Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01178 (oxytocin)
 15,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Goose VLDV-neurophysin (mesotocin-associated neurophysin) has been purified from posterior pituitary glands through molecular sieving on Sephadex G-75 and high-pressure reverse-phase liquid chromatography on Nucleosil C-18 columns. Despite apparent molecular mass of unreduced VLDV-neurophysin measured by polyacrylamide gel electrophoresis with sodium dodecylsulfate appeared near 17 kDa, this value fell to 11 kDa after reduction with mercaptoethanol, suggesting the existence of a homodimer. Complete amino acid sequence (93 residues) of goose VLDV-neurophysin has been determined. N- and C-terminal sequences of the protein have been established by Edman degradation (microsequencing) and use of carboxypeptidase Y, respectively. Peptides derived from oxidized or carboxamidomethylated neurophysin by trypsin or staphylococcal proteinase hydrolyses have been isolated by high-pressure liquid chromatography and microsequenced, allowing determination of the complete sequence. Comparison within the vertebrate VLDV-neurophysin lineage, namely goose VLDV-neurophysin to mammalian VLDV-neurophysins and to deduced toad VLDV-neurophysin, reveals a residue insertion between positions 66 and 67 in the nonmammalian VLDV-neurophysins. When goose MSEL-neurophysin (vasotocin-associated neurophysin) and goose VLDV-neurophysin are compared to their bovine counterparts, identical substitutions are found in positions 17 (Asn in both goose neurophysins instead of Gly in both ox neurophysins), 18 (Arg instead of Lys), 35 (Tyr instead of Phe), and 41 (Thr instead of Ala). Identity of the sequences 10-74 in both ox neurophysins has been explained by partial gene conversion between oxytocin and vasopressin genes, and identical substitutions in both goose neurophysins might reveal a similar gene conversion between mesotocin and vasopressin genes in birds.
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PMID:Complete amino acid sequence of goose VLDV-neurophysin. Traces of a putative gene conversion between promesotocin and provasotocin genes. 227 74

S-(2-Chloroethyl)glutathione (CEG), an alkylating agent formed by glutathione conjugation with 1,2-dichloroethane (DCE), is able to alkylate DNA and proteins. As a prelude to identification of specific protein alkylation sites, the peptide oxytocin was alkylated by CEG, and tandem mass spectrometry was used to identify the alkylation sites. It was found that mono-, bis-, and tris-adducts can result from alkylation of reduced oxytocin and that tandem mass spectrometry differentiated (S-[2-(Cys1)ethyl]glutathione)oxytocin (mono-adduct Cys-1) from (S-[2-(Cys1,6)ethyl]glutathione)oxytocin (mono-adduct Cys-6). Manual Edman degradation was used to eliminate the possibility that alkylation has occurred at Tyr-2 rather than at Cys-1 in the case of (S-[2-(Cys1,6)ethyl]glutathione)oxytocin (bis-adduct) and mono-adduct Cys-1. A mono-adduct homodimer resulting from alkylation at Cys-6 and disulfide bridge formation through Cys-1 was also identified. Oxidized oxytocin formed two minor adducts, representing less than 5% of the oxytocin present in the reaction mixture. These findings demonstrate that alkylation of oxytocin by the episulfonium ion of CEG did occur, as evidenced by tandem mass spectrometry, and that characterization of these adducts will aid in the identification of alkylated amino acids in proteins exposed to CEG.
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PMID:Alkylation of oxytocin by S-(2-chloroethyl)glutathione and characterization of adducts by tandem mass spectrometry and Edman degradation. 757 28

The orphan receptor chicken ovalbumin upstream promoter transcription factor I (COUP-TF I) fully prevented not only the activation of the oxytocin gene by retinoic acid and thyroid hormone but also completely repressed the estrogen-dependent stimulation in transfected P19 EC cells. DNase I footprinting showed that the COUP-TF I protein bound to the 5'-flanking region of the oxytocin gene at the site of the distal composite hormone response element, which mediates the responses to estrogen, retinoic acid, and thyroid hormone. Electrophoretic mobility shift assay using this composite hormone response element as probe showed that COUP-TF I and the estrogen receptor competed for binding but did not form a heterodimer. The binding by COUP-TF I was stronger than the binding of the estrogen receptor. Thus, the mechanism of repression involves occupancy of integrated binding sites. By mutagenesis of the composite hormone response element, the COUP-TF I binding site and the estrogen response element could be separated, resulting in functional dissociation of the repressive action of COUP-TF I and the induction by estrogen. The results show that repression of gene expression by COUP-TF I is not limited to receptors that act through heterodimerization but also extends to the homodimer-forming estrogen receptor in a context-dependent manner. This interaction between COUP-TF I and the estrogen receptor may provide a physiological mechanism of selective antagonism of gene regulation by estrogens.
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PMID:Repression of estrogen-dependent stimulation of the oxytocin gene by chicken ovalbumin upstream promoter transcription factor I. 819 42

Purification of a material immunoreactive to an antiserum against the C-terminal part of the oxytocin (Pro-Leu-Gly-amide) and present in the central nervous system of the Pharyngobdellid leech Erpobdella octoculata was performed by reversed-phase high performance liquid chromatography combined with both enzyme-linked immunosorbent and dot immunobinding assays for oxytocin. The amino acid sequence of the purified peptide (Ile-Pro-Glu-Pro-Tyr-Val-Trp-Asp) was established by Edman degradation and confirmed by electrospray mass spectrometry measurement. When injected in leeches, purified or synthetic peptides exert an anti-diuretic effect, the most effective ranged between 10 pmol and 1 nmol. They provoked an uptake of water 1-2 h post-injection. Furthermore, electrophysiological experiments conducted in the leech Hirudo medicinalis revealed an inhibition of the potency of Na+ conductances of leech skin by this peptide. Immunocytochemical studies with an antiserum against synthetic oxytocin-like molecule provided the cytological basis for existence of a neuropeptide, since large amounts of immunoreactive neurons were detected in the central nervous systems of E. octoculata. The purified molecule is both different to peptides of the oxytocin/vasopressin family and is a novel neuropeptide in the animal kingdom. It was named the leech osmoregulator factor (LORF). An identification of the proteins immunoreactive to an antiserum against oxytocin performed at the level of both central nervous systems extracts and in vitro central nervous system-translated RNA products indicated that in the two cases, a single protein was detected. These proteins with a molecular masses of, respectively, approximately 34 kDa (homodimer of 17 kDa) for the central nervous systems extracts and approximately 19 kDa for in vitro central nervous system-translated RNA products were not recognized by the antiserum against MSEL- and VLDV-neurophysin (proteins associated to oxytocin and vasopressin), confirming that LORF did not belong to the oxytocin/vasopressin family.
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PMID:Structural characterization of a novel neuropeptide from the central nervous system of the leech Erpobdella octoculata. The leech osmoregulator factor. 863 63

Neurophysins I and II (NPI and NPII) act in the neurosecretory granules as carrier proteins for the neurophyseal hormones oxytocin (OT) and vasopressin (VP), respectively. The NPI/OT functional unit, believed to be an (NPI/OT)2 heterotetramer, was modeled using low-resolution structure information, viz. the C alpha carbon atom coordinates of the homologous NPII/dipeptide complex (file 1BN2 in the Brookhaven Protein Databank) as a template. Its all-atom representation was obtained using standard modeling tools available within the INSIGHT/Biopolymer modules supplied by Biosym Technologies Inc. A conformation of the NPI-bound OT, similar to that recently proposed in a transfer NOE experiment, was docked into the ligand-binding site by a superposition of its Cys1-Tyr2 fragment onto the equivalent portion of the dipeptide in the template. The starting complex for the initial refinements was prepared by two alternative strategies, termed Model I and Model II, each ending with a approximately 100 ps molecular dynamics (MD) simulation in water using the AMBER 4.1 force field. The free homodimer NPI2 was obtained by removal of the two OT subunits from their sites, followed by a similar structure refinement. The use of Model I, consisting of a constrained simulated annealing, resulted in a structure remarkably similar to both the NPII/dipeptide complex and a recently published solid-state structure of the NPII/OT complex. Thus, Model I is recommended as the method of choice for the preparation of the starting all-atom data for MD. The MD simulations indicate that, both in the homodimer and in the heterotetramer, the 3(10)-helices demonstrate an increased mobility relative to the remaining body of the protein. Also, the C-terminal domains in the NPI2 homodimer are more mobile than the N-terminal ones. Finally, a distinct intermonomer interaction is identified, concentrated around its most prominent, although not unique, contribution provided by an H-bond from Ser25 O gamma in one NPI unit to Glu81 O epsilon in the other unit. This interaction is present in the heterotetramer (NPI/OT)2 and absent or weak in the NPI2 homodimer. We speculate that this interaction, along with the increased mobility of the 3(10)-helices and the carboxy domains, may contribute to the allosteric communication between ligand binding and NPI dimerization.
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PMID:Molecular modeling of the neurophysin I/oxytocin complex. 913 16

The nonapeptide hormone oxytocin exerts many important biological functions, including uterine contractions during parturition and milk ejection during lactation. The manifold effects of oxytocin are mediated by a single oxytocin receptor (OTR) type, a member of the super-family of G-protein-coupled receptors. There is accumulating recent evidence that certain G-protein-coupled receptors exist in the form of oligomeric complexes. Here we demonstrate, using two different co-immunoprecipitation strategies as well as bioluminescence resonance energy transfer techniques, that the OTR is capable of forming oligomeric complexes in vivo and that these complexes exist at the cell surface membrane. The human OTR was N-terminally tagged with either a Myc or Flag epitope and transiently expressed in COS-7 cells. Cell lysates were immunoprecipitated using an anti-Flag antibody and analyzed by SDS-PAGE and Western blotting using an anti-Myc antibody, or vice versa. Either strategy provided evidence for the co-precipitation of Myc- or Flag-tagged OTR respectively. Biochemical characterization of OTR dimers showed that homodimer formation is not dependent on the establishment of disulfide bonds. The existence of OTR dimers and oligomers at the level of the cell surface was demonstrated by exposing intact living cells to an anti-Flag antibody and analyzing the immunoprecipitate by Western blotting with an anti-Myc antibody. This approach demonstrated furthermore that the presence of receptor oligomers at the cell surface is modulated by ligand in a time-dependent fashion. Finally, we obtained evidence that the OTR is forming oligomeric structures in intact living cells by observing the occurrence of bioluminescence resonance energy transfer in cells co-transfected with OTR constructs bearing at their C-terminus either a Renilla luciferase or the yellow fluorescent protein. Taken together, these data show that the OTR can form homodimers and oligomers in the cell model used and that these oligomers are present at the cell surface.
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PMID:Identification of dimeric and oligomeric complexes of the human oxytocin receptor by co-immunoprecipitation and bioluminescence resonance energy transfer. 1466 7

The aim of the present study was to examine the effect of monosodium glutamate (MSG) on the functions of ovary and uterus in rat. Virgin female rats of Charles Foster strain (120 gms approximately) were administrated MSG by oral gavage at a dose level of 0.8, 1.6, 2.4 gm/kgBW/day, respectively for 30 and 40 days duration. We observed a significant decrease in the duration of proestrus, estrus and metestrus phases, and increase in the duration of diestrus phase and diestrus index compared to control. We found significant increase in the levels of serum LH, FSH and estradiol in test groups of rat. We also observed significant increase in the number of primary and primordial follicles, increase in the size of graafian follicle, and decrease in the size of corpus luteum. Further, we have seen significant increase in the activities SOD, CAT and GST, decrease in the activities GR and GPx, and decrease MDA level in MSG exposed groups. These results suggest that MSG impairs the functions of the ovary probably by augmenting the release of FSH, LH and estradiol; promoting the follicular maturation and improving the biochemical mechanism for antioxidant defense. We also observed significant potentiation of the force of contraction of uterus in estrus, metestrus and diestrus phases. This result suggests that MSG potentiates the contraction of uterus probably by stimulating the estradiol sensitivity to oxytocin. From the results it is concluded that MSG suppresses the female reproductive function in rat probably by impairing the functions of ovary and uterus.
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PMID:Monosodium glutamate suppresses the female reproductive function by impairing the functions of ovary and uterus in rat. 2911 27