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: DrugBank:APRD00627 (MAP)
15,705 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Progesterone induced effect on rabbit uterus follows a log dosis endometrial glandular changes linear relationship and log dosis-organ weight one. It appears a strong correlation between endometrial changes and organ weight. Thus organ weight may be looked like a pseudogestative activity test, histological investigation remaining the actual proof of specific activity. Besides these relations bring direct informations on the quality of new progestatives.
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PMID:[Correlation between uterine weight and endometrial development in rabbits treated with progesterone]. 12 70

Studies were made on the effect of concomitant administration of dehydroepiandrosterone acetate (DHA-Ac) with progesterone on decidual growth in the rat. Virgin female rats of Wistar strain weighing about 250 g were used. Daily vaginal smears were recorded and, during the time of vaginal cornification, the animals were made pseudopregnant by tapping the uterine cervix. Day 1 of the pseudopregnancy was designated as the day that the vaginal smears contained primarily leucocytes. On day 4 of the pseudopregnancy, each animal was laparotomized midventrally, and bilateral ovariectomy and scratching of the uterine endometrium were performed. Progesterone, alone or in combination with DHA-Ac, was injected from day 4 of the pseudopregnancy (immediately after ovariectomy) through day 8. On day 9 of the pseudopregnancy all animals were killed. The weights of the uterus, and the deciduoma-inducing score, etc, were estimated. Massive deciduomata weighing 2768 +/- 84 mg per uterus were induced in intact pseudopregnant rats. Treatment with 2 mg progesterone evoked maximal responses of only 754 +/- 101 mg. The concomitant administration of 20 mg DHA-Ac with 2 mg progesterone reproduced the decidual weight observed in intact rats, but 2.5 mg or 5 mg DHA-Ac in combination with 2 mg progesterone was only slightly effective. The weights of the uterus, the deciduoma-inducing score, the histological findings, and the effects of the DHA-Ac were discussed.
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PMID:[The effect of concomitant administration of dehydroepiandrosterone with progesterone on decidual growth in the rat (author's transl)]. 14 79

The macromolecular binding of estradiol was investigated in the rabbit uterus under various hormonal states in a search for evidence of progesterone antagonism of the estrogen-receptor complex interaction. Progesterone did not alter the sucrose gradient sedimentation characteristics of the estrogen-receptor complex in estrus or castrate animals. Progesterone treatment of castrated animals did not alter the absolute number of EBS (estrogen-binding sites) per cell, but did result in decreased relative concentration of EBS by increasing the soluble protein content of the cells over that seen in untreated castrates. Castration did not alter the absolute number of EBS per cell but did increase the relative concentration of estrogen binding in the cytosol.
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PMID:Effect of progesterone on estrogen receptors in the rabbit uterus. 16 86

Progesterone-binding proteins from human, rabbit, sheep and guinea pig myometrial cytosol, all induced with oestradiol, as well as from pregnant guinea pig myometrium and plasma were investigated. The physico-chemical properties of the oestradiol-induced binding proteins were very similar in all the species studied. In all, 63 steroids were tested for their ability to compete with tritiated progesterone for the binding sites on these six proteins and their relative affinities were determined. The studies reveal that the ligand specificities of oestrogen-induced myometrial binding proteins from human, rabbit and sheep are rather similar, whereas that from guinea pig myometrium has different binding characteristics. The properties of the binding proteins from pregnant guinea pig uterus and plasma differ substantially from all of the induced proteins. It is clear from the different physico-chemical characteristics and binding specificities that the oestrogen-induced myometrial protein of the guinea pig is not the same as that which appears in the myometrium and plasma during pregnancy. The binding energies of the well bound progestational compounds were of the order of -12 Kcal/mole, half of which stems from the interaction of the steroid nucleus with the protein. The specific interaction of the protein with the two functional groups, the 3-keto-4-ene system and the acetyl sid chain each contributed-3 Kcal/mole. In the case of the rabbit, sheep and human proteins a 17alpha-ethynyl-17beta-hydroxyl function could replace the acetyl side chain. For a large number of steroids reasonable agreement existed between the degree of binding to the rabbit myometrial protein and in vivo biological activity (Clauberg-McPhail test) in the same species. The data suggest that as far asthe binding aspect is concerned, the rabbit is an appropriate model for assessing the biological activity of compounds under development for human application. The in vitro binding system is also a useful tool to assess whether steroids need to be bio-activated before eliciting a biological response.
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PMID:Progesterone-binding proteins: in vitro binding and biological activity of different steroidal ligands. 16 94

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

Progesterone binding of high affinity with a dissociation constant of 10(-9) M was identified in cytosol of rabbit oviduct and uterus. Macromolecules with sedimentation coefficients of 7-8 S and 4-5 S were present. Progesterone receptor concentration was two to fivefold lower in the oviduct when compared with the uterus. The receptor concentration declined steadily from 3 hr until 144 hr after mating in the uterus; however, the decline in oviductal receptor was not significant until the sixth day of pregnancy. Progesterone receptor concentration in rabbit oviduct and uterus in estrus and early pregnancy was greater than estradiol receptor levels.
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PMID:Progesterone binding in rabbit oviduct and uterus. 17 77

Norethindrone (ENT), which is a representative in estrane series of progestogen, is not only strongly progestational but also estrogenic and in some cases, antiestrogenic. To understand progestational effect and antiestrogenic effect, the interactions of ENT on estrogen and progestogen receptors were studied in the uterine cytosol of white female rabbit. The 274,200 X G supernatant of uterine homogenate was used as cytosol. 3H-Estradiol, 3H-Progesterone, 3H-ENT or cold ENT were incubated with uterine cytosol at 4 degrees C for 2 hours. Results are as follows: 1. Sucrose gradient centrifugation [5 approximately 20% linear and 40,000 rpm (159,200 X G) for 16 hours at 4 degrees C]: ENT was bound to extrogen 8S receptor in immature rabbit uterus (Fig. 2 & 3), and to progestogen 8S receptor in estrogen primed rabbit uterus (Fig. 5). 2. Kinetic study, determined by dextran coated charcoal (0.001% dextran and 0.1% charcoal): (1) In the uterine cytosol of immature rabbit, 3H-estradiol-receptor binding was observed with Kd divide by 3.6 X 10-9 M and it was revealed that ENT was a competitive inhibitor to this binding with Ki divide by 2.6 X 10-6 M, as in Fig. 6. (2) 8S component, obtained by centrifugation of uterine cytosol (Fig. 1) in estrogen primed rabbit, binds 3H-progesterone with Kd divide by 8.1 X 10-10 M and Bm (maximal binding sites) divide by 5.0 X 10-8 M/mg of protein, and ENT was a competitive inhibitor in this binding with Ki divide by 2.3 X 10-9 M (FIG. 7 & 8). 3H-ENT-8S binding was demonstrated with Kd divide by 1.1 X 10-9 M and Bm divide by 8.7 X 10-8 M/mg of cytosol protein (Fig. 8). These results indicate: (a) ENT is bound to both estrogen and progestogen receptors in 8S macromolecules of uterine cytosol, (b) competitive inhibition of ENT to these bindings indicated that ENT is bound to these receptors at the steroid binding sites where estradiol and progesterone bind to, (c) ENT has much more affinity to progestogen receptor (Ki divide by 2.3 X 10-9 M) than to estrogen receptor (Ki divide 2.6 X 10-6 M), (d) while ENT is bound to progestogen and estrogen receptors at the same time, Bm of ENT (8.7 X 10-8 M/mg of cytosol protein) is more than Bm of progesterone (5.0 X 10-9 M/mg of cytosol protein), and Kd of ENT (1.1 X 10-9 M) was less than Ki of ENT (2.3 X 10-9 M) in the binding to progesterone-receptor. Biologically, while ENT is bound to progestogen -receptor with high affinity and to estrogen receptor with low affinity, ENT is actually progestational in low dose and antiestrogenic in high dose but the anti-estrogenicity seems to be incomplete in vivo as ENT may be metabolized to a potent estrogenic compound, ethinyl estradiol
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PMID:[Interaction of norethindrone on estrogen and progesterone receptors in the rabbit uterine cytosol (author's transl)]. 18 90

Estrogen priming increases uterine 8S macromolecule which binds progesterone specifically. Progesterone-8S complex in the cytoplasm enters into nucleus and is bound to chromatin finally. In this paper, the mode of nuclear translocation of steroid in exchange assay of receptor introduced by Anderson et al., and the mode of binding to chromatin were studied on the progesterone-receptor complex in the uterus of estrogen primed female rabbit. 1. After intravenous administration of 200 mug progesterone into the estrogen primed immature rabbit, uterine nuclei were prepared by the method in Table 1. These nuclei were incubated with 3H-progesterone and cold steroids at 4 degrees C for 30 minutes, and then washed with buffer A. The radioactivity of the nuclei was counted. This experiment was performed at 4 degrees C because progesterone receptor and chromatin were observed to be degraded at 37 degrees C for 20 minutes. The effect of cold steroids in vitro on the incorporation of 3H-progesterone into the uterine nuclei of rabbit pretreated with progesterone was found to be similar to their effect on progesterone-receptor binding in cytosol or chromatin (Fig. 1). 2. The effect of cold steroids on 3H-progesterone-receptor-chromatin triplex (Table 2 and Fig. 2) was examined. Once 3H-progesterone-receptor-chromatin triplex was formed, it was difficult to exchange 3H-progesterone to other steroids at 4 degrees C. These results (1 & 2) indicate that progesterone-receptor complex enters into nucleus and is bound to chromatin. Exchange of steroid may occur in the nuclear progesterone-receptor complex, which is free from the binding with chromatin. And thus exchange assay cannot represent quantitative data on receptor content. 3. 3H-progesterone-8S or 5S complexes were obtained by 5 approximately 20% sucrose linear gradient centrifugation (Fig. 3). The same molar concentration of these complexes from estrogen primed or castrated rabbit uterus were incubated with primed uterine chromatin for 30 minutes. Then the chromatin was washed with buffer A and the radioactivity was counted. It was shown in Fig. 4 that 3H-progesterone-8S complex was bound to chromatin much more tightly than 3H-progesterone 5-S complex in preparations obtained from both castrated or primed uterine cytosols. All these results indicate that 8S may be the biologically active form of the receptor. 4.3H-progesterone uptake into uterine nuclei was observed in very limited amount following the injection into uterine artery. The radioactivity in nuclei decreased easily by washing with buffer A as in Fig. 5. The small amount of residual radioactivity after washing, that is, very limited number of binding sites with high affinity is considered to be indicative of biologically active binding.
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PMID:[Studies on progesterone receptor in rabbit uterine cytosol -- nuclear translocation and chromatin binding-- (author's transl)]. 18 91

Aldehyde-resistant, diaminobenzidine-stained endogenous peroxidases form ideal markers for the biochemical endpoints of hormone stimulation and differentiation of certain mammalian cells and tissues. The lactoperoxidase (LPO)-type of endogenous peroxidases are synthesized by the acinar cells of the salivary, Harderian, lacrimal and mammary glands and are present in their secretions. These LPO-type enzymes, that are inhibited by cyanide and aminotriazole, appear to operate extracellularly as bactericidal agents in milk and in other biological fluids. In the mammary gland, lactoperoxidase is a consistent marker enzyme for differentiated acinar cells engaged in lactogenesis. Myeloperoxidase (MPO)-type endogenous peroxidases are prominent markers for the GERL endomembrane system and differentiated lysosomes in certain cells of the reticuloendothelial system and phagocytes. MPO is prominent within eosinophils, peritoneal macrophages and in Kupffer cells. The MPO-type endogenous peroxidases function primarily within lysosomes as bactericidal agents. Thyroid peroxidase (TPO) is relegated to the cisternae of the granular endoplasmic reticulum and Golgi apparatus, to apical cytoplasmic vesicles and to the luminar cell membrane surface of acinar cells. The enzyme is probably activated at release and functions both in the organification reaction (T leads to To) and in the biosynthesis of thyroxine. Thyroid stimulating hormone (TSH) appears to play a key role in the regulation of TPO levels and activity in the thyroid gland. Certain tissues displaying growth-dependency on estrogen (i.e., uterus, cervix, vagina and the DMBA-induced rat mammary tumor) synthesize and secrete endogenous peroxidase into their lumina. These enzymes serve as important marker proteins of estrogen action, in that they occur distal to the binding of estrogen to its receptor protein. Estrogen antagonists, particularly CI-628 (Parke-Davis) and Nafoxidine (Upjohn) that appear to function through the estrogen receptor mechanism, also induce synthesis of the reproductive tract endogenous peroxidase but inhibit growth of these tissues. Progesterone antagonizes the synthesis of the reproductive tract peroxidases and inhibits growth of the tissues as well, in part, through the reduction of the cytosol estrogen receptor protein. Endogenous peroxidase activity appears to represent a reliable marker for rodent breast cancer tissues displaying dependency for estrogen and is of potential interest as a diagnostic marker protein in human breast cancer. Rat uterine peroxidase (UP) has been investigated by microelectrophoretic techniques. The molecular weight of UP has been determined in the range of 100,000 by using polyacrylamide gradient gels in the absence and presence of nonionic and anionic detergents. The isoelectric point of UP is located between pH 4.5 and 5.9. Employing the two-dimensional combination of isoelectric focusing and gel gradient electrophoresis, UP was separated into two subunits, one having a molecular weight of 70,000, the other less than 20,000.
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PMID:Mammalian endogenous peroxidases as cellular markers and as biosynthetic endpoints of hormone-mediated activity: viewpoint from cytochemistry. 22 20

Uterine progesterone receptors are under dual hormonal control. Estrogen increases the concentration of receptor through a mechanism that depends on synthesis of both RNA and protein. Progesterone decreases the concentration of its own receptor, probably by enhancing its inactivation rate. This regulation explains receptor variations during the estrous cycle. In both guinea pig and rat uteri, cytosol receptor concentration is maximal at the preovulatory period and decreases after ovulation. Nuclear receptor was measured in the rat. Its concentration is also maximal at proestrus, but the higher nuclear to cytosol receptor ratio was observed at metestrus. There is a good correlation (r = 0.78) between nuclear receptor concentration, on one hand, and the product of cytosol receptor concentration times the plasma progesterone concentration, on the other hand. Autoradiographic studies show that receptor variations during the estrous cycle occur simultaneously in all cell types of uterine horn, cervix, and vagina, which suggests that similar mechanisms control receptor concentration in all of these cells. Progesterone receptor was also measured during pregnancy in rat uterus. Cytosol receptor concentration is low at the beginning of pregnancy (approximately 6000 binding sites per cell), declines slightly on Day 5 (approximately 4000 binding sites per cell), and then increases progressively during the remainder of pregnancy to attain its highest value on Day 22 (26,000 binding sites per cell). Nuclear receptor concentration is very low on Day 3 (1200 binding sites per cell), increases slightly on Day 5 (1900 binding sites per cell), decreases on Day 6, and then increases again to attain a plateau between Days 9 and 15 (approximately 2600 binding sites per cell). Thereafter, its concentration begins to decrease rapidly. On Day 22, the mean concentration is very low (700 binding sites per cell); in some animals (probably on the verge of parturition), no nuclear receptor can be detected.
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PMID:Hormonal control of progesterone receptors. 28 Nov 73


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