Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A binding site for the transcription factor CTCF is responsible for enhancer-blocking activity in a variety of vertebrate insulators, including the insulators at the 5' and 3' chromatin boundaries of the chicken beta-globin locus. To date, no functional domain boundaries have been defined at mammalian beta-globin loci, which are embedded within arrays of functional olfactory receptor genes. In an attempt to define boundary elements that could separate these gene clusters, CTCF-binding sites were searched for at the most distal DNase I-hypersensitive sites (HSs) of the mouse and human beta-globin loci. Conserved CTCF sites were found at 5'HS5 and 3'HS1 of both loci. All of these sites could bind to CTCF in vitro. The sites also functioned as insulators in enhancer-blocking assays at levels correlating with CTCF-binding affinity, although enhancer-blocking activity was weak with the mouse 5'HS5 site. These results show that with respect to enhancer-blocking elements, the architecture of the mouse and human beta-globin loci is similar to that found previously for the chicken beta-globin locus. Unlike the chicken locus, the mouse and human beta-globin loci do not have nearby transitions in chromatin structure but the data suggest that 3'HS1 and 5'HS5 may function as insulators that prevent inappropriate interactions between beta-globin regulatory elements and those of neighboring domains or subdomains, many of which possess strong enhancers.
Mol Cell Biol 2002 Jun
PMID:Conserved CTCF insulator elements flank the mouse and human beta-globin loci. 1199 16

Igf2 and H19 are closely linked imprinted genes lying at the centromeric end of a 1 Mb imprinted domain on mouse chromosome 7. L23mrp and other genes located 3' (more centromeric) to H19 are not imprinted and do not interact with the enhancers shared by Igf2 and H19. It is therefore suggested that the intergenic region between H19 and L23mrp contains a boundary or an insulator element. We have identified a binding site for CTCF, a nuclear factor that mediates insulator activity in vertebrates, in the intergenic region. This site is conserved between human and mouse, associated with a major DNase I-hypersensitive site, and bound by CTCF in vivo. Functional assays using reporter constructs demonstrated that this element functions as an insulator in transfected cells. The findings suggest that this CTCF site contributes to the 3' boundary of this imprinted domain. Together with the findings on the differentially methylated CTCF sites 5' to H19, CTCF-dependent insulators may not only regulate but also delimit the imprinted domain.
Hum Mol Genet 2002 Jul 01
PMID:An evolutionarily conserved putative insulator element near the 3' boundary of the imprinted Igf2/H19 domain. 1207 7

We have investigated the sequences of the mouse and human H19 imprinting control regions (ICRs) to see whether they contain nucleosome positioning information pertinent to their function as a methylation-regulated chromatin boundary. Positioning signals were identified by an in vitro approach that employs reconstituted chromatin to comprehensively describe the contribution of the DNA to the most basic, underlying level of chromatin structure. Signals in the DNA sequence of both ICRs directed nucleosomes to flank and encompass the short conserved sequences that constitute the binding sites for the zinc finger protein CTCF, an essential mediator of insulator activity. The repeat structure of the human ICR presented a conserved array of strong positioning signals that would preferentially flank these CTCF binding sites with positioned nucleosomes, a chromatin structure that would tend to maintain their accessibility. Conversely, all four CTCF binding sites in the mouse sequence were located close to the centre of positioning signals that were stronger than those in their flanks; these binding sites might therefore be expected to be more readily incorporated into positioned nucleosomes. We found that CpG methylation did not effect widespread repositioning of nucleosomes on either ICR, indicating that allelic methylation patterns were unlikely to establish allele-specific chromatin structures for H19 by operating directly upon the underlying DNA-histone interactions; instead, epigenetic modulation of ICR chromatin structure is likely to be mediated principally at higher levels of control. DNA methylation did, however, both promote and inhibit nucleosome positioning at several sites in both ICRs and substantially negated one of the strongest nucleosome positioning signals in the human sequence, observations that underline the fact that this epigenetic modification can, nevertheless, directly and decisively modulate core histone-DNA interactions within the nucleosome.
J Mol Biol 2003 Jan 31
PMID:Nucleosome positioning signals in the DNA sequence of the human and mouse H19 imprinting control regions. 1252 97

Drosophila and mammalian proteins protect genes from heterochromatic repression in Saccharomyces cerevisiae by two different mechanisms. Factors termed genuine boundary activities (BAs) establish a structural, unidirectional bulwark against heterochromatin. In contrast, factors termed desilencing activities (DAs) act by the formation of a bidirectional, euchromatic island that blocks spreading of heterochromatin. The Drosophila boundary protein BEAF and, unexpectedly, the mammalian factor Sp1 exhibited a robust BA in yeast. In contrast, mammalian CTCF, Drosophila GAGA factor, yeast Gcn5p, and many mammalian transcription factors, although inactive as upregulators of nonsilenced genes, work as DAs. DAs but not BAs protect telomere-linked genes from silencing, presumably due to looping of telomeres and ensuing multidirectional silencing. The data demonstrate that "genetic autonomy" of chromatin domains is established by both passive and active mechanisms.
Mol Cell 2003 Jan
PMID:Structural and dynamic functions establish chromatin domains. 1253 36

The adjacent insulin-like growth factor 2 (IGF2) and H19 genes are imprinted in most normal human tissues, but imprinting is often lost in tumors. The mechanisms involved in maintenance of imprinting (MOI) and loss of imprinting (LOI) are unresolved. We show here that osteosarcoma (OS) tumors with IGF2/H19 MOI exhibit allele-specific differential methylation of a CTCF-binding site upstream of H19. LOI of IGF2 or H19 in OS occurs in a mutually exclusive manner, and occurs with monoallelic expression of the other gene. Bisulfite sequencing reveals IGF2 LOI occurs with biallelic CpG methylation of the CTCF-binding site, while H19 LOI occurs with biallelic hypomethylation of this site. Our data demonstrate that IGF2 LOI and H19 LOI are accompanied by reciprocal methylation changes at a critical CTCF-binding site. We propose a model in which incomplete gain or loss of methylation at this CTCF-binding site during tumorigenesis explains the complex and often conflicting expression patterns of IGF2 and H19 in tumors.
Hum Mol Genet 2003 Mar 01
PMID:Loss of imprinting of IGF2 and H19 in osteosarcoma is accompanied by reciprocal methylation changes of a CTCF-binding site. 1258 1

Thyroid hormones and thyroid hormone receptors (TRs) confer a fundamental regulation of critical genes involved in metabolism, differentiation, and development. A similar role is attributed to the highly conserved zinc-finger factor CTCF. Furthermore, a potential role in tumour suppression has been attributed to CTCF. In addition to promoter regulation, CTCF has also been shown to be involved in chromatin insulation or enhancer blocking. In several cases, binding sites for TR and for CTCF have been found next to each other. Functionally, these sites mediate synergistic repression or induction dependent on the type of binding site and on the presence or absence of thyroid hormone. Here we discuss functional similarities between TR and CTCF and their roles within these composite elements.
J Steroid Biochem Mol Biol 2002 Dec
PMID:The thyroid hormone receptor and the insulator protein CTCF: two different factors with overlapping functions. 1265 Jul 1

The imprinting of the genes on human chromosome 11p15.5 is thought to be controlled by two imprinting control regions located in two differentially methylated CpG islands upstream of the H19 gene (H19 DMR) and in intron 10 of the KCNQ1 gene (KvDMR). We have examined sequences in the human 11p15.5 genomic imprinted region for the presence of insulators and silencers using a position- and enhancer-dependent stable transfection assay. We have confirmed the existence of insulators in H19 DMR and discovered two novel insulators in the IGF2 gene. We have also found two novel silencer sequences; one is located in KvDMR, a region that is thought to contain the promoter for the KCNQ1OT1 transcript, and another is in the CDKN1C gene. We have demonstrated binding of CTCF protein in vitro to all the insulator and silencer sequences that we have detected. We discuss the differences in the regulation of imprinting controlled by the two imprinting control regions in chromosome 11p.
Hum Mol Genet 2003 Aug 01
PMID:Insulator and silencer sequences in the imprinted region of human chromosome 11p15.5. 1287 12

The Barr body has long been recognized as the cytological manifestation of the inactive X chromosome (Xi) in interphase nuclei. Despite being known for over 50 years, relatively few components of the Barr body have been identified. In this study, we have screened over 30 histone variants, modified histones and non-histone proteins for their association with or exclusion from the Barr body. We demonstrate that, similar to the histone variant macroH2A, heterochromatin protein-1 (HP1), histone H1 and the high mobility group protein HMG-I/Y are elevated at the territory of the Xi in interphase in human cell lines, but only when the Xi chromatin is heteropycnotic, implicating each as a component of the Barr body. Surprisingly, however, virtually all other candidate proteins involved in establishing heterochromatin and gene silencing are notably absent from the Barr body despite being localized generally elsewhere throughout the nucleus, indicating that the Barr body represents a discrete subnuclear compartment that is not freely accessible to most chromatin proteins. A similar dichotomous pattern of association or exclusion describes the spatial relationship of a number of specific histone methylation patterns in relation to the Barr body. Notably, though, several methylated forms of histone H3 that are deficient in Xi chromatin generally are present at a region near the macrosatellite repeat DXZ4, as are the chromatin proteins CTCF and SAP30, indicating a distinctive chromatin state in this region of the Xi. Taken together, our data imply that the Xi adopts a distinct chromatin configuration in interphase nuclei and are consistent with a mechanism by which HP1, through histone H3 lysine-9 methylation, recognizes and assists in maintaining heterochromatin and gene silencing at the human Xi.
Hum Mol Genet 2003 Sep 01
PMID:Chromatin of the Barr body: histone and non-histone proteins associated with or excluded from the inactive X chromosome. 1291 72

The human beta-globin locus contains five developmentally regulated beta-type globin genes. All five genes depend on the locus control region (LCR), located at the 5' end of the locus, for abundant globin gene transcription. The LCR is composed of five DNase I-hypersensitive sites (HSs), at least a subset of which appear to cooperate to form a holocomplex in activating genes within the locus. We previously tested the requirement for proper LCR polarity by inverting it in human beta-globin yeast artificial chromosome transgenic mice and observed reduced expression of all the beta-type globin genes regardless of developmental stage. This phenotype clearly demonstrated an orientation-dependent activity of the LCR, although the mechanistic basis for the observed activity was obscure. Here, we describe genetic evidence demonstrating that human HS5 includes enhancer-blocking (insulator) activity that is both CTCF and developmental stage dependent. Curiously, we also observed an attenuating activity in HS5 that was specific to the epsilon-globin gene at the primitive stage and was independent of the HS5 CTCF binding site. These observations demonstrate that the phenotype observed in the LCR-inverted locus was in part attributable to placing the HS5 insulator between the LCR HS enhancers (HS1 to HS4) and the promoter of the beta-globin gene.
Mol Cell Biol 2003 Dec
PMID:Human beta-globin locus control region HS5 contains CTCF- and developmental stage-dependent enhancer-blocking activity in erythroid cells. 1464 7

Insulator elements and matrix attachment regions are essential for the organization of genetic information within the nucleus. By comparing the pattern of histone modifications at the mouse and human c-myc alleles, we identified an evolutionarily conserved boundary at which the c-myc transcription unit is separated from the flanking condensed chromatin enriched in lysine 9-methylated histone H3. This region harbors the c-myc insulator element (MINE), which contains at least two physically separable, functional activities: enhancer-blocking activity and barrier activity. The enhancer-blocking activity is mediated by CTCF. Chromatin immunoprecipitation assays demonstrate that CTCF is constitutively bound at the insulator and at the promoter region independent of the transcriptional status of c-myc. This result supports an architectural role of CTCF rather than a regulatory role in transcription. An additional higher-order nuclear organization of the c-myc locus is provided by matrix attachment regions (MARs) that define a domain larger than 160 kb. The MARs of the c-myc domain do not act to prevent the association of flanking regions with lysine 9-methylated histones, suggesting that they do not function as barrier elements.
Mol Cell Biol 2003 Dec
PMID:The c-myc insulator element and matrix attachment regions define the c-myc chromosomal domain. 1464 43


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>