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

---

Query: UNIPROT:P11684 (Uteroglobin)
114 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Uteroglobin is a protein that is synthesized in large quantities by the rabbit uterine endometrial cells and secreted into the uterine lumen around the time of implantation of the developing blastocysts. The protein is also synthesized constitutively at a low level in the lung. In the uterus, synthesis of the protein is induced by progesterone but repressed by estradiol; whereas in the lung, it is not hormonally responsive. Using a full-length cDNA clone, we have established the nucleotide sequence of uteroglobin mRNA and have determined its levels in uterus and lung during early pregnancy. The clone, pUG617, contains all but 24 nucleotides at the 5' untranslated region of the structural gene. To establish the full mRNA sequence, we isolated a 5' end-labeled DNA fragment from pUG617 and extended its length using reverse transcriptase after hybridization with uterine poly(A)-containing RNA. The 5'-terminal sequence of uteroglobin mRNA was established by sequencing the extended DNA fragment. The nucleotide sequence of the peptide-coding portion of the gene has resolved some previously reported discrepancies in the amino acid sequence of the mature protein and those in the signal peptide. By comparison of sequences with a partial uteroglobin cDNA clone isolated by another laboratory, a polymorphic nucleotide at position 246 of the gene has been identified, where a G-A transition has caused an amino acid substitution from aspartic acid to asparagine at residue 46 of the mature protein. Analysis of steady-state RNA levels in the uterus has shown that the induction and repression of uteroglobin synthesis during early pregnancy is the result of accumulation and depletion of its mRNA, respectively. During the same period in the lung, no consistent changes in uteroglobin mRNA level were evident, reflecting the constitutive levels of the protein in this tissue.
...
PMID:Hormonally regulated mammalian gene expression: steady-state level and nucleotide sequence of rabbit uteroglobin mRNA. 629 63

Uteroglobin has been purified from hare lung by gel filtration and chromatography on carboxymethyl-cellulose. Hare uteroglobin appears homogeneous by electrophoresis under both denaturing and nondenaturing conditions. Its chemical and immunological properties as well as its ability to bind progesterone are compared to those of rabbit uteroglobin. The two proteins have the same N-terminal residue (glycine) and both lack tryptophan but differ in amino acid composition. Sodium dodecyl sulfate-gel electrophoresis shows that hare uteroglobin is composed of two subunits of identical Mr (about 7000) held together by disulfide bridges. The amino acid composition indicates a subunit composed of 65-67 residues, which is compatible with the apparent Mr observed. Thus, hare uteroglobin appears to be slightly smaller than the rabbit protein. Hare uteroglobin partially reacts with anti-rabbit uteroglobin in a radioimmunoassay and also binds progesterone, although this binding is relatively unaffected by dithiothreitol. The synthesis of hare uteroglobin in the uterus appears to be rather insensitive to ovarian steroid hormones.
...
PMID:Isolation and characterization of uteroglobin from the lung of the hare (Lepus capensis). 663 70

1. Uteroglobin-like antigens were found in the lung and uterus of the hare (Lepus) and the pika (Ochotona). These antigens presented an immunoreactivity indistinguishable from that of rabbit uteroglobin, as determined by radioimmunoassay. 2. The molecular weight and the subunit composition of these antigens were similar to those of rabbit uteroglobin as analyzed by SDS gel-electrophoresis. 3. Similar amounts of uteroglobin-like immunoreactivity were found in the respective lungs and uteri of hare and rabbit whereas the concentration of immunoreactivity in the pika organs was several-fold lower.
...
PMID:Uteroglobin-like antigens in species of Lagomorpha. 706 7

Uteroglobin is a predominant protein in the rabbit uterus, where it is induced by progesterone, and occurs also in the lung, where its level is constitutive. A recombinant plasmid containing uteroglobin complementary DNA (cDNA) has been constructed previously from partially purified uteroglobin mRNA. In this study, the cloned uteroglobin cDNA has been used as a probe to determine the cellular content of uteroglobin mRNA at different times in early pregnancy in both rabbit uterus and lung. By RNA-excess hybridization to poly A-enriched RNA and to total nucleic acid extracts an increase in steady-state uteroglobin mRNA level was detected, from approximately 250 molecules/uterine epithelial cell in non-pregnant rabbits to approximately 6800 molecules/cell on day 4 of pregnancy, after which the levels declined progressively up to day 8. The pulmonary level of uteroglobin mRNA was about 400 molecules/cell and did not change significantly with day of pregnancy. The major factor in regulating the production of uteroglobin in the uterus of pregnant rabbits is the accumulation and subsequent depletion of its mRNA.
...
PMID:Hybridization analysis of steady-state levels of uteroglobin mRNA in rabbit uterus and lung during early pregnancy. 711 50

The physiological androgen, 5 alpha-dihydrotestosterone (DHT), enhances a progesterone-regulated protein (uteroglobin) synthesis in the rabbit uterus. In order to clarify the induction mechanism(s), rabbits were treated for 5 days with DHT alone or concomitantly with a nonsteroidal antiandrogen, RU 23908, or with different doses of estradiol. Uteroglobin content was measured in the uterine fluid by radioimmunoassay and uteroglobin mRNA activity in uterine tissues using cell-free translation in vitro. Uteroglobin induction elicited by DHT was inhibited by a small dose of estradiol, but not by antiandrogen. These results support the idea tha androgens bring about their action on uteroglobin synthesis via a mechanism involving uterine progesterone receptor.
...
PMID:5 alpha-Dihydrotestosterone-induced uteroglobin synthesis in rabbit uterus is not inhibited by antiandrogen administration but is prevented by estradiol. 728 83

Uteroglobin (UG) gene encodes a cytokine-like, multifunctional, antiinflammatory protein, with potent phospholipase A2-inhibitory activity. It has been suggested that during implantation this protein protects the embryos from maternal immunological assault, facilitates the maintenance of quiescence in the uterus throughout pregnancy, prevents the onset of premature labor, and helps maintain an inflammation-free respiratory organ. This latter function of UG is suggested to be accomplished by preventing hydrolysis of surfactant phospholipids by a lung-specific phospholipase A2. Using reverse transcription polymerase chain reaction, in situ hybridization, immunofluorescence, and radioimmunoassay, we studied UG gene expression in the rabbit uterus throughout gestation and in the fetal lung. Here, we report that: (a) contrary to previous reports, UG gene expression in the rabbit uterus occurs throughout gestation with a precipitous decline just before parturition; (b) this gene expression is dramatically increased in the fetal lung with increasing gestational age; and (c) while there is an inverse relationship between the levels of UG, PGE2, and PGF2 alpha, a positive correlation was found in that of UG and leukotriene C4 in the fetal lung. Our results raise the possibility that dysregulation of UG gene expression, at least in part, may contribute to the onset of premature labor and the development of inflammatory lung disease in premature neonates.
...
PMID:Uteroglobin gene expression in the rabbit uterus throughout gestation and in the fetal lung. Relationship between uteroglobin and eicosanoid levels in the developing fetal lung. 761 4

The distribution of uteroglobin mRNA has been investigated in the endometrial compartments of the rabbit uterus during early pregnancy (day 0.5 p.c.--day 12 p.c.) using nonradioactive in situ hybridization. Digoxigenin-dUTP labeled oligodesoxy-nucleotide-probes (24mer) and an anti-digoxigenin-antibody conjugated with alkaline phosphatase were developed and used. It could be shown, that uteroglobin mRNA localization is restricted to the endometrial epithelium. There are differences in the extent of uteroglobin mRNA expression within the epithelial cells, which is in accord with our interpretation on the existence of different epithelial cell populations. From day 0.5 p.c. to day 9 p.c. the cells of the basal glands express uteroglobin mRNA continuously, whereas the proliferating surface epithelium shows a remarkable fluctuating pattern of uteroglobin mRNA expression. On day 2 p.c. the whole surface epithelium starts to express the uteroglobin message, and up to day 5 p.c. all these cells show a high level of uteroglobin mRNA expression, which drops significantly on day 6 p.c., when significant changes in the cyto-morphology of the surface epithelium for implantation occur. On day 7 p.c., there is no more uteroglobin mRNA expression in the surface epithelium, however remaining expression in the basal glands. The latter is evident up to day 9 p.c. From day 10 p.c. onwards, neither the luminal nor the deep glandular epithelium express any uteroglobin mRNA. Our observations on the cellular level have been continued in parallel studies on endometrial homogenates by Northern Blot analysis of uteroglobin mRNA (600 bases). Finally, it is discussed whether Uteroglobin mRNA may be an useful marker for the differentiation of various endometrial epithelial cell populations.
...
PMID:Localization of uteroglobin mRNA by nonradioactive in situ hybridization in the pregnant rabbit endometrium. 830 87

Uteroglobin (UG) is a hormonally regulated secretory protein produced in the lung and urogenital system of rabbits. It is homologous to rat and human Clara cell 10 kD protein (CC10); however, there are significant differences in the tissue-specific expression between these species. Mouse CC10 (mCC10) protein has been less well characterized. In this study, we cloned and sequenced the cDNA encoding the mCC10 protein. The mouse cDNA showed 90, 52, and 51% amino acid homology to rat and human CC10 and rabbit UG cDNA, respectively. The cellular and tissue-specific expression of mCC10 was examined in adult and developing mice. Endogenous mCC10 expression was compared with transgenic mice expressing a fusion gene of the rabbit 3.3 kb UG promoter linked to human growth hormone (hGH) as an easily detectable marker. Northern blot analysis detected mCC10 mRNA only in the lung. hGH mRNA was detected in the lung in levels similar to the endogenous mCC10 transcripts. However, it was also present in trace quantities in the uterus and ovary of normal adult female mice and in the epididymus of adult male mice. hGH and mCC10 proteins were identified in the trachea and lung, where they were localized to Clara cells. Ultrastructurally, hGH was present in secretory granules in the Clara cell cytoplasm and appeared to be secreted into the airways. hGH was initially detectable in 16 day gestation developing mice; however, CC10 was not detectable until the eighteenth day of gestation. We have created an attractive model for comparing the cis-acting DNA elements governing the interspecies variation in tissue-specific expression of CC10.
...
PMID:Cloning and tissue-specific expression of the cDNA for the mouse Clara cell 10 kD protein: comparison of endogenous expression to rabbit uteroglobin promoter-driven transgene expression. 839 59

The present experiment was designed to investigate the mode of action of indomethacin, a prostaglandin synthesis inhibitor, as an antifertility agent, and to examine a possible effect of indomethacin administered during the normal peri-implantation period on the protein content and progesterone concentration in plasma and uterine fluid in pseudopregnant rabbits. The results showed that treatment with indomethacin significantly reduced the plasma progesterone concentrations, decreased progesterone concentrations in uterine flushing, significantly decreased the total plasma proteins, and particularly decreased albumin in the plasma and in the uterine flushings. Uteroglobin production by the rabbit uterus was not affected by this treatment. It is concluded that the antifertility effect of indomethacin at the time of implantation is exerted by reducing progesterone concentrations in plasma and uterine fluid, possibly affecting steroidogenesis, and by reducing the percentage of albumin in plasma and in uterine fluid, probably by increasing renal excretion of albumin. These effects of indomethacin provide an environment within the uterus that would not support embryo implantation and development.
...
PMID:Effect of indomethacin administered during the normal time of implantation on the progesterone and protein composition of plasma and uterine flushings of rabbits. 846 21

The discovery of uteroglobin resulted from investigations on the biochemical composition of oviductal and uterine secretions of the rabbit and other mammals. These determinations about physiological composition were urgently requested to prepare culture media for research on early mammalian development in vitro. Discovery of significant proteins during the sixties reflected the laboratory skills of that time. Protein characterization was achieved by isolation via Sephadex gels, electrophoresis on polyacrylamide gels, and finally immunoprecipitation using classical polyclonal antibodies. The molecular biology was not yet established. Uteroglobin could be found as the major protein component of rabbit uterine secretion. From the beginning, it was already identified as an unusually small, spheric uterine secretory molecule without any carbohydrates--hence its name. Uteroglobin was the first mammalian protein that turned out to be progesterone-regulated and, at the same time, released in mg amounts actually in one organ compartment. Moreover, uteroglobin and its gene proved to be a reliable model for the description of progesterone/progesterone receptor complex action at the DNA level. After its original observation in the uterus, however, uteroglobin was detected also in several other organs, for example, the epididymis, the seminal vesicle, and the lung. Initially, it could not be found in the blood, which challenged the hypothesis that uteroglobin specifically should operate by local activation rather than by a humoral or endocrine effect. Later, though, the human uteroglobin molecule, isolated from blood filtrate, was used for detailed structural analyses. The rabbit uteroglobin model certainly was beneficial for reproductive biological research. Experimental interference with steroid hormone regulation during preimplantation presented surprising effects, which led to the discovery of the transposition of the implantation window. The uterine secretion protein patterns, in particular the uteroglobin fraction and the beta-glycoprotein fraction, served as decisive marker profiles to identify the biological stage of the intrauterine microenvironment during preimplantation. This diagnostic procedure, using only protein parameters, enabled us to precisely predict the receptive stage of the endometrium for donated blastocysts to achieve implantation successfully.
...
PMID:The discovery of uteroglobin and its significance for reproductive biology and endocrinology. 1119 82


<< Previous 1 2 3 Next >>

---