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: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated the ability of dehydroepiandrosterone (DHEA) to alter the production of interleukin-2 (IL-2) and to bind to a specific binding complex in antiCD3 epsilon activated T cells. Binding activity correlated with the presence of a specific DHEA binding complex in the cytosol and nuclei of DHEA-responsive T-cell hybridomas, as well as in CD4+ and CD8+ cells isolated from peripheral lymph nodes of normal mice. Scatchard analysis determined that intact lymphocytes and cytosolic fractions contained high affinity binding for [3H]DHEA (approx. 2.6 nM) with 1000-7000 binding sites existing per cell. Five of the T-cell hybridomas tested both responded to DHEA treatment with increased production of IL-2 and also contained specific high affinity [3H]DHEA binding. Four additional T-cell hybridomas were found to contain no specific [3H]DHEA binding and were also unresponsive to DHEA influences on IL-2 production. Sucrose density gradients demonstrated a 3-4s [3H]DHEA binding complex in high salt and a 7-8s binding complex in low salt. Specific binding was inhibited by preincubation of the cytosol fractions with either trypsin or chymotrypsin, or by heating to 60 degrees C for 1 h (less than 15% of control). [3H]DHEA binding was unaffected by preincubation of the cytosol fractions with ribonuclease, deoxyribonuclease, or phospholipase A. The DHEA-protein complexes bound to DNA-cellulose with the amount of binding being slightly increased by preincubation at 25 degrees C as compared to 4 degrees C. As expected, [3H]DHEA binding was inhibited by the addition of unlabeled DHEA, but was also modestly inhibited by dihydrotestosterone and cortisol. Binding of DHEA was unaffected by progesterone, dexamethasone, estradiol, androsterone, DHEAS, and beta-etiocholanolone at all concentrations tested. DHEA was incapable of inhibiting the binding of [3H]DHT to the androgen receptor or [3H]dexamethasone to the glucocorticoid receptor. Collectively, these findings suggest that murine T cells contain a specific DHEA receptor. We believe that DHEA is a steroid hormone that is directly involved in the regulation of IL-2 production by both normal and some T-cell hybridomas.
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PMID:The presence of a dehydroepiandrosterone-specific receptor binding complex in murine T cells. 135 1

In the kidney, 11 beta-dehydrogenase (11 beta-DH) converts the active steroid cortisol to inactive cortisone (corticosterone to 11-dehydrocorticosterone in the rat). In man, congenital and acquired deficiency of 11 beta-dehydrogenase are rare causes of hypertension in which cortisol acts as a potent mineralocorticoid. Observations from these clinical studies indicate that 11 beta-DH conveys specificity for the mineralocorticoid receptor in distal tubules and collecting ducts. However, while some studies do indicate 11 beta-DH activity in rat distal tubules and collecting ducts, immunohistochemical studies localize 11 beta-DH only to proximal tubules. to resolve this dilemma, we have performed in situ hybridization localization of 11 beta-DH mRNA in rat kidney tissue using 35S-labeled sense and antisense cRNA probes to rat 11 beta-DH. In contrast to our immunohistochemical studies in which 11 beta-DH protein was localized predominantly to proximal tubules in the inner cortex, 11 beta-DH mRNA was expressed in tubules in both the inner and outer cortex, most probably proximal and distal tubules, and in collecting ducts extending across the corticomedullary junction to the papillary tip. Weak hybridization was also seen in glomeruli, but no hybridization to the sense 11 beta-DH cRNA or to sections pretreated with RNase-A was observed. We conclude that renal 11 beta-DH is suitably located to prevent access of glucocorticoid to the MR in an autocrine and not a paracrine fashion. 11 beta-DH in proximal tubules may protect the glucocorticoid receptor.
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PMID:Localization of renal 11 beta-dehydrogenase by in situ hybridization: autocrine not paracrine protector of the mineralocorticoid receptor. 184 10

A small (Mr less than 500) anionic, heat-stable molecule has been identified in rat liver cytosol which prevents the RNase-induced decrease in the glucocorticoid receptor sedimentation properties which we described previously. This factor, which can be removed by dialysis, molecular exclusion chromatography, or ultrafiltration, functions as a true stabilizer of the RNA-glucocorticoid receptor association, and not as a RNase inhibitor. Preliminary characterization shows that the factor is not a protein, nucleic acid, or nucleotide, is not absorbed by activated dextran-charcoal, and is unaffected by extraction with organic solvents. This factor prevents activation of the glucocorticoid receptor by dilution. The relationship of this stabilization factor to a low molecular weight activation inhibitor described by others is discussed.
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PMID:Stabilization of glucocorticoid receptor association with RNA by a low molecular weight factor from rat liver cytosol. 241 81

The cytosolic untransformed molybdate-stabilized glucocorticoid-receptor complex from rat liver was eluted as a heterogenous peak containing two components with Stokes radii (Rs) of 8.3 nm and 7.1 nm when analyzed by size-exclusion HPLC even in the absence of molybdate. In contrast, the highly purified glucocorticoid receptor yielded a sharp symmetrical peak of Rs = 7.1 nm. We demonstrate that the 7.1-nm component could not result from a proteolytic degradation of the 8.3-nm receptor form. The same receptor heterogeneity was observed in thymus cytosol which contains less proteases than liver. After labeling with [3H]dexamethasone 21-mesylate and SDS/PAGE the same 94-kDa receptor band was revealed in both the 8.3-nm and 7.1-nm forms. Immunoblotting experiments showed that both the 94-kDa hormone-binding subunit and the 90-kDa heat-shock protein were present in the two different receptor forms. The 8.3-nm receptor form was converted to the 7.1-nm receptor form after treatment by ribonuclease A in the presence of molybdate and this effect was dose-dependent, being completely prevented by placental ribonuclease inhibitor (RNasin). In contrast, in the presence of molybdate, the 7.1-nm receptor form was ribonuclease-insensitive. Treatment of cytosol with RNase A in the absence of molybdate, partially shifted the untransformed receptor towards the 5.2-nm transformed receptor form. This effect was abolished by placental ribonuclease inhibitor. RNase S protein, an enzymatically inactive proteolytic fragment of RNase A, or S1 nuclease, which is specific for single-stranded nucleic acids, were ineffective when used instead of RNase A. In contrast, cobra venom endonuclease, which preferentially attacks double-stranded regions of small RNAs, caused a complete conversion of the 7-8-nm untransformed receptor to the 5.2-nm transformed receptor form. These results were not observed in the presence of molybdate. Addition of RNasin prior to heating cytosol in the absence of molybdate did not prevent the receptor from dissociating to the 5.2-nm form, suggesting that an endogenous RNase is not involved in the transformation process. The 7.1-nm receptor form was shifted to a 9.2-nm complex when incubated with an excess of GR 49 antireceptor antibody, whereas the 8.3-nm receptor form did not bind to the antibody.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:RNA binding to the untransformed glucocorticoid receptor. Sensitivity to substrate-specific ribonucleases and characterization of a ribonucleic acid associated with the purified receptor. 246 3

The 5'-region of the rat alpha 2-macroglobulin gene has been characterized. A 5.6 kb Sal I - Xba I fragment containing the first 4 exons of the alpha 2-macroglobulin gene and 1.3 kb of its 5'-flanking region was sequenced. The putative transcriptional start site was determined by RNase protection and primer extension analysis. TATA- and CAAT-box equivalent sequences were found. A potential glucocorticoid receptor binding site was located on the antisense strand. DNA sequences containing the 5'-flanking region of the rat alpha 2-macroglobulin gene were linked to the gene coding for the bacterial chloramphenicol acetyltransferase and introduced into Hep G2 cells. In these transfected Hep G2 cells CAT activity could be induced by recombinant human interleukin-6. Deletion analyses have shown that the sequences between -852 and -777 as well as between -404 and -165 relative to the cap site, contain regulatory elements involved in the interleukin-6 dependent induction of the alpha 2-macroglobulin gene.
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PMID:Identification of the promoter sequences involved in the interleukin-6 dependent expression of the rat alpha 2-macroglobulin gene. 246 33

The upstream regulatory region of the human papilloma virus-16 (HPV-16) genomic DNA contains a sequence element with a large degree of homology to the partially palindromic sequence GGTACANNNTGTTCT, which is the consensus sequence of the glucocorticoid responsive elements of known genes regulated by this steroid hormone. DNase I and dimethylsulfate protection experiments reveal the binding of this sequence by rat glucocorticoid receptor protein. A 400-bp DNA segment centrally containing this sequence confers strong inducibility by dexamethasone to the promoter p97 of HPV-16 and to the Herpes simplex virus thymidine kinase promoter, as judged by chloramphenicol acetyltransferase activity and RNase protection assays. The same DNA segment, that does not contain the consensus sequences of all papilloma viruses relevant for E2 protein-mediated transcription enhancement, functions in an enhancer-like fashion in addition to its glucocorticoid responsive action. This hormone-independent transcription enhancement is absent in human MCF7 cells, but is strong in human HeLa cells where the combined activity of the constitutive and the steroid hormone-dependent enhancer elements stimulate transcription by a factor of 500. This cell type specificity of the HPV-16 enhancer may be responsible for the tissue tropism of the virus. These observations and the presence of numerous homologies to known enhancers of cellular and viral genes suggest a complex pattern of activation of the human papilloma virus-16 promoters.
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PMID:The upstream regulatory region of the human papilloma virus-16 contains an E2 protein-independent enhancer which is specific for cervical carcinoma cells and regulated by glucocorticoid hormones. 282 35

The glucocorticoid receptor (GC-R) isolated from the mouse AtT-20 pituitary tumor cell line exists in three forms. The untransformed (non-DNA-binding), 9.1S species (319K) can be converted into two transformed (DNA-binding) species. One of these (5.2 S, Mr 132K) appears to be composed of one molecule of the hormone-binding, monomeric protein (96K) plus a small RNA, while the second transformed species is the monomeric, hormone-binding subunit (3.8 S, 96K) itself. We wished to determine whether the untransformed GC-R contains RNA or if the monomer binds to RNA subsequent to subunit dissociation (which occurs during receptor transformation). Kinetic studies using both the crude and purified untransformed GC-R show that the untransformed, 9.1S GC-R dissociates into 3.8S monomeric subunits, without forming a transient 5.2S complex. The untransformed receptor was then purified with affinity chromatography, gel filtration, and DEAE-cellulose chromatography. One major protein band, corresponding in size to the GC-R monomer (94K-96K), was observed on sodium dodecyl sulfate-polyacrylamide gels upon silver staining or fluorography of [3H]dexamethasone mesylate covalently labeled receptor. In vivo 32P-labeling of AtT-20 cells, followed by purification of the untransformed GC-R, yielded two major 32P-labeled components (94K-96K and 24K). Both of these bands were protease-sensitive, contained phosphoserine, and were unaffected by ribonuclease treatment. We conclude that the untransformed mouse GC-R is wholly proteinaceous and contains no RNA. Thus, RNA binding occurs subsequent to dissociation of the oligomeric, untransformed GC-R complex into monomers.
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PMID:Absence of detectable ribonucleic acid in the purified, untransformed mouse glucocorticoid receptor. 381 82

Rat liver and kidney cytosolic extracts contain the glucocorticoid receptor (binder II) and corticosteroid binder IB, both of which possess the steroid- and DNA-binding domains. Since it has been speculated that the smaller binder IB may be generated from binder II by proteolysis, the chymotrypsin-produced receptor fragment in rat liver cytosol has been compared with binder IB in terms of charge, size and DNA binding characteristics. The [3H]triamcinolone acetonide-receptor complex is converted to a smaller fragment by short term digestion (10 degrees C, 30 min) with 100 micrograms/ml alpha-chymotrypsin. Although the chymotrypsin fragment produced from previously heat-activated binder II and binder IB both exhibit DNA-binding capability, they differ in charge and size. Whereas the alpha-chymotrypsin-treated receptor has a Stokes radius of 30 A and elutes from DEAE-cellulose at 0.06 M potassium phosphate in a linear salt gradient, binder IB has a Stokes radius of 20 A and elutes in the buffer wash of the DEAE-cellulose column. Thus, while binder IB can be resolved from the heat-activated form of the [3H]TA-receptor on DEAE, the heat activated alpha-chymotrypsin product elutes from the anion exchange resin at the same ionic strength as intact activated binder II (i.e. at 0.05 M potassium phosphate), and the unactivated intact receptor elutes at about 0.20 M potassium phosphate. A more extended digestion with alpha-chymotrypsin (24 h, 0 degrees C) results in elimination of the DNA binding site without further reduction of the Stokes radius or change in the elution pattern from DEAE-cellulose. Furthermore, molybdate completely blocks formation of binder IB but does not inhibit the production of the receptor fragment by alpha-chymotrypsin. Treatment of the hepatic [3H]TA-receptor complex with RNase has no effect on the charge, size or DNA binding properties of the bound receptor. These results suggest that RNase does not activate the [3H]TA-receptor complex nor does it produce a IB-like component in the liver cytosol. The present results are consistent with the hypothesis that binder IB is formed in vitro by a process which may not involve proteolytic cleavage or RNase-induced modification of the glucocorticoid receptor (binder II).
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PMID:Comparison of corticosteroid binder IB with the alpha-chymotrypsin- and RNase-treated hepatic glucocorticoid receptors. 667 55

The in vitro nuclear binding of rat uterine estrogen-receptor complexes has been studied. Heating cytosol from mature rat uterus at 25 C for various times in the presence of 0.15 M KCl resulted in a transient increase in nuclear binding activity, followed by irreversible loss of this activity. The molecular state of these complexes heated at 25 C in the presence of 0.15 M KCl was determined using Sephadex G-200 chromatography and sucrose density centrifugation at high ionic strength (0.4 M KCl). Gel filtration resulted in steroid-binding activity in the void volume. Sucrose density gradient analysis revealed a broad peak, ranging from approximately 5-20S. When cytosol was heated at 25 C in the presence of 10 mM molybdate to block the temperature-induced activation of receptor, nuclear binding ability was easily recovered by dialysis, while heating already activated estrogen receptor in the presence of 0.15 M KCl and 10 mM molybdate caused irreversible loss of nuclear binding ability. When cytosols prepared from immature rats (19-23 days old) were heated at 25 C in the presence of 0.15 M KCl, only a minimum loss of nuclear binding ability was shown. The radioactive peak in a high salt sucrose density gradient appeared almost exclusively in the 5S region. However, the addition of receptor-free mature uterine cytosol to estrogen-receptor complexes from immature rat uterus caused a marked loss of nuclear binding utility, with a resultant receptor aggregation, whereas rat liver cytosol had no effect on this reaction. Furthermore, heating liver glucocorticoid receptor did not cause a loss of nuclear binding ability even in the presence of receptor-free adult rat uterine cytosol. These observations suggest that there is a factor(s) in rat uterus which recognizes only activated estrogen receptor and induces receptor aggregation and a rapid loss of the nuclear binding ability of receptor in a KCl concentration- and temperature-dependent manner. Preliminary characterization indicates that this factor is macromolecular in nature and resistant to RNase and trypsin treatment, but labile at 100 C.
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PMID:A modulator which converts activated estrogen receptor to a biologically inactive aggregated form. 679 27

Corticosteroid binder IB is a glucocorticoid receptor present in rat liver, kidney cortex and proximal colon. It is characterized by a lower molecular weight than the traditional and widely distributed glucocorticoid receptor II. The two receptors also differ in charge, affinity towards various steroids and potency of binding to DNA, nuclei and homodeoxypolymers. The in vivo and in vitro production of binder IB is not affected by protease inhibitors, nor can IB be produced by RNase digestion or proteolytic cleavage of binder II or its precursor molecule. The presumptive physiological role of corticosteroid binder IB and the implied biological significance of receptor diversity are discussed.
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PMID:Corticosteroid binder IB: a model of glucocorticoid receptor diversity. 688 67


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