EC:3.1.27.4 - FACTA Search

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Query: EC:3.1.27.4 (ribonuclease)
6,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recently, a putative distal colon H(+)-K(+)-ATPase alpha-subunit has been identified and characterized (M. S. Crowson and G. E. Shull. J. Biol. Chem. 267:13740-13748, 1992). In the present study, we report the tissue and cell expression of this putative H(+)-K(+)-ATPase. The results indicate that, first, in the gut, the putative H(+)-K(+)-ATPase alpha-subunit is restricted to the distal part of the colon and is predominantly expressed in surface epithelial cells, in marked contrast to the alpha 1-subunit of Na(+)-K(+)-ATPase that is also expressed in glands. These data suggest that the H(+)-K(+)-ATPase alpha-subunit is a potential marker for terminal differentiation of distal colon. Second, in the uterus, the putative H(+)-K(+)-ATPase is restricted to the region of the myometrium between the inner and midmuscular zone that is very rich in vascular supply and nerve cells. This striking expression suggests that the H(+)-K(+)-ATPase may not be involved in the control of pH and potassium concentration of the uterine fluid but rather in distinct functions of vascular and/or nerve cells. Third, with the use of three independent and different approaches (Northern blot analysis, ribonuclease protection assay, and in situ hybridization), we were unable to detect any significant amount of H(+)-K(+)-ATPase transcripts in kidney tissue. Our data suggest that the putative distal colon H(+)-K(+)-ATPase is probably distinct from the kidney isoform. Finally, we report the sequence of a set of degenerate oligonucleotides that are useful to clone alpha-subunits of the Na(+)-K(+)-/H(+)-K(+)-ATPase gene family in different tissues and different species.
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PMID:A putative H(+)-K(+)-ATPase is selectively expressed in surface epithelial cells of rat distal colon. 823 99

Mechanisms regulating responses of the ovine uterus to endocrine and paracrine signals during the estrous cycle and pregnancy are likely to require tissue- and cell-specific regulation of steroid hormone receptor gene expression. To determine effects of day and pregnancy status (cyclic or pregnant) on uterine estrogen receptor (ER) and progesterone receptor (PR) gene expression, ewes were hysterectomized either on Day 1 (Day 0 = estrus/mating), 6, 11, 13, or 15 of the estrous cycle (n = 3/day) or on Day 11, 13, 15, 17, or 25 of early pregnancy (n = 5/day). Steady state levels of ER and PR mRNA were determined in endometrial and myometrial tissues by slot-blot hybridization and ribonuclease protection assays, respectively, using homologous ovine ER and PR cRNA probes. Changes in spatial expression of ER and PR mRNA and protein in uterine tissue sections were determined by in situ hybridization and immunocytochemical analyses. In cyclic ewes, steady state levels of endometrial ER mRNA were highest on Day 1, declined between Days 1 and 6, and increased between Days 11 and 15. However in pregnant ewes, endometrial ER mRNA levels decreased between Days 11 and 15 and increased slightly between Days 15 and 25. In cyclic ewes, levels of myometrial ER mRNA were highest on Day 1, decreased to Day 6, and remained low thereafter. In cyclic ewes, endometrial PR mRNA levels were highest on Day 1, decreased between Days 1 and 11, and then increased between Days 13 and 15. In cyclic ewes, myometrial PR mRNA levels were highest on Day 1 and declined thereafter. Endometrial PR mRNA levels were not different between cyclic and pregnant ewes on Days 11, 13, and 15. In pregnant ewes, PR mRNA levels were low on Day 11, increased between Days 11 and 17, and decreased between Days 17 and 25. In pregnant ewes, myometrial PR mRNA levels were low and did not change between Days 11 and 25. In situ hybridization and immunocytochemical analyses revealed distinct tissue- and cell type-specific alterations in uterine ER and PR mRNA and protein expression during the estrous cycle and early pregnancy that generally paralleled overall changes in steady state levels of ER and PR mRNAs. In the endometrium, the most striking observation was that PR mRNA and protein expression disappeared from the luminal and shallow glandular epithelium between Days 6 and 13 of the estrous cycle, whereas ER mRNA and protein expression was low on Days 6 and 11 and increased between Days 11 and 15 in the luminal and shallow glandular epithelium. During early pregnancy, expression of ER and PR mRNAs, as well as ER and PR protein, was very low or absent in the luminal and shallow glandular epithelium between Days 13 and 25 of pregnancy. Moreover, ER and PR mRNA and protein were consistently present at low levels in the stroma and deep glandular epithelium in both cyclic (Days 11-15) and pregnant (Days 11-25) ewes. Collectively, results suggest that uterine ER and PR gene expression is regulated in a tissue- and cell type-specific manner during the estrous cycle and early pregnancy.
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PMID:Temporal and spatial alterations in uterine estrogen receptor and progesterone receptor gene expression during the estrous cycle and early pregnancy in the ewe. 856 11

Several studies in the past few years have supported the hypothesis that oxytocin (OT) is synthesized in a paracrine system within the pregnant human uterus and that this paracrine system may be an important regulator of the timing of human parturition. Using ribonuclease protection assays, we have demonstrated a three-fold increase in the rate of synthesis of OT mRNA in human decidua around the time of parturition. We also have shown that a similar increase in OT mRNA and peptide synthesis can be stimulated in vitro by physiological concentrations of estradiol. This increase is inhibited by concomitant use of the estrogen receptor (ER) blocker tamoxifen or by transcription inhibitors. Progesterone had little, if any effect. We also detected mRNAs for ER and progesterone receptor (PR) in amnion, chorion and decidua with the same relative tissue concentrations as OT mRNA. The concentrations of ER but not PR increased significantly around the time of labour onset. To determine if local OT concentrations may be regulated by changes in OT metabolism, we determined kinetic parameters for OT metabolism in decidua, chorion and placenta. [3H]tyrosyl-OT was used as substrate. Metabolites were separated using HPLC and identified using amino acid analysis and mass spectrometry. Metabolism in decidua and chorion occurred predominantly via a cytosolic post-proline endopeptidase and the activity was comparable to placenta. In microsomal fractions, cystine aminopeptidase activity predominated and placenta had significantly more activity than decidua and chorion. There were no changes in any Km or apparent vmax values around the time of parturition. These findings support the existence of a paracrine system within human decidua that involves sex steroids regulating synthesis of OT and that undergoes significant changes around the time of parturition. Changes in local OT concentrations are controlled by rates of synthesis rather than rates of metabolism.
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PMID:Synthesis and metabolism of oxytocin in late gestation in human decidua. 871 92

Sex steroids and oxytocin (OT) produced within intrauterine tissues have been implicated in the regulation of parturition. The purpose of these studies was 1) to determine the relationships among estradiol (E2), progesterone (P4), OT, and their receptors in uterine tissues during late gestation and parturition in the rat; 2) to observe the effects of the estrogen antagonist tamoxifen (TAM) on these factors; and 3) to evaluate the rat as a potential model for events at human parturition. Concentrations of E2, P4, PGE2, and OT were measured by RIA. E2 receptor (ER) was measured by enzyme immunoassay, and P4 receptor (PR) and OT receptor (OTR) were measured by binding assays. OT messenger RNA (mRNA) was measured by ribonuclease protection assay. Groups (n = 5) of pregnant rats (normal gestation = 22 days) were treated with TAM (200 mg/day) or vehicle and killed on gestation day 19, 21, 21.5, or 22 or after delivery of the first pup. Serum E2 increased throughout late gestation accompanied by an increase in uterine OT mRNA and ER. Serum P4 declined after day 19, and uterine PR did not change significantly. Uterine PGE2 increased progressively, reaching peak levels the evening before delivery. Uterine OTR did not increase until the morning of delivery, and uterine OT peptide concentrations increased only during parturition. Parturition was significantly delayed by 24 h in the TAM-treated group. TAM inhibited the increase in serum E2, uterine ER, and OT mRNA and peptide, but had no effect on serum P4 or uterine PR levels. With TAM, the responses of uterine OTR and PGE2 were significantly delayed, but still underwent a significant increase before the delayed parturition. These results support the hypothesis that E2 stimulates the synthesis of ER, OT, and OTR within the rat uterus and is essential for normal parturition. P4 withdrawal may be more important to the increases in OTR and PGE2, but these are delayed in the absence of estrogen. These data also suggest that the rat may be a relevant model for human parturition.
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PMID:Relationships among sex steroids, oxytocin, and their receptors in the rat uterus during late gestation and at parturition. 875 42

The environmental pollutant 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD; dioxin) induces severe reproductive defects in male rats when exposure occurs in utero and during lactation. Yet there is currently a paucity of information regarding the effects of this exposure paradigm in females. In the current study, we examine the effects of TCDD during fetal and perinatal development on the estrogen-signaling system in peripubertal female rats. Pregnant Holtzman rats were given 1 microgram/kg TCDD or vehicle control by gavage on gestational Day 15. Body weights were reduced, though not significantly, on postnatal Day 21. While ovarian and uterine wet weights were not increased by TCDD exposure, the percentage of body weight attributed to the ovary was increased significantly. Through use of ribonuclease protection and gel-shift assays, exposed females were compared with nonexposed counterparts for estrogen receptor (ER) mRNA and DNA-binding activity in the following tissues: hypothalamus, pituitary (mRNA only), uterus, and ovary. ER mRNA levels increased in the hypothalamus, uterus, and ovary, and decreased in the pituitary. The results of the DNA-binding assays paralleled the mRNA results in the uterus, while DNA-binding activity was decreased in the hypothalamus and was unchanged in ovarian protein extracts. Circulating concentrations of estrogen were significantly lower in TCDD-exposed rats than in controls. These data suggest that the decrease in serum estrogen may be a cause of the alterations in ER mRNA; the changes in ER DNA-binding activity may indicate alterations in either translation or posttranslational receptor processing. Overall, this study shows that TCDD may act systemically in this model, and these effects should not necessarily be characterized as antiestrogenic.
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PMID:In utero and lactational exposure of female Holtzman rats to 2,3,7,8-tetrachlorodibenzo-p-dioxin: modulation of the estrogen signal. 879 59

Genomic sequences encoding mouse C-type natriuretic peptide (CNP) were isolated from bacteriophage libraries and characterized by restriction enzyme and sequence analysis. The mouse CNP gene (Nppc) comprised at least two exons and one intron and included several cis-regulatory elements in the 5'-flanking sequence. The deduced amino acid sequence of mouse CNP-22 was identical to other mammalian CNPs. Analysis of allele distributions in interspecific back-cross and recombinant inbred strains assigned Nppc to chromosome 1. CNP transcripts were detected by ribonuclease protection analysis in brain, ovary, and uterus, with lower levels in testes and epididymus. Uterine CNP transcripts and protein were low in sexually immature mice and adults at estrus and increased at proestrus, but similar variations in ovarian CNP expression were not statistically significant. Atrial natriuretic peptide and B-type natriuretic peptide transcripts were not detected in mouse ovary or uterus. Thus CNP gene expression is regulated by tissue-specific and inducible mechanisms in female reproductive organs. Correlations between CNP expression and uterine fluid content suggest that CNP may regulate uterine fluid balance in mice and other mammals.
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PMID:Isolation, mapping, and regulated expression of the gene encoding mouse C-type natriuretic peptide. 889 53

A cDNA clone of prostaglandin (PG) E receptor EP1 subtype (rEP1) was isolated from a rat uterus cDNA library. It encodes 405 amino acid residues with seven transmembrane-spanning domains and couples to Ca2+ mobilization. In addition, three cDNA clones encoding a variant form of rEP1 were isolated. The open reading frame can code a 366-amino acid protein carrying a specific change of 49 amino acids from the middle of transmembrane segment VI to COOH terminus; it possesses a transmembrane segment VII-like structure lacking an intracellular COOH-terminal tail. Southern blot analysis of rat genomic DNA and genomic polymerase chain reaction demonstrated that these cDNAs were derived from a single copy gene. Northern blot analysis and ribonuclease protection assay revealed that both rEP1 and rEP1-variant receptor mRNAs were highly expressed in the kidney. Immunoblot with an antibody directed toward the specific region of rEP1-variant receptor showed that rEP1-variant receptor protein was expressed in the membrane of the kidney and Chinese hamster ovary (CHO) cells transfected with rEP1-variant cDNA. Thus, the rEP1-variant receptor is translated from mRNA which is not spliced at nucleotide position 952 in the segment VI transmembrane region. rEP1-variant receptor retained the ligand binding activity with affinity and specificity similar to rEP1 receptor, but lost the coupling of signal transduction systems by itself. However, when rEP1-variant receptor was stably co-expressed with rEP1 receptor in CHO cells, the Ca2+ mobilization mediated by EP1 receptor was significantly suppressed. Furthermore, when rEP1-variant receptor was expressed in CHO cells, cAMP formation by activation of endogenous EP4 receptor was strongly blocked. These results suggest that the rEP1-variant receptor may affect the efficiency of signal coupling of PGE receptors and attenuate the action of PGE2 on tissues.
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PMID:Suppression of prostaglandin E receptor signaling by the variant form of EP1 subtype. 894 Jan 29

RNA transcripts in which all guanosine residues are replaced by inosine are degraded at a highly accelerated rate when incubated in extracts from HeLa cells, sheep uterus or pig brain. We report here the partial purification and characterization of a novel ribonuclease, referred to as I-RNase, that is responsible for the degradation of inosine-containing RNA (I-RNA). I-RNase is Mg2+ dependent and specifically degrades single-stranded I-RNA. Comparison of the Km of the enzyme for I-RNA with the Ki for inhibition by normal RNA suggests a approximately 300-fold preferential binding to I-RNA, which can account for the specificity of degradation. The site of cleavage by I-RNase is non-specific; I-RNase acts as a 3'-->5' exonuclease generating 5'-NMPs as products. The presence of alternative unconventional nucleotides in RNA does not result in degradation unless inosine residues are also present. We show that I-RNase is able to degrade RNAs that previously have been modified by the RED-1 double-stranded RNA adenosine deaminase (dsRAD). dsRADs destabilize dsRNA by converting adenosine to inosine, and some of these enzymes are interferon inducible. We therefore speculate that I-RNase in concert with dsRAD may form part of a novel cellular antiviral defence mechanism that acts to degrade dsRNA.
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PMID:A ribonuclease specific for inosine-containing RNA: a potential role in antiviral defence? 915 39

Oxytocin (OT) and its receptor (OTR) are synthesized in the endometrium and myometrium of the pregnant rat during late gestation. Both are regulated by estrogen and progesterone (P4), and tissue concentrations of both increase markedly before parturition. The P4 antagonist RU486 will induce parturition in the rat. The purpose of the present studies was to investigate changes in OT and OTR messenger RNA (mRNA) and peptide synthesis within the pregnant rat uterus during RU486-induced parturition. Pregnant rats were given a single injection of RU486 (2.5 mg/rat in oil) on day 15 of pregnancy (normal delivery occurs on day 22). Control animals received injections of oil only. Groups of animals (n = 5 in each group) were euthanized at 0, 6, 12, 24, and 48 h after injection and during labor (immediately after delivery of the first pup). Maternal serum estradiol (E2), P4 and uterine OT, and PGE2 concentrations were measured by RIA. Prostaglandin F2alpha and estrogen receptor levels were measured by enzyme immunoassay (EIA). OTR and P4 receptor (PR) were measured using radioligand-binding assays. OT, OTR, and estrogen receptor mRNAs were measured with ribonuclease protection assays. The average time to delivery, after RU486 injection, was 27.0 +/- 1.2 h. Serum E2 and P4 levels were increased slightly, but significantly, at 24 h after RU486. In controls, OT mRNA increased significantly, and this increase was blocked in the RU486 treatment group. OTR mRNA levels increased within 6 h of RU486 and remained elevated until delivery. OTR peptide was increased by 12 h. PGE2 and PGF2alpha were increased 3-fold and 16-fold, respectively, but not until after the increase in OTR had occurred. We conclude that the mechanism of action of RU486 is to inhibit the P4 suppression of OTR synthesis, allowing increased expression of OTR, which may directly stimulate myometrial contractions or act indirectly through increased synthesis of PGs.
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PMID:Effects of RU486 on estrogen, progesterone, oxytocin, and their receptors in the rat uterus during late gestation. 920 15

Relaxin promotes growth of reproductive tissues, including the uterus. Although we have evidence of a role for insulin-like growth factor I (IGF-I) in mediating relaxin-induced growth of porcine granulosa cells in vitro, the mechanism of action by which relaxin enhances uterine growth has not been identified. To investigate a role for the uterine insulin-like growth factor (IGF) system in relaxin-induced uterine growth, we monitored the effects of relaxin on porcine IGFs and IGF-binding proteins (IGFBPs) in vivo. The trophic effects of relaxin on the uterus were elicited by administering relaxin or saline to prepubertal gilts every 6 h for 54 h. Three hours after the last injection, uterine flushes, uteri, follicular fluid, and ovaries were collected. Estradiol was measured in plasma and follicular fluid to confirm the prepubertal status of each animal. Significantly higher concentrations of uterine lumen IGF-I (P < 0.05) and IGF-II (P < 0.01) were observed in animals treated with relaxin. However, relaxin administration did not affect uterine IGF-I and -II gene expression, as determined by a ribonuclease protection assay and Northern analysis, respectively. In uterine flushes, relaxin treatment increased an IGFBP doublet (33 and 34.5 kDa) and IGFBP-3. The uterine IGFBP doublet was identified as IGFBP-2 by immunoprecipitation. Plasma or follicular fluid IGFs and IGFBPs were unaffected by relaxin administration. In addition, relaxin did not influence IGF-I binding to its uterine receptor. This is the first study to demonstrate regulation of the pig uterine IGF system by relaxin. In conclusion, the data point to IGF-I, IGF-II, IGFBP-2, and IGFBP-3 as putative mediators of relaxin-induced uterine growth in the pig.
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PMID:Relaxin increases insulin-like growth factors (IGFs) and IGF-binding proteins of the pig uterus in vivo. 927 49

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