Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.31.1 (micrococcal nuclease)
 2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mouse mammary tumor virus (MMTV) promoter is positively regulated by glucocorticoid hormone via binding of glucocorticoid receptor to a specific response element. Upon addition of hormone, a nucleosome containing the glucocorticoid response element is removed or structurally altered, suggesting that the nucleosome interferes with transcription. Accordingly, inhibition of chromatin assembly should relieve the repression and result in an increased constitutive activity. We have tested this hypothesis by injecting nonspecific competitor DNA into Xenopus laevis oocytes to titrate endogenous histones. The coinjection of competitor DNA altered chromatin structure: nucleosomal ladders produced by micrococcal nuclease were disrupted, and the unique helical setting of the MMTV promoter in a nucleosome was lost, as shown by in situ DNase I footprinting. Basal MMTV transcription was drastically increased by competitor DNA, whereas a coinjected, constitutively active adenovirus 2 major late promoter was not stimulated. These results show that the uninduced MMTV promoter is under negative control and provide direct support for the theory that the nucleosomal organization maintains the repression of this promoter in its uninduced state.
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PMID:Inhibition of chromatin assembly in Xenopus oocytes correlates with derepression of the mouse mammary tumor virus promoter. 165 27

Activation of mouse mammary tumor virus transcription by the hormone-bound glucocorticoid receptor results in disruption of a nucleosome that is specifically positioned on the promoter. Limited treatment of cells with the histone deacetylase inhibitor sodium butyrate prevents receptor-dependent promoter activation and nucleosome disruption [Bresnick, E. H., John, S., Berard, D. S., LeFebvre, P., & Hager, G. L. (1990) Proc. Natl. Acad. Sci. U.S.A. 87, 3977-3981]. On the basis of this observation, we undertook a series of experiments to compare the structure of normal and hyperacetylated mouse mammary tumor virus chromatin. Although butyrate prevents hormone-induced restriction enzyme cutting specifically in the B nucleosome region, chromatin containing hyperacetylated histones does not differ from normal chromatin in general sensitivity to restriction enzymes. Indirect end-labeling analysis of micrococcal nuclease digested chromatin reveals that nucleosomes are identically phased on the mouse mammary tumor virus long terminal repeat in normal and hyperacetylated chromatin. A synthetic DNA fragment spanning the B nucleosome region was reconstituted into a monosome by using core particles containing normal or hyperacetylated histones. Analysis of the structure of reconstituted monosomes by nondenaturing polyacrylamide gel electrophoresis, salt stability, thermal stability, restriction enzyme accessibility, and exonuclease III or DNase I footprinting reveals no effect of histone hyperacetylation on monosome structure. These observations suggest that histone hyperacetylation does not induce a major change in the structure of mouse mammary tumor virus chromatin, such as nucleosome unfolding.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Histone hyperacetylation does not alter the positioning or stability of phased nucleosomes on the mouse mammary tumor virus long terminal repeat. 184 27

Intranuclear distribution of rat liver glucocorticoid receptors was examined. When the [3H]TA-receptor complex-bound nuclei were digested with micrococcal nuclease, the [3H]TA-receptor complex sedimented coincident with mono-, di- and trinucleosomes on a glycerol gradient. The specific activity of the [3H]TA-receptor associated with chromatin fragments in the Mg-soluble fraction was 13-fold higher than that in the Mg-insoluble fraction. In adrenalectomized rats, the nucleosome-bound [3H]TA-receptor complex was reduced, but the specific activity in the Mg-soluble fraction was almost the same as that in intact rats. Endogenous glucocorticoid receptor complex associated with mononucleosomes decreased 2 weeks after adrenalectomy. These results suggest that interaction between the glucocorticoid receptor complex and chromatin acceptor sites in intact and adrenalectomized rats occurred in the transcriptionally active chromatin regions which are sensitive to micrococcal nuclease.
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PMID:Intranuclear distribution of rat liver glucocorticoid receptors by nuclease digestion in a cell-free system. 325 Aug 66

Binding of the glucocorticoid receptor complex to nucleosomes has been studied using the mouse P1798 lymphosarcoma. Cells were incubated with [3H]triamcinolone acetonide (TA), and nuclei prepared and digested with 3 different concentrations of micrococcal nuclease. After fractionation with EDTA and NaCl, it was observed that [3H]TA bound with similar specific radioactivity to mononucleosomes containing both core and linker DNA, of 183 +/- 5, and 168 +/- 4 base pair lengths, respectively, as well as to core size DNA, of 148 +/- 3 base pair length, suggesting that the glucocorticoid receptor bound to the core portion of the nucleosome. Steroid binding was found to be associated with regions of the nucleosome that were depleted in histone H1 and enriched in high mobility group (HMG) proteins 1 and 2; only negligible binding was noted in nucleosomes enriched in histone H1 and depleted in HMG proteins. In addition to binding to core nucleosomes, the glucocorticoid receptor complex was also shown to bind to a fraction sedimenting at 5-6 S on sucrose gradients characterized by subnucleosome and mononucleosome size DNA, as well as by core histones. While binding of the steroid receptor complex to linker regions of the nucleosome cannot be ruled out, this data would appear to present the first concrete evidence that glucocorticoid binding, at least in the P1798 lymphosarcoma, is to core nucleosomes. Some caution in interpretation of the results is indicated, however, on 2 points: (1) receptor redistribution during nuclease digestion cannot be ruled out; (2) only the binding of a small proportion of the steroid receptor complex may be physiologically relevant.
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PMID:Binding of the glucocorticoid receptor complex to the nucleosomal core in the P1798 mouse lymphosarcoma. 392 86

The thyroid hormone receptor is a chromatin-associated protein which appears to mediate the actions of the thyroid hormones in mammalian cells. Unlike steroid hormone receptors, a cytoplasmic form of the receptor has not been identified, and the factors which govern the nuclear concentrations of the receptor are poorly understood. Using cultured GH1 cells, a rat pituitary cell line, we having previously demonstrated that thyroid hormones reduces the concentration of its receptor by a mechanism which involves the association of the ligand with the receptor binding site (Samuels, H.H., Stanley, F., and Shapiro, L.E. (1977) J. Biol. Chem. 252, 6052-6060). In this study, we demonstrate that n-butyrate and other aliphatic carboxylic acids elicit a reduction of thyroid hormone nuclear receptor levels without altering total cell protein synthetic rates. In contrast, the nuclear association and total cell level of the glucocorticoid receptor is not altered by n-butyrate. Evidence is presented that the aliphatic carboxylic acid-mediated reduction of thyroid hormone nuclear receptor levels is secondary to the inhibitory effect of these compounds on chromatin-associated deacetylases which is reflected as an increase in the acetylation of the nucleosome core histones. Isokinetic gradient centrifugation of chromatin solubilized from GH1 cell nuclei by micrococcal nuclease indicates that the receptor exists as a form associated with high molecular weight chromatin, as a 12.5 S form that sediments slightly faster than the bulk of the mononucleosomes, and as a 6.5 S form which appears to remain associated with low molecular weight chromatin components. Exclusive of the receptor associated with the high molecular weight chromatin, the 6.5 S form represents 80% and the 12.5 S form 10% of the receptor resolved in the gradient. n-Butyrate decreases both forms to the same degree suggesting that they are generated from the same "entity" of chromatin structure. Studies on the reappearance of receptor after restoration of the chromatin to the "normal" acetylated state are consistent with a model in which the affinity of chromatin for newly synthesized receptor is diminished in the "hyperacetylated" state.
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PMID:Thyroid hormone nuclear receptor levels are influenced by the acetylation of chromatin-associated proteins. 624 82

Gene regulation by steroid hormone receptors depends on the particular character of the DNA response element, the array of neighboring transcription factors, and recruitment of coactivators that interface with the transcriptional machinery. We are studying these complex interactions for the androgen-dependent enhancer of the mouse sex-limited protein (Slp) gene. This enhancer has, in addition to multiple androgen receptor (AR)-binding sites, a central region (FPIV) with a binding site for the ubiquitous transcription factor Oct-1 that appears crucial for hormonal regulation in vivo. To examine the role of Oct-1 in androgen-specific gene activation, we tested the interaction of Oct-1 with AR versus glucocorticoid receptor (GR) in vivo and in vitro. Oct-1 coimmunoprecipitated from cell lysates with both AR and GR, but significant association with AR required both proteins to be DNA-bound. This was confirmed by sensitivity of the protein association to treatment with ethidium bromide or micrococcal nuclease. Addition of DNA to micrococcal nuclease-treated samples restored interaction, even when binding sites were on separate DNA molecules, suggesting association was due to direct protein-protein interaction and not indirect tethering via the DNA. AR/GR chimeras revealed that interaction of the N and C termini of AR was required to communicate the DNA-bound state that enhances interaction with Oct-1. Protease digestion assays of hormone-bound receptors revealed further conformational changes in the ligand binding domain of AR, but not GR, upon DNA binding. Furthermore, these conformational changes led to increased interaction with the coactivator SRC-1, via the NID 4 domain, suggesting DNA binding facilitates recruitment of SRC-1 by the AR-Oct-1 complex. Altogether, these results suggest that the precise arrangement of binding sites in the Slp enhancer ensures proper hormonal response by imposing differential interactions between receptors and Oct-1, which in turn contributes to SRC-1 recruitment to the promoter.
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PMID:Oct-1 preferentially interacts with androgen receptor in a DNA-dependent manner that facilitates recruitment of SRC-1. 1109 94

The glucocorticoid receptor (GR) is a ligand-activated transcription factor that induces expression of many genes. The GR has been useful for understanding how chromatin structure regulates steroid-induced transcription in model systems. However, the effect of glucocorticoids on chromatin structure has been examined on few endogenous mammalian promoters. We investigated the effect of glucocorticoids on the in vivo chromatin structure of the glucocorticoid-responsive I kappa B alpha gene promoter, the inhibitor of the ubiquitous transcription factor, nuclear factor kappa B (NF kappa B). Glucocorticoids inhibit NF kappa B activity in some tissues by elevating the levels of I kappa B alpha. We found that glucocorticoids activated the I kappa B alpha promoter in human T47D/A1-2 cells containing the GR. We then investigated the chromatin structure of the I kappa B alpha promoter in the absence and presence of glucocorticoids with the use of micrococcal nuclease, restriction enzyme, and deoxyribonuclease (DNaseI) analyses. In untreated cells, the promoter assembles into regularly positioned nucleosomes, and glucocorticoid treatment did not alter nucleosomal position. Restriction enzyme accessiblity studies indicated that the I kappa B alpha promoter is assembled as phased nucleosomes that adopt an "open" chromatin architecture in the absence of hormone. However, glucocorticoids may be required for transcription factor binding, because DNaseI footprinting studies suggested that regulatory factors bind to the promoter upon glucocorticoid treatment.
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PMID:Glucocorticoid receptor activation of the I kappa B alpha promoter within chromatin. 1169 73

Xenopus oocytes lack somatic linker histone H1 but contain an oocyte-specific variant, B4. The glucocorticoid receptor (GR) inducible mouse mammary tumor virus (MMTV) promoter was reconstituted in Xenopus oocytes to address the effects of histone H1. The expression of Xenopus H1o [corrected] (H1) via cytoplasmic mRNA injection resulted in H1 incorporation into in vivo assembled chromatin based on (i) the appearance of a chromatosome stop, (ii) the increased nucleosome repeat length (NRL), and (iii) H1-DNA binding assayed by chromatin immunoprecipitation (ChIP). The H1 effect on the NRL was saturable and hence represents H1-binding to a specific site. A subsaturating level of H1 enhanced the hormone-dependent binding of GR to the glucocorticoid response elements (GREs) and the hormone-dependent MMTV transcription while it reduced the access to DNA as revealed by micrococcal nuclease (MNase) analysis. These H1 effects were lost at higher levels of H1. ChIP and MNase analysis revealed a hormone-dependent dissociation of H1 from the activated chromatin domain. The proposed mechanism of H1-induced GR binding is based on two effects: (i) a GR-induced asymmetric distribution of H1 in favor of inactive chromatin and (ii) an H1-induced reduction in DNA access. These effects results in increased concentration of free GR and, hence, in increased GR-GRE binding.
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PMID:Mechanism of histone H1-stimulated glucocorticoid receptor DNA binding in vivo. 1721 Jun 32