EC:3.6.1.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pressure-overload hypertrophy results in downregulation of the sarcoplasmic reticulum Ca(2+)-ATPase pump encoding SERCA2 gene that regulates Ca(2+) uptake and myocardial relaxation. We previously characterized a proximal promoter region containing four Sp1 element consensus sequences (-284 to -72 base pairs (bp)) that was responsible for pressure-overload-induced transcriptional regulation. The purpose of the present study was to determine which of the Sp1 sites was responsible for the downregulation of SERCA2 gene transcription under pressure overload. Using an in vivo direct gene transfer assay, SERCA2 gene transcriptional activity was measured under pressure overload. Site-directed mutagenesis of the four Sp1 sites (I-IV) in the SERCA2 gene promoter (-284 to -72 bp) was performed. Wild-type and Sp1 mutant-luciferase reporter constructs were injected into the left-ventricular apices of pressure overload or sham-operated rats, and Sp1 mRNA and SERCA2 gene-luciferase activity was measured sequentially from 3 to 14 d after surgery. At 5 d, Sp1 mRNA in the pressure-overload rats increased to 124 +/- 7% of sham group levels, and pressure-overload-induced SERCA2 transcriptional activity was 15 +/- 4% of sham group when all four Sp1 sites remained intact. Mutation of the Sp1 mutant sites I (-196 to -191 bp) and III (-118 to -113 bp) blocked the inhibitory effect of pressure overload and resulted in SERCA2 gene transcriptional activity of 54 +/- 15% and 56 +/- 7% of sham group, respectively. We conclude that the pressure-overload-induced decrease in SERCA2 mRNA is mediated by Sp1 sites I and III.
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PMID:Transcription factor Sp1 regulates SERCA2 gene expression in pressure-overloaded hearts: a study using in vivo direct gene transfer into living myocardium. 1281 68

Diabetic cardiomyopathy is characterized by impaired cardiac contractility leading to poor myocardial performance. We investigated the role that the hexosamine pathway, and especially altered nuclear O-Glc-NAcylation, plays in the development of diabetic cardiomyopathy. Incubating neonatal rat cardiomyocytes in high glucose (25 mM) resulted in prolonged calcium transients when compared with myocytes incubated in normal glucose (5.5 mM), which is consistent with delayed myocardial relaxation. High glucose-treated myocytes also exhibited reduced sarcoendoplasmic reticulum Ca(2+)-ATPase 2a (SERCA2a) mRNA and protein expression, decreased SERCA2a promoter activity, and increased O-GlcNAcylation of nuclear proteins compared with myocytes treated with normal glucose. Exposure of myocytes to 8 mM glucosamine or an adenovirus expressing O-GlcNAc-transferase (OGT) resulted in prolonged calcium transient decays and significantly reduced SERCA2a protein levels, whereas treatment with an adenovirus encoding O-GlcNAcase (GCA) resulted in improved calcium transients and SERCA2a protein levels in myocytes exposed to high glucose. Effects of elevated glucose or altered O-GlcNAcylation were also observed on essential transcription factors involved in cardiomyocyte function. High glucose-treated myocytes (with or without OGT adenovirus) exhibited increased levels of O-GlcNAcylated specificity protein 1 compared with control myocytes, whereas infecting high glucose-treated myocytes with GCA adenovirus reduced the degree of specificity protein 1 Glc-NAcylation. Treatment of myocytes with 25 mM glucose, 8 mM glucosamine, or OGT adenovirus also significantly reduced levels of myocytes enhancer factor-2A protein compared with control myocytes, whereas infection with GCA adenovirus resulted in improved myocytes enhancer factor-2 expression. Our results suggest that the hexosamine pathway, and O-GlcNAcylation in particular, is important in impaired cardiac myocyte function and the development of diabetic cardiomyopathy.
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PMID:Diabetes and the accompanying hyperglycemia impairs cardiomyocyte calcium cycling through increased nuclear O-GlcNAcylation. 1294 58

The gonadotropin-regulated testicular RNA helicase (GRTH/DDX25) is a new member of the DEAD-box protein family. Phylogenetic analysis revealed that GRTH is distantly related to other members of the family. GRTH is transcriptionally up-regulated by gonadotropin, displays ATPase and RNA helicase activities, and participates in germ cell development. To understand the regulation of GRTH gene expression, we investigated its structural organization and aspects of basal transcriptional regulation at the promoter domain. The 20-kb mouse GRTH gene contains 12 coding exons and all but one of its conserved helicase motifs are contained within single exons. GRTH is a TATA-less gene with multiple transcriptional start sites (TSS), GC-rich sequences and a promoter located within -205/+63 bp of the gene. Sequences -852/-354 and -501/-354 bp caused 40-60% and >80% inhibition of transcription in expressing and non-expressing cells, respectively. Transcriptional activity was recovered only in expressing cells by the addition of upstream sequences (-1085/-852 bp). Sp1/Sp3 supported basal transcriptional activity in all cell types, while E-box was an activator-binding site only in non-expressing cells. These findings indicate that a differential pattern of transcriptional regulation may be involved in the control of GRTH gene expression in a cell-specific manner.
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PMID:Genomic organization and transcriptional analysis of gonadotropin-regulated testicular RNA helicase--GRTH/DDX25 gene. 1509 94

TRAIL-R2 promoter does not have a typical TATA-box but two functional Sp1-binding sites. TRAIL-R2 promoter belongs to the class of TATA-less and GC-box-containing promoters. The minimal promoter element is contained in the region spanning -198 to -116 upstream of translational initiation codon ATG. Computer analysis shows putative transcription factor binding sites such as c-Ets, AML-1a, c-Myb, Sp1, and GATA-1 in TRAIL-R2 promoter. Hypermethylation of TRAIL-R2 is not frequent compared with that of TRAIL-R3 and TRIAL-R4. There are no potential transcription factor binding sites in highly homologous regions between TRAIL-R2 promoter and TRAIL-R1 promoter, or between TRAIL-R2 promoter and mouse homologue mouse killer (MK) promoter. TRAIL-R2 is known to be a downstream gene of p53, a tumor-suppressor gene, and a p53-binding site in TRAIL-R2 intron 1 is responsible for p53-dependent transcription. Thapsigargin, endoplasmic reticulum Ca(2+)-ATPase inhibitor calcium releaser, upregulates TRAIL-R2 expression via the promoter region. Many regulators of TRAIL-R2 have been reported. However, it has not been demonstrated whether they regulate TRAIL-R2 via the promoter region. Here, we show a list of these regulators. Finally, we demonstrate the possibility of cancer therapy using regulation of TRAIL-R2 promoter.
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PMID:Promoter of TRAIL-R2 gene. 1511 Jan 70

Matrix metalloproteinases (MMPs) are zinc-dependent endopeptidases whose aberrant expression are correlated with tumor invasion and angiogenesis. The transcription factors Sp1, Sp3, and AP-2 are required for constitutive expression of MMP-2 in tumor cells; however, the regulatory mechanisms of MMP-2 expression are not well understood. We investigated the involvement of Brg-1, the ATPase subunit of the SWI/SNF complex, in human MMP-2 gene transcription. Reconstitution of Brg-1 enhances MMP-2 transcription in Brg-1-deficient SW-13 cells. Chromatin immunoprecipitation assay demonstrates that Brg-1 is required for recruitment of Sp1, AP-2, and polymerase II to the MMP-2 promoter, whereas the binding of Sp3 to the MMP-2 promoter is decreased upon Brg-1 reconstitution. Furthermore, Sp1 interacts with Brg-1 in vivo. Restriction enzyme accessibility assays indicate that accessibility of the MMP-2 promoter region is not changed in the absence or presence of Brg-1. These results illustrate the connection between the SWI/SNF complex and optimal expression of MMP-2 and highlight the critical function of Brg-1 in regulating the recruitment of Sp1, Sp3, AP-2, and polymerase II to the MMP-2 promoter.
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PMID:Brg-1 is required for maximal transcription of the human matrix metalloproteinase-2 gene. 1531 18

The Na+,K+-ATPase is a ubiquitous protein found in virtually all animal cells which is involved in maintaining the electrochemical gradient across the plasma membrane. It is a multimeric enzyme consisting of alpha, beta and gamma subunits that may be present as different isoforms, each of which has a tissue-specific expression profile. The expression of the Na+,K+-ATPase alpha3 subunit in humans is confined to developing and adult brain and heart, thus suggesting that its catalytic activity is strictly required in excitable tissues. In the present study, we used structural, biochemical and functional criteria to analyse the transcriptional mechanisms controlling the expression of the human gene in neurons, and identified a minimal promoter region of approx. 100 bp upstream of the major transcription start site which is capable of preferentially driving the expression of a reporter gene in human neuronal cell lines. This region contains the cognate DNA sites for the transcription factors Sp1/3/4 (transcription factors 1/3/4 purified from Sephacryl and phosphocellulose columns), NF-Y (nuclear factor-Y) and a half CRE (cAMP-response element)-like element that binds a still unknown protein. Although the expression of these factors is not tissue-specific, co-operative functional interactions among them are required to direct the activity of the promoter predominantly in neuronal cells.
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PMID:The expression of the human neuronal alpha3 Na+,K+-ATPase subunit gene is regulated by the activity of the Sp1 and NF-Y transcription factors. 1546 73

The Na,K-ATPase is a transmembrane protein responsible for maintaining electrochemical gradients across the plasma membrane in all mammalian cells, a process that is subject to regulation at the transcriptional as well as post-transcriptional level. Included among physiologic regulators in the kidney are prostaglandins. Previously, we demonstrated that prostaglandin E(1) (PGE(1)) increases the activity and expression of the Na,K-ATPase in Madin-Darby canine kidney cells (Taub, M., Borsick, M., Geisel, J., Matlhagela, K., Rajkhowa, T., and Allen, C. (2004) Exp. Cell Res. 299, 1-14; Taub, M. L., Wang, Y., Yang, I. S., Fiorella, P., and Lee, S. M. (1992) J. Cell. Physiol. 151, 337-346). In this work, we present evidence that transcription of the Na,K-ATPase beta(1) subunit is stimulated by PGE(1), an effect that may be mediated through the cAMP and Ca(2+) pathways. Transient transfection studies using 5'-deletion mutants of the human beta(1) subunit promoter indicated that region -100 to -92 containing the sequence AGTCCCTGC (a prostaglandin-responsive element (PGRE)) is required to elicit the stimulatory effects of PGE(1), 8-bromo-cAMP, phorbol 12-myristate 13-acetate, and okadaic acid. Electrophoretic mobility shift assays indicated that both the cAMP regulatory element-binding protein (CREB) and Sp1 bind to the PGRE present within this region of the beta(1) subunit promoter. The involvement of the PGRE and Sp1 sites in regulation by PGE(1) was further confirmed by the increased PGE(1) stimulation that was observed following insertion of the PGRE into a promoter/luciferase construct containing a portion of a heterologous promoter and the fibronectin promoter with four GC boxes. Further evidence suggesting an interaction between Sp1 and CREB was obtained from experiments conducted with pLuc-MCS-beta 72-167, which contains region -167 to -72 in the human beta(1) subunit promoter. The PGE(1) stimulation observed in Madin-Darby canine kidney cells transiently transfected with pLuc-MCS-beta 72-167 was reduced when the two GC boxes immediately upstream from the PGRE were translocated farther upstream. Also consistent with an interaction between CREB and Sp1 are the results of our immunoprecipitation studies indicating that CREB co-immunoprecipitated with Sp1 when an antibody against CREB, Sp1, or the CREB-binding protein was used.
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PMID:Identification of a prostaglandin-responsive element in the Na,K-ATPase beta 1 promoter that is regulated by cAMP and Ca2+. Evidence for an interactive role of cAMP regulatory element-binding protein and Sp1. 1548 16

Hailey-Hailey disease (HHD) is a blistering skin disease caused by malfunction of the Ca2+-dependent ATPase, ATP2C1. In this study, key regulatory regions necessary for the expression of the gene encoding human ATP2C1 were investigated. The transient reporter assay demonstrated that region +21/+57 was necessary for activation of the ATP2C1 promoter, and the electrophoretic mobility shift assay demonstrated that the region was recognized by the transcription factors, Sp1 and YY1. In accordance with this result, when Sp1 or YY1 was overexpressed in keratinocytes, an obvious increase in ATP2C1 promoter activity was observed, which was in contrast with the case where a mutant promoter lacking the binding sites for Sp1 and YY1 was used as the reporter. Ca2+-stimulation signal increased nuclear Sp1 proteins and ATP2C1 mRNA levels in normal keratinocytes. In contrast, both these increases were suppressed in keratinocytes from HHD patients. These results indicate that Sp1 and YY1 transactivate the human ATP2C1 promoter via cis-enhancing elements and that incomplete upregulation of ATP2C1 transcription contributes to the keratinocyte-specific pathogenesis of HHD. This is a report describing the regulation of the expression of ATP2C1.
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PMID:Transcriptional regulation of ATP2C1 gene by Sp1 and YY1 and reduced function of its promoter in Hailey-Hailey disease keratinocytes. 1595 96

Ouabain, a cardiotonic steroid and a specific inhibitor of the Na(+)-K(+)-ATPase, has been shown to significantly inhibit transcellular Na(+) transport without altering the intracellular Na(+) concentration ([Na(+)](i)) in the epithelial cells derived from the renal proximal tubules. We therefore studied whether ouabain affects the activity and expression of Na(+)/H(+) exchanger isoform 3 (NHE3) representing the major route of apical Na(+) reabsorption in LLC-PK(1) cells. Chronic basolateral, but not apical, exposure to low-concentration ouabain (50 and 100 nM) did not change [Na(+)](i) but significantly reduced NHE3 activity, NHE3 protein, and mRNA expression. Inhibition of c-Src or phosphoinositide 3-kinase (PI3K) with PP2 or wortmannin, respectively, abolished ouabain-induced downregulation of NHE3 activity and mRNA expression. In caveolin-1 knockdown LLC-PK(1) cells, ouabain failed to downregulate NHE3 mRNA expression and NHE3 promoter activity. Ouabain response elements were mapped to a region between -450 and -1,194 nt, where decreased binding of thyroid hormone receptor (TR) and Sp1 to their cognate cis-elements was documented in vitro and in vivo by protein/DNA array analysis, EMSA, supershift, and chromatin immunoprecipitation. These data suggest that, in LLC-PK(1) cells, ouabain-induced signaling through the Na(+)-K(+)-ATPase-Src pathway results in decreased Sp1 and TR DNA binding activity and consequently in decreased expression and activity of NHE3. These novel findings may represent the underlying mechanism of cardiotonic steroid-mediated renal compensatory response to volume expansion and/or hypertension.
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PMID:Cardiac glycoside downregulates NHE3 activity and expression in LLC-PK1 cells. 1660 Dec 99

Renal prostaglandins modulate the activity of a number of the transport systems in the kidney, including the Na-K-ATPase. Not only do prostaglandins have acute affects on renal Na-K-ATPase, but in addition prostaglandins have chronic affects, which include regulation at the transcriptional level. Previously, we have presented evidence that one such prostaglandin, PGE(1), stimulates the transcription of the human Na-K-ATPase beta(1)-subunit gene in Madin-Darby canine kidney cells via cAMP- and Ca(2+)-mediated pathways (Taub M, Borsick M, Geisel J, Matlhagela K, Rajkhowa T, and Allen C. Exp Cell Res 299: 1-14, 2004; Matlhagela K, Borsick M, Rajkhowa T, and Taub M. J Biol Chem 280: 334-346, 2005). Evidence was presented indicating that PGE(1) stimulation was mediated through the binding of cAMP-regulatory element binding protein (CREB) to a prostaglandin-responsive element (PGRE) as well as Sp1 binding to an adjacent Sp1 site. In this report, we present evidence from EMSAs and DNA affinity precipitation studies that another PGRE present in the Na-K-ATPase beta(1)-subunit promoter similarly binds CREB and Sp1. The evidence that indicates a requirement for CREB as well as Sp1 for gene activation through both PGREs (PGRE1 and PGRE3) includes studies with a dominant negative CREB (KCREB), Drosophila SL2 cells, and PGRE mutants. The results of these studies are indicative of a synergism between Sp1 and CREB in mediating regulation by PGRE3; while regulation occurring through PGRE1 also involves Sp1 and CREB, the mechanism appears to be distinct.
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PMID:Regulation of the Na-K-ATPase beta(1)-subunit promoter by multiple prostaglandin-responsive elements. 1647 73

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