purified antibodies against bovine neurophysin II and subsequent addition of Cowan I strain of Staphylococcus aureus. Specificity of the immunoprecipitation was demonstrated by competition with unlabeled authentic neurophysins and the absence of competition with structurally unrelated ovalbumin. Furthermore, neither nonimmune serum nor purified antibodies against ribonuclease immunoprecipitated the protein. The [(35)S]cysteine-labeled protein that was specifically immunoprecipitated was oxidized with performic acid and digested with trypsin in the presence of unlabeled, authentic bovine neurophysin II. Peptide mapping revealed that most of the major [(35)S]cysteine-labeled peptides (of the translation product) were identical to major cysteine-containing peptides of authentic neurophysin. The data show that hypothalamic mRNA directs the translation of several unique cysteine-rich proteins in an in vitro cell-free system. Furthermore, one of these proteins, which has a higher molecular weight than authentic neurophysin, is recognized by purified antibodies to bovine neurophysin II and has cysteine-containing tryptic peptides in common with those of authentic neurophysin. The data suggest that this protein is the primary translation product, pre-pro-neurophysin.
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PMID:Immunological and chemical identification of a neurophysin-containing protein coded by messenger RNA from bovine hypothalamus. 29 Oct 40

Although the hypothesis that vasopressin and its associated neurophysin are synthesized together in one macromolecular common precursor was put forward more than a decade ago, direct conformation of this hypothesis has been lacking. A [35S]cysteine-labeled putative precursor for vasopressin-related neurophysin (Mr 20,000, pI 6.1) has been isolated from the supraoptic nuclei of rats. This precursor was subjected to limited proteolysis with trypsin which produced a Mr 10,000 protein and peptide products. The former was identified as neurophysin on the basis of its pH-dependent affinity for vasopressin and its behavior in isoelectric focusing systems (pI 4.6-4.8). The tryptic peptides proved to be vasopressin-like because they: (i) were rich in cysteine, (ii) comigrated with vasopressin on gel filtration columns in 6 M guanidine HCl, (iii) bound to a neurophysin-Sepharose affinity column at pH 5.7, and (iv) were recognized by antibodies against vasopressin. These data on the Mr 20,000, pI 6.1 protein represent direct experimental evidence for a candidate for the common precursor of vasopressin and neurophysin. We propose that this common precursor be called "propressophysin."
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PMID:Trypsin liberates an arginine vasopressin-like peptide and neurophysin from a Mr 20,000 putative common precursor. 29 5

Chicken posterior pituitary tissue was partially fractionated by extraction with 0.1 M HCl followed by gel exclusion chromatography. Two fractions, B and C, bound oxytocin. Two components of fraction B and at least 1 component of fraction C had properties characteristic of mammalian neurophysins: they appeared to be synthesized in the hypothalamus, were depleted upon osmotic stress, were rich in residues of cysteine and the 2 components of B bound to [8-lysinel]-vasopressin coupled to Sepharose.
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PMID:Identification of neurophysin-like proteins in the posterior pituitary gland of the chicken (Gallus domesticus). 43 72

The neural lobe of the golden hamster contains one major and two minor proteins. The major protein was identified as a neurophysin in view of its electrophoretic properties, its high cysteine content and its depletion from the neural lobe upon saline imbibition. The depletion of neurophysin and vasopressin from the neural lobe and the alterations of several indices of dehydration in the blood of the hamster were less than those found in the rat upon saline imbibition, suggesting that the hamster has a greater ability to adapt to conditions in which water is scarce.
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PMID:Neurophysin(s) of the golden hamster (Mesocricetus auratus) and the effects of saline imbibition. 62 16

35S-cysteine injected adjacent to the supraoptic nucleus (SON) of the rat is rapidly incorporated into proteins. These 35S-cysteine-labeled proteins in the SON (1-24 h after injection) were separated by polyacrylamide gel electrophoresis, and the distribution of radioactive proteins on the gels was analyzed. 1 h after injection, about 73% of the radioactivity appeared in two peaks (both about 20,000 mol wt). With time, these peaks (putative precursors of neurophysin) decreased, as a 12,000 mol wt peak (containing two distinct neurophysins) increased in radioactivity. Both the 20,000- and 12,000-mol wt proteins are transported into the axonal (median eminence) and nerve terminal (posterior pituitary) regions of the rat hypothalamo-neurohypophysial system. Conversion of the larger precursor protein to the smaller neurophysin appears to occur, in large part, intra-axonally during axonal transport. Six distinct 35S-cysteine-labeled peptides (less than 2500 mol wt), in addition to arginine vasopressin and oxytocin, are also synthesized in the SON and transported to the posterior pituitary where they are released together with labeled neurophysin by potassium depolarization in the presence of extracellular calcium. These data provide support for the hypothesis that the neurohypophysial peptides (vasopressin and oxytocin) and neurophysins are derived from the post-translational clevage of protein precursors synthesized in the SON, and that the conversion process can occur in the neurosecretory granule during axonal transport.
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PMID:Biosynthesis and axonal transport of rat neurohypophysial proteins and peptides. 85 41

The pre- and post-Golgi processing of preprovasopressin and prepro-oxytocin was evaluated by microsequencing for incorporated radiolabel. 35S-Cysteine and 3H-fucose were microinjected into rat supraoptic nuclei (SON), and proteins and peptides related to the biosynthesis of vasopressin (VP) and oxytocin (OT) were isolated at various times from the supraoptic nuclei and neural lobe by employing a one-step procedure of high performance liquid chromatography (HPLC). These proteins and peptides were recognized through their binding to specific antibodies against VP, OT, and rat neurophysins (RNPs), and by their binding to ConA-Sepharose. Two immunoreactive glycoproteins related to VP biosynthesis were recovered from the SON and both contained fucose and had a 35S-cysteine placement consistent with the location of the hormone sequence at the N-terminus. SDS-electrophoresis revealed the major protein form to be 21,000 daltons and the minor protein form to be 19,000 daltons. One nonglycosylated protein of 16,000 daltons related to oxytocin biosynthesis was recovered from the SON, and this protein also had a 35S-cysteine placement consistent with an N-terminal OT sequence. These data provide the first sequential evidence that prior to, or shortly after, packaging in the Golgi the preprohormones of VP and OT have lost their entire leader-peptide structures.
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PMID:Single-step isolation and sequencing of vasopressin and oxytocin precursors. 140 17

Although the nonapeptide hormones vasopressin, oxytocin, and related peptides from vertebrates and some nonapeptides from invertebrates share similarities in amino acid sequence, their evolutionary relationships are not clear. To investigate this issue, we cloned a cDNA encoding a vasopressin-related peptide, Lys-conopressin, produced in the central nervous system of the gastropod mollusc Lymnaea stagnalis. The predicted preproconopressin has the overall architecture of vertebrate preprovasopressin, with a signal peptide, Lys-conopressin, that is flanked at the C terminus by an amidation signal and a pair of basic residues, followed by a neurophysin domain. The Lymnaea neurophysin and the vertebrate neurophysins share high sequence identity, which includes the conservation of all 14 cysteine residues. In addition, the Lymnaea neurophysin possesses unique structural characteristics. It contains a putative N-linked glycosylation site at a position in the vertebrate neurophysins where a strictly conserved tyrosine residue, which plays an essential role in binding of the nonapeptide hormones, is found. The C-terminal copeptin homologous extension of the Lymnaea neurophysin has low sequence identity with the vertebrate counterparts and is probably not cleaved from the prohormone, as are the mammalian copeptins. The conopressin gene is expressed in only a few neurons in both pedal ganglia of the central nervous system. The conopressin transcript is present in two sizes, due to alternative use of polyadenylylation signals. The data presented here demonstrate that the typical organization of the prohormones of the vasopressin/oxytocin superfamily must have been present in the common ancestors of vertebrates and invertebrates.
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PMID:Evolution of the vasopressin/oxytocin superfamily: characterization of a cDNA encoding a vasopressin-related precursor, preproconopressin, from the mollusc Lymnaea stagnalis. 158 95

Our present work characterized the role of hormone-mediated signal transduction pathways in regulating hepatic reduced glutathione (GSH) synthesis. Cholera toxin, dibutyryl cAMP (DBcAMP), and glucagon inhibited GSH synthesis in cultured hepatocytes by 25-43%. Cellular cAMP levels exhibited a lower threshold for stimulation of the GSH efflux than inhibition of its synthesis. The effect of DBcAMP was independent of the type of sulfur amino acid precursor and cellular ATP levels and unassociated with increased GSH mixed disulfide formation or altered GSH/oxidized glutathione ratio. In liver cytosols, addition of DBcAMP and cAMP-dependent protein kinase (A-kinase) inhibited GSH synthesis from substrates (cysteine, ATP, glutamate, and glycine) by approximately 20% which was prevented by the A-kinase inhibitor. However, if only substrates of the second step in GSH synthesis were used (gamma-glutamylcysteine, glycine, and ATP), DBcAMP and A-kinase exerted no inhibitory effect. Phenylephrine, vasopressin, and phorbol ester also inhibited GSH synthesis in cultured cells by approximately 20%, and depleted cell GSH independent of the type of sulfur amino acid precursor. Cellular cysteine level was unchanged despite the significant fall in GSH after glucagon or phenylephrine treatment. Pretreatment with either staurosporine, C-kinase inhibitor, or calmidazolium, a calmodulin inhibitor, partially prevented but, together, completely prevented the inhibitory effect of phenylephrine. The same combination had no effect on the inhibitory effect of glucagon. The effects of hormones were confirmed in both the intact perfused liver and after in vivo administration. Thus, two classes of hormones acting through distinct signal transduction pathways may down-regulate hepatic GSH synthesis by phosphorylation of gamma-glutamylcysteine synthetase.
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PMID:Hormone-mediated down-regulation of hepatic glutathione synthesis in the rat. 164 17

An endopeptidase was isolated from Xenopus laevis skin secretions. This enzyme, which has an apparent molecular mass of 100 kDa, performs a selective cleavage at the Xaa-Phe, Xaa-Leu, or Xaa-Ile bond (Xaa = Ser, Phe, Tyr, His, or Gly) of a number of peptide hormones, including atrial natriuretic factor, substance P, angiotensin II, bradykinin, somatostatin, neuromedins B and C, and litorin. The peptidase exhibited optimal activity at pH 7.5 and a Km in the micromolar range. No cleavage was produced in vasopressin, ocytocin, minigastrin I, and [Leu5]enkephalin, which include in their sequence an Xaa-Phe, Xaa-Leu, or Xaa-Ile motif. The endopeptidase activity was inhibited by divalent cation chelators and by phosphoramidon only at high concentrations (IC50 = 50 microM), whereas it was insensitive to classical inhibitors of chymotrypsin, angiotensin convertase, and serine and cysteine peptidases, as well as carboxypeptidases. It is hypothesized that this enzyme, which is distinct from neutral endopeptidase (EC 3.4.24.11), constitutes the prototype of a family of related metalloendopeptidases that inactivate peptide substrates by cleavage at the Xaa-Phe, Xaa-Leu, or Xaa-Ile bond.
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PMID:A peptide-hormone-inactivating endopeptidase in Xenopus laevis skin secretion. 172 23


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