UNIPROT:P51532 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UNIPROT:P51532 (transcriptional activator)
6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genistein, a natural flavone found in soy has been postulated to be responsible for lowering the rate of breast cancer in Asian women. Our previous studies have shown that genistein exerts multiple suppressive effects on both estrogen receptor positive (ER+) as well as estrogen receptor negative (ER-) human breast carcinoma lines suggesting that the mechanisms of these effects may be independent of ER pathways. In the present study however we provide evidence that in the ER+ MCF-7, T47D and 549 lines but not in the ER-MDA-MB-231 and MDA-MB-468 lines both presumed "ER-dependent" and "ER-independent" actions of genistein are mediated through ER pathways. Genistein's antiproliferative effects are estrogen dependent in these ER+ lines, being more pronounced in estrogen-containing media and in the presence of exogenous 17-beta estradiol. Genistein also inhibits the expression of ER-downstream genes including pS2 and TGF-beta in these ER+ lines and this inhibition is also dependent on the presence of estrogen. Genistein inhibits estrogen-induced protein tyrosine kinase (PTK) activity. Genistein is only a weak transcriptional activator and actually decreases ERE-CAT levels induced by 17-beta estradiol in the ER+ lines. Genistein also decreases steady state ER mRNA only in the presence of estrogen in the ER+ lines thereby manifesting another suppression of and through the ER pathway. Our observations resurrect the hypothesis that genistein functions as a "good estrogen" in ER+ breast carcinomas. Since chemopreventive effects of genistein would be targeted to normal ER-positive ductal-lobular cells of the breast, this "good estrogen" action of genistein is most relevant to our understanding of chemoprevention.
...
PMID:Genistein's "ER-dependent and independent" actions are mediated through ER pathways in ER-positive breast carcinoma cell lines. 1095 3

The peroxide response-inducible genes ahpCF, dps, and katB in the obligate anaerobe Bacteroides fragilis are controlled by the redox-sensitive transcriptional activator OxyR. This is the first functional oxidative stress regulator identified and characterized in anaerobic bacteria. oxyR and dps were found to be divergently transcribed, with an overlap in their respective promoter regulatory regions. B. fragilis OxyR and Dps proteins showed high identity to homologues from a closely related anaerobe, Porphyromonas gingivalis. Northern blot analysis revealed that oxyR was expressed as a monocistronic 1-kb mRNA and that dps mRNA was approximately 500 bases in length. dps mRNA was induced over 500-fold by oxidative stress in the parent strain and was constitutively induced in the peroxide-resistant mutant IB263. The constitutive peroxide response in strain IB263 was shown to have resulted from a missense mutation at codon 202 (GAT to GGT) of the oxyR gene [oxyR(Con)] with a predicted D202G substitution in the OxyR protein. Transcriptional fusion analysis revealed that deletion of oxyR abolished the induction of ahpC and katB following treatment with hydrogen peroxide or oxygen exposure. However, dps expression was induced approximately fourfold by oxygen exposure in DeltaoxyR strains but not by hydrogen peroxide. This indicates that dps expression is also under the control of an oxygen-dependent OxyR-independent mechanism. Complementation of DeltaoxyR mutant strains with wild-type oxyR and oxyR(Con) restored the inducible peroxide response and the constitutive response of the ahpCF, katB, and dps genes, respectively. However, overexpression of OxyR abolished the catalase activity but not katB expression, suggesting that higher levels of intracellular OxyR may be involved in other physiological processes. Analysis of oxyR expression in the parents and in DeltaoxyR and overexpressing oxyR strains by Northern blotting and oxyR'::xylB fusions revealed that B. fragilis OxyR does not control its own expression.
...
PMID:The redox-sensitive transcriptional activator OxyR regulates the peroxide response regulon in the obligate anaerobe Bacteroides fragilis. 1096 88

The nucleotide sequence of rpoS, the gene for the stress sigma factor, was determined in 13 different K12 strains of Escherichia coli. The results indicate that the original K12 isolate carried an amber mutation at codon 33, which in 50% of the derivatives is mutated by a single base substitution to a coding triplet, in most cases to CAG encoding glutamine. The six non-K12 strains examined here had GAG, encoding glutamate, in position 33. The two most divergent strains had three and seven neutral substitutions in rpoS and carried insertions of 2100 and 2900 bp, respectively, just downstream of the gene. The genetic variations in rpoS were compared with the variation in RpoS-related phenotypes, by measuring catalase (KatE) activity, glycogen accumulation and acid phosphatase levels, and a katEp-gfp fusion was used to visualise katE gene transcription. The RpoS phenotypes of the six rpoS(33E) strains varied significantly more than that of the K12 rpoS(33Q) strains, especially with respect to acid phosphatase levels. This was due to the absence of the gene for the transcriptional activator AppY from four of the rpoS(33E) strains, while all the K12 derivatives carried this gene. When cloned into a LacI-controlled vector and compared in a rpoS::Tn 10 background, the RpoS(33Q) and RpoS(33E) variants showed the same activity.
...
PMID:Characterisation of the allelic variation in the rpoS gene in thirteen K12 and six other non-pathogenic Escherichia coli strains. 1181 Feb 63

In the search for new natural products with anti-oxidant activity, we have combined the cell-free assay based on the scavenging of the stable radical 2,2-diphenyl-1-picrylhydrazyl (DPPH), with a bioassay that detects oxidative mutagens. This bioassay uses a new Escherichia coli tester strain, IC203, specifically sensitive to oxidative stress due to a deficiency in the OxyR function. OxyR is a redox-sensitive transcriptional activator of genes encoding anti-oxidant enzymes such as catalase and peroxiredoxin alkyl hydroperoxide reductase. The positive response observed in E. coli IC203 with several known anti-oxidants, including cysteine, catechol and ascorbic acid, suggested to us the usefulness of the mutagenicity assay for a rapid screening of anti-oxidant compounds. The extract from Penicillium novae-zeelandiae was found to scavenge the DPPH radical. Subsequently, guided by the DPPH-scavenging assay and the oxidative mutagenesis assay, we isolated and identified three compounds in fractions from that active extract: patulin (1). 3-hydroxybenzyl alcohol (2). and gentisyl alcohol (2,5-dihydroxybenzyl alcohol) (3). Of these, gentisyl alcohol showed both DPPH-scavenging activity and oxidative mutagenicity. This compound also gave rise to intracellular formation of superoxide, evaluated by monitoring the oxidation of dihydroethidium, and was able to inhibit mutagenesis induced by the model oxidant t-butyl hydroperoxide (t-BuOOH).
...
PMID:Screening for metabolites from Penicillium novae-zeelandiae displaying radical-scavenging activity and oxidative mutagenicity: isolation of gentisyl alcohol. 1294 27

The SNF2-related CBP activator protein (SrCap) is a potent activator of transcription mediated by CBP and CREB. We have previously demonstrated that the Adenovirus 2 DNA Binding Protein (DBP) binds to SrCap and inhibits the transcription mediated by the carboxyl-terminal region of SrCap (amino acids 1275-2971). We report here that DBP inhibits the ability of full-length SrCap (1-2971) to activate transcription mediated by Gal-CREB and Gal-CBP. In addition, DBP also inhibits the ability of SrCap to enhance Protein Kinase A (PKA) activated transcription of the enkaphalin promoter. DBP was found to dramatically inhibit transcription of a mammalian two-hybrid system that was dependent on the interaction of SrCap and CBP binding domains. We also found that DBP has no effect on transcription mediated by a transcriptional activator that is not related to SrCap, indicating that our reported transcriptional inhibition is specific for SrCap and not due to nonspecific effects of DBP's DNA binding activity on the CAT reporter plasmid. Taken together, these results suggest a model in which DBP inhibits cellular transcription mediated by the interaction between SrCap and CBP.
...
PMID:Adenovirus DNA binding protein inhibits SrCap-activated CBP and CREB-mediated transcription. 1295 26

Bacteria are exposed to reactive oxygen species from the environment and from those generated by aerobic metabolism. Catalases are heme proteins that detoxify H(2)O(2), and many bacteria contain more than one catalase enzyme. Also, the nonheme peroxidase alkyl hydroperoxide reductase (Ahp) is the major scavenger of endogenous H(2)O(2) in Escherichia coli. Here, we show that aerobically grown Bradyrhizobium japonicum cells express a single catalase activity. Four genes encoding putative catalases in the B. japonicum genome were identified, including a katG homolog encoding a catalase-peroxidase. Deletion of the katG gene resulted in loss of catalase activity in cell extracts and of exogenous H(2)O(2) consumption by whole cells. The katG strain had a severe aerobic growth phenotype but showed improved growth in the absence of O(2). By contrast, a B. japonicum ahpCD mutant grew well aerobically and consumed H(2)O(2) at wild-type rates. A heme-deficient hemA mutant expressed about one-third of the KatG activity as the wild type but grew well aerobically and scavenged low concentrations of exogenous H(2)O(2). However, cells of the hemA strain were deficient in consumption of high concentrations of H(2)O(2) and were very sensitive to killing by short exposure to H(2)O(2). In addition, KatG activity did not decrease as a result of mutation of the gene encoding the transcriptional activator OxyR. We conclude that aerobic metabolism produces toxic levels of H(2)O(2) in B. japonicum, which is detoxified primarily by KatG. Furthermore, the katG level sufficient for detoxification does not require OxyR.
...
PMID:KatG is the primary detoxifier of hydrogen peroxide produced by aerobic metabolism in Bradyrhizobium japonicum. 1554 58

katA and ahpC, encoding monofunctional catalase and alkyl hydroperoxide reductase, respectively, play important protective roles against peroxide toxicity in Xanthomonas campestris pv. phaseoli (Xp). The expression of both katA and ahpC is controlled by the global peroxide sensor and transcriptional activator, OxyR. In Xp, these two genes have compensatory expression patterns. Inactivation of katA leads to an increase in the level of AhpC and a concomitant increase in resistance to tert-butyl hydroperoxide (tBOOH). High-level expression of katA from an expression vector in Xp also lowered the level of ahpC expression. The compensatory regulation of katA and ahpC was mediated by OxyR, since the compensatory response was not observed in an oxyR mutant background. ahpC and katA play important but unequal roles in protecting Xp from H(2)O(2) toxicity. These observations, taken together with a previous observation that an ahpC mutant expresses high levels of KatA and is hyper-resistant to H(2)O(2), suggest the possibility that inactivation of either gene leads to accumulation of intracellular H(2)O(2). This in turn oxidizes reduced OxyR and converts the regulator to the oxidized form that then activates expression of genes in the OxyR regulon.
...
PMID:OxyR mediated compensatory expression between ahpC and katA and the significance of ahpC in protection from hydrogen peroxide in Xanthomonas campestris. 1599 9

HypR has recently been described as the first transcriptional regulator involved in the oxidative stress response and in the intracellular survival of Enterococcus faecalis within macrophages. In order to characterize the HypR regulon, real-time quantitative RT-PCR experiments were performed. The expression of four genes involved in the oxidative stress response encoding catalase, glutathione reductase, and the two subunits of alkyl hydroperoxide reductase were down regulated in the hypR background under H(2)O(2) condition. These findings show that HypR acts as a transcriptional activator, especially during oxidative stress. In addition, DNAse I footprinting assays allowed us to identify the HypR-protected DNA regions corresponding to the "HypR box" in the hypR promoter. Moreover, the effect of the hypR mutation on the virulence of E. faecalis was evaluated in comparison with the wild-type JH2-2 strain using a mouse peritonitis model. Our results revealed that HypR appears to be an important virulence factor in E. faecalis.
...
PMID:Implication of hypR in the virulence and oxidative stress response of Enterococcus faecalis. 1621 43

Growth of Sinorhizobium meliloti under Pi-limiting conditions induced expression of the major H2O2-inducible catalase (HPII) gene (katA) in this organism. This transcription required the PhoB transcriptional regulator and initiated from a promoter that was distinct from the OxyR-dependent promoter which activates katA transcription in response to addition of H2O2. In N2-fixing root nodules, katA was transcribed from the OxyR- and not the PhoB-dependent promoter. This is consistent with the accumulation of reactive oxygen species (ROS) in nodules and also indicates that bacteroids within nodules are not Pi-limited. Pi-limited growth also induced expression of catalase genes in Agrobacterium tumefaciens (HPI) and Pseudomonas aeruginosa (PA4236-HPI) suggesting that this may be a widespread phenomenon. The response is not a general stress response as in both S. meliloti and P. aeruginosa increased transcription is mediated by the phosphate responsive transcriptional activator PhoB. The phenotypic consequences of this response were demonstrated in S. meliloti by the dramatic increase in H2O2 resistance of wild type but not phoB mutant cells upon growth in Pi-limiting media. Our data indicate that in S. meliloti, katA and other genes whose products are involved in protection from oxidative stress are induced upon Pi-limitation. These observations suggest that as part of the response to Pi-limitation, S. meliloti, P. aeruginosa and A. tumefaciens have evolved a capacity to increase their resistance to oxidative stress. Whether this capacity evolved because Pi-starved cells generate more ROS or whether the physiological changes that occur in the cells in response to Pi-starvation render them more sensitive to ROS remains to be established.
...
PMID:Phosphate limitation induces catalase expression in Sinorhizobium meliloti, Pseudomonas aeruginosa and Agrobacterium tumefaciens. 1623 34

The ZNF268 gene was originally isolated from an early human embryo cDNA library. Several different transcripts have been isolated for the ZNF268 gene and developmental expression studies suggest that ZNF268 plays a role in the development of human fetal liver and the differentiation of blood cells. In our effort to study the functions of ZNF268 in different organs during development and in pathogenesis, we have now identified 3 novel splicing isoforms, ZNF268e, ZNF268f and ZNF268g, in human fetal tissues and human tumor derived cell lines. The 8 alternatively spliced mRNAs discovered so for are predicted to encode 3 protein isoforms. Expression analysis showed that different mRNA isoforms have different expression profiles. In particular, ZNF268c mRNA was detected only in tumor cells, and ZNF268f appeared to be tissue-specific. By Western blot analysis, all 3 ZNF268 protein isoforms, ZNF268a, ZNF268b1 and ZNF268b2, were expressed in tumor cell lines, while only two protein products, ZNF268b1 and ZNF268b2, were detected in human fetal tissues. Subcellular localization analysis showed that ZNF268a and ZNF268b2 distributed diffusely throughout the cell, while ZNF268b1 mainly localized in the cytoplasm. Moreover, using a CAT reporter system fused to the Gal4 DNA binding domain of the ZNF268 gene, the ZNF268a and b2 activated the CAT reporter gene expression, while the KRAB domain, corresponding to the ZNF268b1 repressed the reporter gene expression. Taken together, our results showed that multiple ZNF268 splicing products encode multiple ZNF268 protein isoforms with different subcellular localization, and that the ZNF268 gene may function as a transcriptional activator in the growth and differentiation of cells in development and/or pathogenesis.
...
PMID:KRAB-containing zinc finger gene ZNF268 encodes multiple alternatively spliced isoforms that contain transcription regulatory domains. 1686 30

<< Previous 1 2 3 4 5 6 Next >>