UNIPROT:P11684 - FACTA Search

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

Uteroglobin was obtained from 5 day pregnant rabbits and purified to homogeneity by Sephadex G 75 and DEAE-cellulose chromatographies. Progesterone binding to uteroglobin was decreased by lyophilization and enhanced by SH-reducing agents. Dithiothreitol was more effective than dithioerythritol, and beta-mercaptoethanol was only active at 25 to 100 mM concentrations. SH-blocking agents (iodoacetate, iodoacetamide, phydroxymercuribenzoate and, dithiobisnitrobenzoic acid) inhibited binding. In the absence of SH-reducing agents only one in every 500 uteroglobin molecules bound the hormone, whereas under optimal conditions (20 mM dithiothreitol) one in every two molecules bound progesterone. There was no significant difference in equilibrium dissociation constants under these two conditions. Uteroglobin had a relatively high affinity for progesterone (KD=4.1 X 10(-7)M) but a threefold higher affinity for 5alpha-pregnane-3,20-dione (KD=1.3 X 10(-7)M). Estradiol was bound but non-specifically with a very low affinity, and its binding was not enhanced by SH-reducing agents. Hormonal specificity of binding to uteroglobin was different from that of binding to rabbit uterine progesterone receptor. Various synthetic progestagens (chlormadinone acetate, norethisterone, R5020) were bound to the latter but not to the former protein. Diethylstilbestrol had some affinity (15% of that of progesterone) for uteroglobin and no affinity for the progesterone receptor. Uteroglobin incubated in the presence or absence of cofactors (NADH and NADPH) with or without dithiothreitol did not metabolize progesterone.
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PMID:Interaction of uteroglobin with progesterone, 5alphapregnane-3,20-dione and estrogens. 1 Oct 93

1. The uterine luminal fluid of rabbits treated with estradiol and progesterone contains a protein factor with high affinity for [3-H] progesterone which is not present in the uterine secretion of control rabbits treated with estradiol. 2. This progesterone dependent factor is shown by gel filtration and polyacrylamide gel electrophoresis to be identical with the uterus specific protein uteroglobin, which seems to be required during the preimplantation phase. Uteroglobin specific antiserum, prepared in guinea pigs, completely inhibits the progesterone binding activity of the proteins of the uterine fluid. 3. Progesterone binding to uteroglobin is dependent upon millimolar concentrations of dithioerythritol. At saturation, one molecule of progesterone binds per uteroglobin molecule and the apparent association constant is 2 x 10-6 M-1 at 0 degrees C. 4. The progesterone binding species of uteroglobin exhibits a molecular weight of around 12 000 on polyacrylamide gels containing dodecylsulfate, and of 15 000 upon gel filtration, indicating a non-globular shape. This molecule is compased of two subunits of similar molecular size which are held together by a disulfide bridge among other forces.
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PMID:Binding of progesterone to the proteins of the uterine luminal fluid. Identification of uteroglobin as the binding protein. 16 37

Embryo mortality and altered uterine luminal proteins were studied in progesterone-treated rabbits. Progesterone was injected into rabbits on Days -2, -1, and 0 (the day of mating) at doses of .5, 1, and 1 mg, respectively. Normal fertilization rates resulted, however, embryonic death occurred by Day 4. Embryos in progesterone-treated does for up to 3 days survived normally when transferred to normal recipients, whereas Day 4 embryos from treated does exhibited a reduced ability to implant. The uterine fluid (UF) protein pattern was examined on Days 1-7 after mating. Total UF protein levels were significantly greater (p less than .05) in treated animals on Day 4 than in controls. Uteroglobin secretion was significantly advanced (p less than .05) in the treated animals by Day 3. Examination revealed a delay in the time of the arrival of embryos into the uterus in progesterone-treated rabbits. This delay, coupled with the earlier secretion of uteroglobin in the treated- rabbits, suggested a possible asynchrony of approximately 1 day between embryo arrival in the uterus and certain uterine proteins. Embryonic development in vitro and in vivo was examined after exposure to UF collected at various gestational stages. More normal Day 3 morulae placed in UF from Day 3 control and Day 2 progesterone-treated rabbits developed than similar morulae placed in UF from Day 2 controls and Day 3 progesterone-treaded does. Therefore, partial physiologic synchrony was achieved, suggesting that ''asynchronous'' UF can be embryotoxic. It is concluded that the ability of does to produce young at a pregnancy immediately following a progesterone-treated pregnancy was not impaired.
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PMID:Embryo mortality and altered uterine luminal proteins in progesterone-treated rabbits. 55 59

A review is given of the comparative pathology of endometrial carcinomas regarding the incidence, the morphology, and the relation with endometrial hyperplasia. Compared to man, endometrial carcinomas in animals are fairly rare, except in rabbits, in cattle, and in a stock of Han: Wistar rats. In rabbits the endometrial carcinomas are mostly primary multiple and present in both horns. Histologically they are almost always adenocarcinomas. The histological structure can vary considerably with regard to the degree of differentiation. In cattle the endometrial carcinomas are mostly singular. Histologically they are mostly adenocarcinomas, often accompanied by formation of much dense fibrous tissue. In rats the endometrial carcinomas are mostly primary multiple adenocarcinomas. In man as well as in the rabbit and in the rat, relationships have been described between endometrial hyperplasia and endometrial carcinoma. It is striking that in the dog, a species in which endometrial hyperplasia very often occurs, endometrial carcinomas should be rare. The endometrial carcinoma in the rabbit as an animal model for human endometrial carcinoma is discussed extensively. In both species there are signs indicating relationships between endometrial carcinomas and sex hormones, especially oestrogens. The incidence in rabbits is very high. Endometrial carcinomas in rabbits can be transplanted subcutaneously in the same rabbit. They can also be cultured in vitro. Moreover the rabbit is a suitable species to study the progesterone/progesterone-receptor complex by determining the synthesis of the progesterone-induced protein uteroglobin which may be important in studying endometrial carcinomas. Uteroglobin is a good marker for a functional 'Progesterone-PR-DNA-mRNAug-Uteroglobin- System' (or PUG-System).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparative pathology of endometrial carcinoma. 638 39