Efficient Selection of Enhancers and Promoters from MIA PaCa-2 Pancreatic Cancer Cells by ChIP-lentiMPRA.

A library of active genome regulatory elements (putative promoters and enhancers) from MIA PaCa-2 pancreatic adenocarcinoma cells was constructed using a specially designed lentiviral vector and a massive parallel reporter assay (ChIP-lentiMPRA). Chromatin immunoprecipitation of the cell genomic DNA by H3K27ac antibodies was used for primary enrichment of the library for regulatory elements. Totally, 11,264 unique genome regions, many of which are capable of enhancing the expression of the CopGFP reporter gene from the minimal CMV promoter, were identified.

Suppression of the Testis-Specific Transcription of the ZBTB32 and ZNF473 Genes in Germ Cell Tumors.

The family of genes containing C2H2 zinc finger domains, which has more than 700 members, is one of the largest in the genome. Of particular interest are C2H2 genes with potential tissue-specific transcription, which determine the functional properties of individual cell types, including those associated with pathological processes. The aim of this work was to identify C2H2 family genes with tissue-specific transcription and analyze changes in their activity during tumor progression.

Correlation between Expression of KLF5 and ZEB1 Transcription Factor Genes in Pancreatic Cancer.

The mRNA content of the transcription factors KLF5 and ZEB1 was studied in pancreatic tumor tissues and in fetal and normal pancreas. Transcription of these factors was not high and similar in normal and fetal pancreatic tissues but greatly increased in the pancreatic ductal adenocarcinoma tissues. A significant positive correlation between the KLF5 and ZEB1 transcription levels in the pancreatic tumor tissues was observed.

Expression of transcription factor genes in cell lines corresponding to different stages of pancreatic cancer progression.

The expression level of six transcription factor genes and the content of their protein products in five pancreatic cancer cell lines with parallel control of expression of three marker genes reflecting epithelial or mesenchymal state of cells was investigated. Cell lines MIA PaCa-2 and Capan-2 represented the best models of quasi-mesenchymal and epithelial, respectively, types of progression of the pancreatic ductal adenocarcinoma, according to the content of E-cadherin and vimentin and the expression of KLF5 and ZEB1 transcription factors.

In trans promoter activation by enhancers in transient transfection.

Earlier, it was reported that the strong cytomegalovirus enhancer can activate the cytomegalovirus promoter in trans, i.e. as a separate plasmid co-transfected with a promoter-reporter gene construct.

Intragenic Locus in Human PIWIL2 Gene Shares Promoter and Enhancer Functions.

Recently, more evidence supporting common nature of promoters and enhancers has been accumulated. In this work, we present data on chromatin modifications and non-polyadenylated transcription characteristic for enhancers as well as results of in vitro luciferase reporter assays suggesting that PIWIL2 alternative promoter in exon 7 also functions as an enhancer for gene PHYHIP located 60Kb upstream. This finding of an intragenic enhancer serving as a promoter for a shorter protein isoform implies broader impact on understanding enhancer-promoter networks in regulation of gene expression.

Binding of Protein Factor CTCF within Chicken Genome Alpha-Globin Locus.

A systematic search for DNA fragments containing potential CTCF transcription factor binding sites in the chicken alpha-globin domain and its flanking regions was performed by means of the two-dimension electrophoretic mobility shift assay. For the alpha-globin domain fragments selected, the occupancy by the CTCF in erythroid and lymphoid chicken cells was tested by chromatin immunoprecipitation. Only one of 13 DNA fragments capable of CTCF binding in vitro was efficiently bound to this protein in vivo in erythroid cells, and somewhat less efficiently - in lymphoid cells.

The clustering of CpG islands may constitute an important determinant of the 3D organization of interphase chromosomes.

We used the 4C-Seq technique to characterize the genome-wide patterns of spatial contacts of several CpG islands located on chromosome 14 in cultured chicken lymphoid and erythroid cells. We observed a clear tendency for the spatial clustering of CpG islands present on the same and different chromosomes, regardless of the presence or absence of promoters within these CpG islands. Accordingly, we observed preferential spatial contacts between Sp1 binding motifs and other GC-rich genomic elements, including the DNA sequence motifs capable of forming G-quadruplexes.

Assay of insulator enhancer-blocking activity with the use of transient transfection.

We used a transient transfection of cultured cells with linearized plasmids to analyze the enhancer-blocking activity of potential insulators including the standard cHS4 chicken beta-globin insulator and several DNA fragments selected from the human genome sequence. About 60-80% of the potential insulators do reveal the enhancer-blocking activity when probed by the transient transfection assay. The activity of different sequences is characterized by certain tissue specificity and by dependence on the orientation of the fragments relative to the promoter.

Expression of chicken CTCF gene in COS-1 cells and partial purification of CTCF protein.

The chicken gene for transcription factor CTCF was expressed in COS-1 mammalian cells. The CTCF protein containing polyhistidine tag was partially purified using metallo-affinity and ion-exchange chromatography. The expressed protein localized in the cell nucleus and was shown to be functionally active in the electrophoretic mobility shift assay and specifically interacted with anti-CTCF antibodies.

[Affinity capture of specific DNA fragments with the use of short synthetic sequences].

The ability of short peptide nucleic acid (PNA) oligomers and oligonucleotides containing modified residues of 5-methylcitidine, 2-aminoadenosine and 5-propynyl-2'-deoxyuridine (strong binding oligonucleotides, SBO) to affinity capture the target double-stranded DNA fragment from mixture by means of the end invasion was compared. Both types of probes were highly effective at the conditions used. The SBO-based probes may represent a handy and easily prepared alternative to PNA for selection of target DNA fragments from mixtures.

Human PSENEN and U2AF1L4 genes are concertedly regulated by a genuine bidirectional promoter.

Head-to-head genes with a short distance between their transcription start sites may constitute up to 10% of all genes in the genomes of various species. It was hypothesized that this intergenic space may represent bidirectional promoters which are able to initiate transcription of both genes, but the true bidirectionality was proved only for a few of them. We present experimental evidence that, according to several criteria, a 269 bp region located between the PSENEN and U2AF1L4 human genes is a genuine bidirectional promoter regulating a concerted divergent transcription of these genes.

DNA fragments binding CTCF in vitro and in vivo are capable of blocking enhancer activity.

Background: Earlier we identified ten 100-300-bp long CTCF-binding DNA fragments selected earlier from a 1-Mb human chromosome 19 region. Here the positive-negative selection technique was used to check the ability of CTCF-binding human genomic fragments to block enhancer-promoter interaction when inserted into the genome.

Results: Ten CTCF-binding DNA fragments were inserted between the CMV enhancer and CMV minimal promoter driving the herpes simplex virus thymidine kinase (HSV-tk) gene in a vector expressing also the neoR gene under a separate promoter.

Functional dissection of an enhancer-like element located within the second intron of the human U2AF1L4 gene.

A detailed functional and evolutionary analysis of an enhancer element of the human genome (enhancer 12) located in the second intron of the U2AF1L4 gene, which we identified earlier, is presented. Overlapping fragments of the studied genome region were analyzed for enhancer activity, and the site responsible for the activity of this element was identified using transient transfections of HeLa cells. Comparison of the enhancer 12 sequence with orthologous sequences from seven primate species revealed the existence of evolutionarily conserved sequences within this element.

Dam methylase accessibility as an instrument for analysis of mammalian chromatin structure.

For a 140-kb human genome locus, an analysis of the distribution of Dam methylase accessible sites, DNase I sensitive and resistant regions, unmethylated CpG sites and acetylated histone H3 molecules was performed and compared with transcriptional activity of the genes within the locus. A direct correlation was found between the extent of Dam methylation and C5 cytosine (CpG) methylation. It was also demonstrated that promoter regions of all highly and moderately transcribed genes are highly accessible to methylation by Dam methylase.

[Enhancer activity of DNA fragments from FXYD5-COX7A region of human chromosome 19].

The enhancer activity of four previously identified within the one megabase region of human chromosome 19 DNA fragments was investigated. All four fragments had similar tissue-specific profile--maximum of enhancer activity was observed in HEK293 and minimum in HeLa cells. Enhancers obtained had pronounced specificity toward cytomegalovirus promoter compared with SV40 promoter.

Vertebrate Protein CTCF and its Multiple Roles in a Large-Scale Regulation of Genome Activity.

The CTCF transcription factor is an 11 zinc fingers multifunctional protein that uses different zinc finger combinations to recognize and bind different sites within DNA. CTCF is thought to participate in various gene regulatory networks including transcription activation and repression, formation of independently functioning chromatin domains and regulation of imprinting. Sequencing of human and other genomes opened up a possibility to ascertain the genomic distribution of CTCF binding sites and to identify CTCF-dependent cis-regulatory elements, including insulators.

Identification and mapping of ten new potential insulators in the FXYD5-COX7A1 region of human chromosome 19q13.12.

A positive-negative selection system revealed 10 potential insulators able to block enhancer interaction with promoter in the 10(6) bp human chromosome 19 region between genes FXYD5 and COX7A1. Relative positions of insulators and genes are in accord with the hypothesis that insulators subdivide genomic DNA into independently regulated loop domains.

Identification of recognition sites for myc/max/mxd network proteins by a whole human chromosome 19 selection strategy.

In this study, we have identified 20 human sequences containing Myc network binding sites in a library from the whole human chromosome 19. We demonstrated binding of the Max protein to these sequences both in vitro and in vivo. The majority of the identified sequences contained one or several CACGTG or CATGTG E-boxes.

Maps of cis-Regulatory Nodes in Megabase Long Genome Segments are an Inevitable Intermediate Step Toward Whole Genome Functional Mapping.

The availability of complete human and other metazoan genome sequences has greatly facilitated positioning and analysis of various genomic functional elements, with initial emphasis on coding sequences. However, complete functional maps of sequenced eukaryotic genomes should include also positions of all non-coding regulatory elements. Unfortunately, experimental data on genomic positions of a multitude of regulatory sequences, such as enhancers, silencers, insulators, transcription terminators, and replication origins are very limited, especially at the whole genome level.

A new technique for selective identification and mapping of enhancers within long genomic sequences.

We report a new experimental method of direct selection, identification, and mapping of potential enhancer sequences within extended stretches of genomic DNA. The method allows simultaneous cloning of a quantity of sequences instead of tedious screening of the separate ones, thus providing a robust and high-throughput approach to the mapping of enhancers. The selection procedure is based on the ability of such sequences to activate a minimal promoter that drives expression of a selective gene.

[Identification and mapping of cis-regulatory elements within long genomic sequences].

The publication of the human and other metazoan genome sequences opened up the possibility for mapping and analysis of genomic regulatory elements. Unfortunately, experimental data on genomic positions of such sequences as enhancers, silencers, insulators, transcription terminators, and replication origins are very limited, especially at the whole genome level. As most genomic regulatory elements (e.

Methods for identification of epigenetic elements in mammalian long multigenic genome sequences.

Epigenetic elements of the genome, i.e. elements that determine stably inherited changes in gene expression without changes in the genomic DNA sequence, are essential tools of genetic regulation in higher eukaryotes.

Identification of tissue-specific DNA-protein binding sites by means of two-dimensional electrophoretic mobility shift assay display.

We developed a technique of differential electrophoretic mobility shift assay (EMSA) display allowing identification of tissue-specific protein-binding sites within long genomic sequences. Using this approach, we identified 10 cell type-specific protein-binding sites (protein target sites [PTSs]) within a 137-kb human chromosome 19 region. In general, tissue-specific binding of proteins from different nuclear extracts by individual PTSs did not follow the all-or-nothing principle.

A map of nuclear matrix attachment regions within the breast cancer loss-of-heterozygosity region on human chromosome 16q22.1.

There is abundant evidence that the DNA in eukaryotic cells is organized into loop domains that represent basic structural and functional units of chromatin packaging. To explore the DNA domain organization of the breast cancer loss-of-heterozygosity region on human chromosome 16q22.1, we have identified a significant portion of the scaffold/matrix attachment regions (S/MARs) within this region.