Sp1 functions in a chromatin-dependent manner to augment human alpha-globin promoter activity.

Pondel, M.D.; Murphy, Shona; Pearson, Lori; Craddock, Charles; Proudfoot, Nick J.

doi:10.1073/pnas.92.16.7237

Cited by 30 publications

(21 citation statements)

References 27 publications

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“…First, the ␣-Luc plasmid, which has the entire CpG island, expresses at a high level after stable integration in the absence of HS Ϫ40, and the presence of this enhancer may be incapable of further substantial increases in expression. Consistent with this interpretation, constructs that do show a strong positive response to HS Ϫ40 in stably transfected K562 cells are not expressed at a detectable level in its absence (32). Second, the effect of HS Ϫ40 after stable integration in MEL cells is seen after induction (20,32), and in the absence of HS Ϫ40, expression of the human ␣-globin gene does not increase upon induction of stably transfected MEL cells (10,20).…”

Section: Discussionsupporting

confidence: 61%

“…This result contrasts with HS Ϫ40's strong positive effect on the expression of the human ␣-globin gene in stably transfected MEL cells upon induction (20,32). The very modest effect of HS Ϫ40 in stably transfected K562 cells may have multiple causes.…”

Section: Discussioncontrasting

confidence: 54%

“…It is important to note that the constructs in these latter experiments did not contain internal sequences (the promoter fragments end at ϩ17 of exon 1), and only background levels of expression were observed in the absence of induction of MEL cells or in the absence of HS Ϫ40 in K562 cells. However, both the experiments reported here and those of Pondel et al (32), using significantly different constructs and assay systems, revealed integration-dependent and presumably chromatin-associated effects of the 5Ј flanking portion of the CpG island. Furthermore, we show that another CpG island from the inactive -globin gene also supports high-level expression of the ␣-globin gene promoter and this effect is seen only after integration.…”

Section: Discussioncontrasting

confidence: 37%

“…Although only Sp1 was observed to bind to this segment in vitro and the effect of the sequences extending from positions Ϫ267 to Ϫ85 in stably transfected cells can be mimicked by a set of six Sp1 binding sites (32), integration-dependent activities of Sp1 binding sites in any context have yet to be demonstrated. In contrast, the ability of Sp1 to activate transcription of transiently transfected constructs is well established (e.g., 28,30,46,52).…”

Section: Discussionmentioning

confidence: 99%

“…This region is highly GϩC rich and comprises a third of the CpG island, but there is little sequence conservation beyond these features (19,51). Recently, Pondel et al (32) showed that part of this GϩC-rich region between Ϫ267 and Ϫ85 of the human ␣-globin gene is needed for inducible expression of constructs after stable integration into MEL cells when it is enhanced by HS Ϫ40. It is important to note that the constructs in these latter experiments did not contain internal sequences (the promoter fragments end at ϩ17 of exon 1), and only background levels of expression were observed in the absence of induction of MEL cells or in the absence of HS Ϫ40 in K562 cells.…”

Section: Discussionmentioning

confidence: 99%

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CpG Islands from the α-Globin Gene Cluster Increase Gene Expression in an Integration-Dependent Manner

Shewchuk

Hardison

1997

Molecular and Cellular Biology

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In contrast to other globin genes, the human and rabbit ␣-globin genes are expressed in transfected erythroid and nonerythroid cells in the absence of an enhancer. This enhancer-independent expression of the ␣-globin gene requires extensive sequences not only from the 5 flanking sequence but also from the intragenic region. However, the features of these internal sequences that are responsible for their positive effect are unclear. We tested several possible determinants of this activity. One possibility is that a previously identified array of discrete binding sites for known and potential regulatory proteins within the ␣-globin gene comprise an intragenic enhancer specific for the ␣-globin promoter, but directed rearrangements of the sequences show that this is not the case. Alternatively, the promoter may extend into the gene, with the function of the discrete binding sites being dependent on maintenance of their proper positions and orientations relative to the 5 flanking sequence. However, the positive effects observed in gene fusions do not localize to a discrete region of the ␣-globin gene and the results of internal deletions and point mutations argue against a required role of the targeted discrete binding sites. A third possibility is that the CpG island, which includes both the 5 flanking and intragenic regions associated with the positive activity, may itself have a more general effect on expression in transfected cells. Indeed, we show that the size of the CpG island in constructs correlates with the level of gene expression. Furthermore, the ␣-globin promoter is more active in the context of a previously inactive CpG island than in an A؉T-rich context, showing that the CpG island provides an environment more permissive for expression. These effects are seen only after integration, suggesting a possible mechanism at the level of chromatin structure.

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Section: Discussionsupporting

confidence: 61%

Section: Discussioncontrasting

confidence: 54%

Section: Discussioncontrasting

confidence: 37%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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CpG Islands from the α-Globin Gene Cluster Increase Gene Expression in an Integration-Dependent Manner

Shewchuk

Hardison

1997

Molecular and Cellular Biology

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Nmp4/CIZ contributes to fluid shear stress induced MMP‐13 gene induction in osteoblasts

Charoonpatrapong-Panyayong

Shah

Yang

et al. 2007

J of Cellular Biochemistry

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The expression of matrix metalloproteinase-13 (MMP-13), involved in bone turnover, is elevated in stretched MC3T3-E1 osteoblast-like cells. Strain-mediated forces impact bone remodeling due in large part to the movement of fluid through the canalicular-lacunar network. The resulting fluid shear stress (FSS) over the surface membranes of bone cells initiates bone remodeling. Although the nuclear events mediating putative FSS-induced changes in osteoblast MMP-13 transcription are unknown, previous studies with bone cells suggest an overlap between osteoblast FSS- and PTH-induced signal response pathways. MMP-13 PTH response is regulated by a 110 bp 5' regulatory region, conserved across the mouse, rat, and human genes, that supports the binding of numerous transcription factors including Runx2, c-fos/c-jun, Ets-1, and nuclear matrix protein 4/cas interacting zinc finger protein (Nmp4/CIZ) a nucleocytoplasmic shuttling trans-acting protein that attenuates PTH-driven transcription. Nmp4/CIZ also binds p130(cas), an adaptor protein implicated in mechanotransduction. Here we sought to determine whether Nmp4/CIZ contributes to FSS-induced changes in MMP-13 transcription. FSS (12 dynes/cm(2), 3-5 h) increased MMP-13 promoter-reporter activity approximately two-fold in MC3T3-E1 osteoblast-like cells attended by a comparable increase in mRNA expression. This was accompanied by a decrease in Nmp4/CIZ binding to its cis-element within the PTH response region, the mutation of which abrogated the MMP-13 response to FSS. Interestingly, FSS enhanced Nmp4/CIZ promoter activity and induced p130(cas) nuclear translocation. We conclude that the PTH regulatory region of MMP-13 also contributes to FSS response and that Nmp4/CIZ plays similar but distinct roles in mediating hormone- and FSS-driven induction of MMP-13 in bone cells.

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Effect of Acetaldehyde on Sp1 Binding and Activation of the Mouse α2(I) Collagen Promoter

Miao

Potter

Anania

et al. 1997

Archives of Biochemistry and Biophysics

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Sp1 functions in a chromatin-dependent manner to augment human alpha-globin promoter activity.

Cited by 30 publications

References 27 publications

CpG Islands from the α-Globin Gene Cluster Increase Gene Expression in an Integration-Dependent Manner

CpG Islands from the α-Globin Gene Cluster Increase Gene Expression in an Integration-Dependent Manner

Nmp4/CIZ contributes to fluid shear stress induced MMP‐13 gene induction in osteoblasts

Effect of Acetaldehyde on Sp1 Binding and Activation of the Mouse α2(I) Collagen Promoter

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