Your search keyword '"Splinter, Erik"' showing total 32 results

1. Elevated enhancer-oncogene contacts and higher oncogene expression levels by recurrent CTCF inactivating mutations in acute T cell leukemia

Author

Smits, Willem K., Vermeulen, Carlo, Hagelaar, Rico, Kimura, Shunsuke, Vroegindeweij, Eric M., Buijs-Gladdines, Jessica G.C.A.M., van de Geer, Ellen, Verstegen, Marjon J.A.M., Splinter, Erik, van Reijmersdal, Simon V., Buijs, Arjan, Galjart, Niels, van Eyndhoven, Winfried, van Min, Max, Kuiper, Roland, Kemmeren, Patrick, Mullighan, Charles G., de Laat, Wouter, and Meijerink, Jules P.P.

Published

2023

2. Formalin-Fixed, Paraffin-Embedded–Targeted Locus Capture: A Next-Generation Sequencing Technology for Accurate DNA-Based Gene Fusion Detection in Bone and Soft Tissue Tumors

Author

Stelloo, Ellen, Meijers, Ruud W.J., Swennenhuis, Joost F., Allahyar, Amin, Hajo, Karima, Cangiano, Mario, de Leng, Wendy W.J., van Helvert, Sjoerd, Van der Meulen, Joni, Creytens, David, van Kempen, Léon C., Cleton-Jansen, Anne-Marie, Bovee, Judith V.M.G., de Laat, Wouter, Splinter, Erik, and Feitsma, Harma

Published

2023

3. Robust detection of translocations in lymphoma FFPE samples using targeted locus capture-based sequencing

Author

Allahyar, Amin, Pieterse, Mark, Swennenhuis, Joost, Los-de Vries, G. Tjitske, Yilmaz, Mehmet, Leguit, Roos, Meijers, Ruud W. J., van der Geize, Robert, Vermaat, Joost, Cleven, Arjen, van Wezel, Tom, Diepstra, Arjan, van Kempen, Léon C., Hijmering, Nathalie J., Stathi, Phylicia, Sharma, Milan, Melquiond, Adrien S. J., de Vree, Paula J. P., Verstegen, Marjon J. A. M., Krijger, Peter H. L., Hajo, Karima, Simonis, Marieke, Rakszewska, Agata, van Min, Max, de Jong, Daphne, Ylstra, Bauke, Feitsma, Harma, Splinter, Erik, and de Laat, Wouter

Published

2021

4. X chromosome inactivation in a female carrier of a 1.28 Mb deletion encompassing the human X inactivation centre

Author

de Hoon, B., Splinter, Erik, Eussen, B., Douben, J. C. W., Rentmeester, E., van de Heijning, M., Laven, J. S. E., de Klein, J. E. M. M., Liebelt, J., and Gribnau, J.

Published

2017

5. Targeted locus amplification to develop robust patient-specific assays for liquid biopsies in pediatric solid tumors.

Author

van Zogchel, Lieke M. J., Lak, Nathalie S. M., Gelineau, Nina U., Sergeeva, Irina, Stelloo, Ellen, Swennenhuis, Joost, Feitsma, Harma, van Min, Max, Splinter, Erik, Bleijs, Margit, Koerkamp, Marian Groot, Breunis, Willemijn, Meister, Michael Torsten, Kholossy, Waleed Hassan, Holstege, Frank C. P., Molenaar, Jan J., de Leng, Wendy W. J., Stutterheim, Janine, van der Schoot, C. Ellen, and Tytgat, Godelieve A. M.

Subjects

CELL-free DNA, NEUROBLASTOMA, EWING'S sarcoma, GENE fusion, TUMORS, LIQUIDS

Abstract

Background: Liquid biopsies combine minimally invasive sample collection with sensitive detection of residual disease. Pediatric malignancies harbor tumordriving copy number alterations or fusion genes, rather than recurrent point mutations. These regions contain tumor-specific DNA breakpoint sequences. We investigated the feasibility to use these breakpoints to design patient-specific markers to detect tumor-derived cell-free DNA (cfDNA) in plasma from patients with pediatric solid tumors. Materials and methods: Regions of interest (ROI) were identified through standard clinical diagnostic pipelines, using SNP array for CNAs, and FISH or RT-qPCR for fusion genes. Using targeted locus amplification (TLA) on tumor organoids grown from tumor material or targeted locus capture (TLC) on FFPE material, ROI-specific primers and probes were designed, which were used to design droplet digital PCR (ddPCR) assays. cfDNA from patient plasma at diagnosis and during therapy was analyzed. Results: TLA was performed on material from 2 rhabdomyosarcoma, 1 Ewing sarcoma and 3 neuroblastoma. FFPE-TLC was performed on 8 neuroblastoma tumors. For all patients, at least one patient-specific ddPCR was successfully designed and in all diagnostic plasma samples the patient-specific markers were detected. In the rhabdomyosarcoma and Ewing sarcoma patients, all samples after start of therapy were negative. In neuroblastoma patients, presence of patient-specific markers in cfDNA tracked tumor burden, decreasing during induction therapy, disappearing at complete remission and re-appearing at relapse. Conclusion: We demonstrate the feasibility to determine tumor-specific breakpoints using TLA/TLC in different pediatric solid tumors and use these for analysis of cfDNA from plasma. Considering the high prevalence of CNAs and fusion genes in pediatric solid tumors, this approach holds great promise and deserves further study in a larger cohort with standardized plasma sampling protocols. [ABSTRACT FROM AUTHOR]

Published

2023

6. The Dynamic Architecture of Hox Gene Clusters

Author

Noordermeer, Daan, Leleu, Marion, Splinter, Erik, Rougemont, Jacques, De Laat, Wouter, and Duboule, Denis

Published

2011

7. The pluripotent genome in three dimensions is shaped around pluripotency factors

Author

de Wit, Elzo, Bouwman, Britta A.M., Zhu, Yun, Klous, Petra, Splinter, Erik, Verstegen, Marjon J.A.M., Krijger, Peter H.L., Festuccia, Nicola, Nora, Elphege P., Welling, Maaike, Heard, Edith, Geijsen, Niels, Poot, Raymond A., Chambers, Ian, and de Laat, Wouter

Subjects

Nucleotide sequencing -- Research, Stem cells -- Properties, DNA sequencing -- Research, Genetic regulation -- Research, Chromosomes -- Properties, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

It is becoming increasingly clear that the shape of the genome importantly influences transcription regulation. Pluripotent stem cells such as embryonic stem cells were recently shown to organize their chromosomes into topological domains that are largely invariant between cell types (1,2). Here we combine chromatin conformation capture technologies with chromatin factor binding data to demonstrate that inactive chromatin is unusually disorganized in pluripotent stem-cell nuclei. We show that gene promoters engage in contacts between topological domains in a largely tissue-independent manner, whereas enhancers have a more tissue-restricted interaction profile. Notably, genomic clusters of pluripotency factor binding sites find each other very efficiently, in a manner that is strictly pluripotent-stem-cell-specific, dependent on the presence of Oct4 and Nanog protein and inducible after artificial recruitment of Nanog to a selected chromosomal site. We conclude that pluripotent stem cells have a unique higher-order genome structure shaped by pluripotency factors. We speculate that this interactome enhances the robustness of the pluripotent state., In recent years, several technological advances have made it possible to delineate the three-dimensional shape of the genome (3). Spatial organization of DNA has been recognized as an additional regulatory [...]

Published

2013

8. The active spatial organization of the beta-globin locus requires the transcription factor EKLF

Author

Drissen, Roy, Philipsen, Sjaak, Palstra, Robert-Jan, Laat, Wouter de, Gillemans, Nynke, Splinter, Erik, and Grosveld, Frank

Subjects

Chromatin -- Research, Genetic transcription -- Research, Globin genes -- Research, Biological sciences

Abstract

Three-dimensional organization of a gene locus is important for its regulation, as recently demonstrated for the beta-globin locus. It is reported that erythroid Kruppel-like transcription factor (EKLF), an erythroid transcription factor required for adult beta-globin gene transcription is also required for active chromatin Hub (ACH).

Published

2004

9. Allelic exclusion of the immunoglobulin heavy chain locus is independent of its nuclear localization in mature B cells

Author

Holwerda, Sjoerd J. B., van de Werken, Harmen J. G., de Almeida, Claudia Ribeiro, Bergen, Ingrid M., de Bruijn, Marjolein J. W., Verstegen, Marjon J. A. M., Simonis, Marieke, Splinter, Erik, Wijchers, Patrick J., Hendriks, Rudi W., and de Laat, Wouter

Published

2013

10. CTCF mediates long-range chromatin looping and local histone modification in the Beta-globin locus

Author

Splinter, Erik, Heath, Helen, Kooren, Jurgen, Palstra, Robert-Jan, Klous, Petra, Grosveld, Frank, Galjart, Niels, and de Laat, Wouter

Subjects

Biological sciences

Abstract

CTCf (CCCTC-binding factor) binds sites around the mouse Beta-globin locus that spatially cluster in the erythroid cell nucleus. A demonstration that both conditional deletion of CTCF and targeted disruption of a DNA-binding site destabilize these long-range interactions and cause local loss of histone acetylation and gain of histone methylation, apparently without affecting transcription at the locus is presented.

Published

2006

11. Genetic and epigenetic features direct differential efficiency of Xist-mediated silencing at X-chromosomal and autosomal locations.

Author

Loda, Agnese, Brandsma, Johannes H., Vassilev, Ivaylo, Servant, Nicolas, Loos, Friedemann, Amirnasr, Azadeh, Splinter, Erik, Barillot, Emmanuel, Poot, Raymond A., Heard, Edith, and Gribnau, Joost

Subjects

X chromosome, GENE silencing, HETEROCHROMATIN, ANEUPLOIDY, STEM cells

Abstract

Xist is indispensable for X chromosome inactivation. However, how Xist RNA directs chromosome-wide silencing and why some regions are more efficiently silenced than others remains unknown. Here, we explore the function of Xist by inducing ectopic Xist expression from multiple different X-linked and autosomal loci in mouse aneuploid and female diploid embryonic stem cells in which Xist-mediated silencing does not lead to lethal functional monosomy. We show that ectopic Xist expression faithfully recapitulates endogenous X chromosome inactivation from any location on the X chromosome, whereas long-range silencing of autosomal genes is less efficient. Long interspersed elements facilitate inactivation of genes located far away from the Xist transcription locus, and genes escaping X chromosome inactivation show enrichment of CTCF on X chromosomal but not autosomal loci. Our findings highlight important genomic and epigenetic features acquired during sex chromosome evolution to facilitate an efficient X chromosome inactivation process. [ABSTRACT FROM AUTHOR]

Published

2017

12. Efficient mapping of transgene integration sites and local structural changes in Cre transgenic mice using targeted locus amplification.

Author

Cain-Hom, Carol, Splinter, Erik, van Min, Max, Simonis, Marieke, van de Heijning, Monique, Martinez, Maria, Asghari, Vida, Cox, J. Colin, and Warming, Søren

Published

2017

13. Quantitative analysis of chromatin interaction changes upon a 4.3 Mb deletion at mouse 4E2.

Author

Zepeda-Mendoza, Cinthya J., Mukhopadhyay, Swagatam, Wong, Emily S., Harder, Nathalie, Splinter, Erik, de Wit, Elzo, Eckersley-Maslin, Melanie A., Ried, Thomas, Eils, Roland, Rohr, Karl, Mills, Alea, de Laat, Wouter, Flicek, Paul, Sengupta, Anirvan M., and Spector, David L.

Subjects

HUMAN chromatin, MOLECULAR structure of chromatin, GENE expression, POLYMERS, DNA damage

Abstract

Background: Circular chromosome conformation capture (4C) has provided important insights into three dimensional (3D) genome organization and its critical impact on the regulation of gene expression. We developed a new quantitative framework based on polymer physics for the analysis of paired-end sequencing 4C (PE-4Cseq) data. We applied this strategy to the study of chromatin interaction changes upon a 4.3 Mb DNA deletion in mouse region 4E2. Results: A significant number of differentially interacting regions (DIRs) and chromatin compaction changes were detected in the deletion chromosome compared to a wild-type (WT) control. Selected DIRs were validated by 3D DNA FISH experiments, demonstrating the robustness of our pipeline. Interestingly, significant overlaps of DIRs with CTCF/Smc1 binding sites and differentially expressed genes were observed. Conclusions: Altogether, our PE-4Cseq analysis pipeline provides a comprehensive characterization of DNA deletion effects on chromatin structure and function. [ABSTRACT FROM AUTHOR]

Published

2015

14. Dynamics of gene silencing during X inactivation using allele-specific RNA-seq.

Author

Marks, Hendrik, Kerstens, Hindrik H. D., Barakat, Tahsin Stefan, Splinter, Erik, Dirks, René A. M., van Mierlo, Guido, Joshi, Onkar, Shuang-Yin Wang, Babak, Tomas, Albers, Cornelis A., Kalkan, Tüzer, Smith, Austin, Jouneau, Alice, de Laat, Wouter, Gribnau, Joost, and Stunnenberg, Hendrik G.

Published

2015

15. Determining long-range chromatin interactions for selected genomic sites using 4C-seq technology: From fixation to computation

Author

Splinter, Erik, de Wit, Elzo, van de Werken, Harmen J.G., Klous, Petra, and de Laat, Wouter

Subjects

*CHROMATIN, *GENOMES, *LOCUS (Genetics), *DATA analysis, *TECHNOLOGY, *LABORATORY techniques

Abstract

Abstract: Chromosome Conformation Capture (3C) and 3C-based technologies are constantly evolving in order to probe nuclear organization with higher depth and resolution. One such method is 4C-technology that allows the investigation of the nuclear environment of a locus of choice. The use of Illumina next generation sequencing as a detection platform for the analysis of 4C data has further improved the sensitivity and resolution of this method. Here we provide a step-by-step protocol for 4C-seq, describing the procedure from the initial template preparation until the final data analysis, interchanged with background information and considerations. [Copyright &y& Elsevier]

Published

2012

16. Robust 4C-seq data analysis to screen for regulatory DNA interactions.

Author

van de Werken, Harmen J G, Landan, Gilad, Holwerda, Sjoerd J B, Hoichman, Michael, Klous, Petra, Chachik, Ran, Splinter, Erik, Valdes-Quezada, Christian, Öz, Yuva, Bouwman, Britta A M, Verstegen, Marjon J A M, de Wit, Elzo, Tanay, Amos, and de Laat, Wouter

Subjects

DNA, DATA analysis, GENETIC regulation, COMPUTATIONAL biology, GENE expression, PROMOTERS (Genetics), CHROMOSOMES, CONFORMATIONAL analysis

Abstract

Regulatory DNA elements can control the expression of distant genes via physical interactions. Here we present a cost-effective methodology and computational analysis pipeline for robust characterization of the physical organization around selected promoters and other functional elements using chromosome conformation capture combined with high-throughput sequencing (4C-seq). Our approach can be multiplexed and routinely integrated with other functional genomics assays to facilitate physical characterization of gene regulation. [ABSTRACT FROM AUTHOR]

Published

2012

17. The complex transcription regulatory landscape of our genome: control in three dimensions.

Author

Splinter, Erik and de Laat, Wouter

Subjects

*TRANSCRIPTION factors, *GENETIC regulation, *NUCLEOTIDE sequence, *GENE expression, *GENOMICS, *GENE mapping

Abstract

The non-coding part of our genome contains sequence motifs that can control gene transcription over distance. Here, we discuss functional genomics studies that uncover and characterize these sequences across the mammalian genome. The picture emerging is of a genome being a complex regulatory landscape. We explore the principles that underlie the wiring of regulatory DNA sequences and genes. We argue transcriptional control over distance can be understood when considering action in the context of the folded genome. Genome topology is expected to differ between individual cells, and this may cause variegated expression. High-resolution three-dimensional genome topology maps, ultimately of single cells, are required to understand the cis-regulatory networks that underlie cellular transcriptomes. [ABSTRACT FROM AUTHOR]

Published

2011

18. Transcription and Chromatin Organization of a Housekeeping Gene Cluster Containing an Integrated β-Globin Locus Control Region.

Author

Noordermeer, Daan, Branco, Miguel R., Splinter, Erik, Klous, Petra, van IJcken, Wilfred, Swagemakers, Sigrid, Koutsourakis, Manousos, van der Spek, Peter, Pombo, Ana, and de Laat, Wouter

Subjects

GENE expression, GENOMES, CHROMATIN, GENETIC transcription, GLOBIN genes, GENETICS

Abstract

The activity of locus control regions (LCR) has been correlated with chromatin decondensation, spreading of active chromatin marks, locus repositioning away from its chromosome territory (CT), increased association with transcription factories, and long-range interactions via chromatin looping. To investigate the relative importance of these events in the regulation of gene expression, we targeted the human b-globin LCR in two opposite orientations to a gene-dense region in the mouse genome containing mostly housekeeping genes. We found that each oppositely oriented LCR influenced gene expression on both sides of the integration site and over a maximum distance of 150 kilobases. A subset of genes was transcriptionally enhanced, some of which in an LCR orientation-dependent manner. The locus resides mostly at the edge of its CT and integration of the LCR in either orientation caused a more frequent positioning of the locus away from its CT. Locus association with transcription factories increased moderately, both for loci at the edge and outside of the CT. These results show that nuclear repositioning is not sufficient to increase transcription of any given gene in this region. We identified long-range interactions between the LCR and two upregulated genes and propose that LCR-gene contacts via chromatin looping determine which genes are transcriptionally enhanced. [ABSTRACT FROM AUTHOR]

Published

2008

19. Chapter 5 Three‐Dimensional Organization of Gene Expression in Erythroid Cells.

Author

de Laat, Wouter, Klous, Petra, Kooren, Jurgen, Noordermeer, Daan, Palstra, Robert‐Jan, Simonis, Marieke, Splinter, Erik, and Grosveld, Frank

Subjects

GENE expression, ERYTHROCYTE membranes, GLOBIN genes, DNA, TECHNOLOGICAL innovations, CHROMOSOMES

Abstract

Abstract: The history of globin research is marked by a series of contributions seminal to our understanding of the genome, its function, and its relation to disease. For example, based on studies on hemoglobinopathies, it was understood that gene expression can be under the control of DNA elements that locate away from the genes on the linear chromosome template. Recent technological developments have allowed the demonstration that these regulatory DNA elements communicate with the genes through physical interaction, which loops out the intervening chromatin fiber. Subsequent studies showed that the spatial organization of the β‐globin locus dynamically changes in relation to differences in gene expression. Moreover, it was shown that the β‐globin locus adopts a different position in the nucleus during development and erythroid maturation. Here, we discuss the most recent insight into the three‐dimensional organization of gene expression. [Copyright &y& Elsevier]

Published

2008

20. Nuclear organization of active and inactive chromatin domains uncovered by chromosome conformation capture–on-chip (4C).

Author

Simonis, Marieke, Klous, Petra, Splinter, Erik, Moshkin, Yuri, Willemsen, Rob, de Wit, Elzo, van Steensel, Bas, and de Laat, Wouter

Subjects

CHROMATIN, CHROMOSOMES, NUCLEOPROTEINS, GENOMICS, MOLECULAR genetics, HUMAN genetics

Abstract

The spatial organization of DNA in the cell nucleus is an emerging key contributor to genomic function. We developed 4C technology (chromosome conformation capture (3C)-on-chip), which allows for an unbiased genome-wide search for DNA loci that contact a given locus in the nuclear space. We demonstrate here that active and inactive genes are engaged in many long-range intrachromosomal interactions and can also form interchromosomal contacts. The active β-globin locus in fetal liver preferentially contacts transcribed, but not necessarily tissue-specific, loci elsewhere on chromosome 7, whereas the inactive locus in fetal brain contacts different transcriptionally silent loci. A housekeeping gene in a gene-dense region on chromosome 8 forms long-range contacts predominantly with other active gene clusters, both in cis and in trans, and many of these intra- and interchromosomal interactions are conserved between the tissues analyzed. Our data demonstrate that chromosomes fold into areas of active chromatin and areas of inactive chromatin and establish 4C technology as a powerful tool to study nuclear architecture. [ABSTRACT FROM AUTHOR]

Published

2006

21. The ß-globin nuclear compartment in development and erythroid differentiation.

Author

Palstra, Robert-Jan, Tolhuis, Bas, Splinter, Erik, Nijmeijer, Rian, Grosveld, Frank, and de Laat, Wouter

Subjects

BINDING sites, NUCLEOPROTEINS, HEMOGLOBINS, GENETIC transcription, CHROMOSOMES

Abstract

Efficient transcription of genes requires a high local concentration of the relevant trans-acting factors. Nuclear compartmentalization can provide an effective means to locally increase the concentration of rapidly moving trans-acting factors; this may be achieved by spatial clustering of chromatin-associated binding sites for such factors. Here we analyze the structure of an erythroid-specific spatial cluster of cis-regulatory elements and active ß-globin genes, the active chromatin hub (ACH; ref. 6), at different stages of development and in erythroid progenitors. We show, in mice and humans, that a core ACH is developmentally conserved and consists of the hypersensitive sites (HS1-HS6) of the locus control region (LCR), the upstream 5' HS-60/-62 and downstream 3' HS1. Globin genes switch their interaction with this cluster during development, correlating with the switch in their transcriptional activity. In mouse erythroid progenitors that are committed to but do not yet express ß-globin, only the interactions between 5' HS-60/-62, 3' HS1 and hypersensitive sites at the 5' side of the LCR are stably present. After induction of differentiation, these sites cluster with the rest of the LCR and the gene that is activated. We conclude that during erythroid differentiation, cis-regulatory DNA elements create a developmentally conserved nuclear compartment dedicated to RNA polymerase II transcription of ß-globin genes. [ABSTRACT FROM AUTHOR]

Published

2003

22. Enhanced CHO Clone Screening: Application of Targeted Locus Amplification and Next‐Generation Sequencing Technologies for Cell Line Development.

Author

Aeschlimann, Samuel H., Graf, Christian, Mayilo, Dmytro, Lindecker, Hélène, Urda, Lorena, Kappes, Nora, Burr, Alicia Leone, Simonis, Marieke, Splinter, Erik, Min, Max, and Laux, Holger

Published

2019

23. The inactive X chromosome adopts a unique three-dimensional conformation that is dependent on Xist RNA.

Author

Splinter, Erik, de Wit, Elzo, Nora, Elphège P., Klous, Petra, Van de Werken, Harmen J. G., Yun Zhu, Kaaij, Lucas J. T., van Ijcken, Wilfred, Gribnau, Joost, Heard, Edith, and de Laat, Wouter

Subjects

*X chromosome, *DNA, *CELL nuclei, *SEX chromosomes, *CHROMATIN, *NUCLEOPROTEINS

Abstract

Three-dimensional topology of DNA in the cell nucleus provides a level of transcription regulation beyond the sequence of the linear DNA. To study the relationship between the transcriptional activity and the spatial environment of a gene, we used allele-specific chromosome conformation capture- on-chip (4C) technology to produce high-resolution topology maps of the active and inactive X chromosomes in female cells. We found that loci on the active X form multiple long-range interactions, with spatial segregation of active and inactive chromatin. On the inactive X, silenced loci lack preferred interactions, suggesting a unique random organization inside the inactive territory. However, escapees, among which is Xist, are engaged in long-range contacts with each other, enabling identification of novel escapees. Deletion of Xist results in partial refolding of the inactive X into a conformation resembling the active X without affecting gene silencing or DNA methylation. Our data point to a role for Xist RNA in shaping the conformation of the inactive X chromosome at least partially independent of transcription. [ABSTRACT FROM AUTHOR]

Published

2011

24. CTCF mediates long-range chromatin looping and local histone modification in the β-globin locus.

Author

Splinter, Erik, Heath, Helen, Kooren, Jurgen, Palstra, Robert-Jan, Klous, Petra, Grosveld, Frank, Galjart, Niels, and de Laat, Wouter

Subjects

*CELL nuclei, *BINDING sites, *HISTONES, *ACETYLATION, *PROMOTERS (Genetics), *DNA, *CHROMATIN

Abstract

CTCF (CCCTC-binding factor) binds sites around the mouse -globin locus that spatially cluster in the erythroid cell nucleus. We show that both conditional deletion of CTCF and targeted disruption of a DNA-binding site destabilize these long-range interactions and cause local loss of histone acetylation and gain of histone methylation, apparently without affecting transcription at the locus. Our data demonstrate that CTCF is directly involved in chromatin architecture and regulates local balance between active and repressive chromatin marks. We postulate that throughout the genome, relative position and stability of CTCF-mediated loops determine their effect on enhancer-promoter interactions, with gene insulation as one possible outcome [ABSTRACT FROM AUTHOR]

Published

2006

25. Looping and Interaction between Hypersensitive Sites in the Active β-globin Locus

Author

Tolhuis, Bas, Palstra, Robert-Jan, Splinter, Erik, Grosveld, Frank, and de Laat, Wouter

Subjects

*GENETIC regulation, *CHROMATIN

Abstract

Eukaryotic transcription can be regulated over tens or even hundreds of kilobases. We show that such long-range gene regulation in vivo involves spatial interactions between transcriptional elements, with intervening chromatin looping out. The spatial organization of a 200 kb region spanning the murine β-globin locus was analyzed in expressing erythroid and nonexpressing brain tissue. In brain, the globin cluster adopts a seemingly linear conformation. In erythroid cells the hypersensitive sites of the locus control region (LCR), located 40–60 kb away from the active genes, come in close spatial proximity with these genes. The intervening chromatin with inactive globin genes loops out. Moreover, two distant hypersensitive regions participate in these interactions. We propose that clustering of regulatory elements is key to creating and maintaining active chromatin domains and regulating transcription. [Copyright &y& Elsevier]

Published

2002

26. Sensitive Monogenic Noninvasive Prenatal Diagnosis by Targeted Haplotyping.

Author

Vermeulen, Carlo, Geeven, Geert, de Wit, Elzo, Verstegen, Marjon J.A.M., Jansen, Rumo P.M., van Kranenburg, Melissa, de Bruijn, Ewart, Pulit, Sara L., Kruisselbrink, Evelien, Shahsavari, Zahra, Omrani, Davood, Zeinali, Fatemeh, Najmabadi, Hossein, Katsila, Theodora, Vrettou, Christina, Patrinos, George P., Traeger-Synodinos, Joanne, Splinter, Erik, Beekman, Jeffrey M., and Kheradmand Kia, Sima

Subjects

*DIAGNOSIS of fetal diseases, *PRENATAL diagnosis, *HAPLOTYPES, *HERITABILITY, *BLOOD sampling

Abstract

During pregnancy, cell-free DNA (cfDNA) in maternal blood encompasses a small percentage of cell-free fetal DNA (cffDNA), an easily accessible source for determination of fetal disease status in risk families through non-invasive procedures. In case of monogenic heritable disease, background maternal cfDNA prohibits direct observation of the maternally inherited allele. Non-invasive prenatal diagnostics (NIPD) of monogenic diseases therefore relies on parental haplotyping and statistical assessment of inherited alleles from cffDNA, techniques currently unavailable for routine clinical practice. Here, we present monogenic NIPD (MG-NIPD), which requires a blood sample from both parents, for targeted locus amplification (TLA)-based phasing of heterozygous variants selectively at a gene of interest. Capture probes-based targeted sequencing of cfDNA from the pregnant mother and a tailored statistical analysis enables predicting fetal gene inheritance. MG-NIPD was validated for 18 pregnancies, focusing on CFTR , CYP21A2 , and HBB . In all cases we could predict the inherited alleles with >98% confidence, even at relatively early stages (8 weeks) of pregnancy. This prediction and the accuracy of parental haplotyping was confirmed by sequencing of fetal material obtained by parallel invasive procedures. MG-NIPD is a robust method that requires standard instrumentation and can be implemented in any clinic to provide families carrying a severe monogenic disease with a prenatal diagnostic test based on a simple blood draw. [ABSTRACT FROM AUTHOR]

Published

2017

27. CTCF Binding Polarity Determines Chromatin Looping.

Author

de Wit, Elzo, Vos, Erica S.M., Holwerda, Sjoerd J.B., Valdes-Quezada, Christian, Verstegen, Marjon J.A.M., Teunissen, Hans, Splinter, Erik, Wijchers, Patrick J., Krijger, Peter H.L., and de Laat, Wouter

Subjects

*TRANSCRIPTIONAL repressor CTCF, *CELL polarity, *MOLECULAR structure of chromatin, *BINDING sites, *GENOME editing, *COHESINS

Abstract

Summary CCCTC-binding factor (CTCF) is an architectural protein involved in the three-dimensional (3D) organization of chromatin. In this study, we assayed the 3D genomic contact profiles of a large number of CTCF binding sites with high-resolution 4C-seq. As recently reported, our data also suggest that chromatin loops preferentially form between CTCF binding sites oriented in a convergent manner. To directly test this, we used CRISPR/Cas9 genome editing to delete core CTCF binding sites in three loci, including the CTCF site in the Sox2 super-enhancer. In all instances, CTCF and cohesin recruitment were lost, and chromatin loops with distal, convergent CTCF sites were disrupted or destabilized. Re-insertion of oppositely oriented CTCF recognition sequences restored CTCF and cohesin recruitment, but did not re-establish chromatin loops. We conclude that CTCF binding polarity plays a functional role in the formation of higher-order chromatin structure. [ABSTRACT FROM AUTHOR]

Published

2015

28. A Regulatory Archipelago Controls Hox Genes Transcription in Digits

Author

Montavon, Thomas, Soshnikova, Natalia, Mascrez, Bénédicte, Joye, Elisabeth, Thevenet, Laurie, Splinter, Erik, de Laat, Wouter, Spitz, François, and Duboule, Denis

Subjects

*GENETIC transcription, *BIOLOGICAL evolution, *TETRAPODS, *NUCLEOTIDE sequence, *THREE-dimensional imaging

Abstract

Summary: The evolution of digits was an essential step in the success of tetrapods. Among the key players, Hoxd genes are coordinately regulated in developing digits, where they help organize growth and patterns. We identified the distal regulatory sites associated with these genes by probing the three-dimensional architecture of this regulatory unit in developing limbs. This approach, combined with in vivo deletions of distinct regulatory regions, revealed that the active part of the gene cluster contacts several enhancer-like sequences. These elements are dispersed throughout the nearby gene desert, and each contributes either quantitatively or qualitatively to Hox gene transcription in presumptive digits. We propose that this genetic system, which we call a “regulatory archipelago,” provides an inherent flexibility that may partly underlie the diversity in number and morphology of digits across tetrapods, as well as their resilience to drastic variations. PaperFlick: Display Omitted [Copyright &y& Elsevier]

Published

2011

29. β-Globin Active Chromatin Hub Formation in Differentiating Erythroid Cells and in p45 NF-E2 Knock-out Mice.

Author

Kooren, Jurgen, Palstra, Robert-Jan, Klous, Petra, Splinter, Erik, Von Lindern, Marieke, Grosveld, Frank, and De Laat, Wouter

Subjects

*GLOBIN, *GLOBIN genes, *ERYTHROCYTES, *LABORATORY mice, *CHROMATIN, *CHROMOSOMES

Abstract

Expression of the β-globin genes proceeds from basal to exceptionally high levels during erythroid differentiation in vivo. High expression is dependent on the locus control region (LCR) and coincides with more frequent LCR-gene contacts. These contacts are established in the context of an active chromatin hub (ACH), a spatial chromatin configuration in which the LCR, together with other regulatory sequences, loops toward the active β-globin-like genes. Here, we used recently established I/11 cells as a model system that faithfully recapitulates the in vivo erythroid differentiation program to study the molecular events that accompany and underlie ACH formation. Upon I/11 cell induction, histone modifications changed, the ACH was formed, and the β-globin-like genes were transcribed at rates similar to those observed in vivo. The establishment of frequent LCR-gene contacts coincided with a more efficient loading of polymerase onto the β-globin promoter. Binding of the transcription factors GATA-1 and EKLF to the locus, although previously shown to be required, was not sufficient for ACH formation. Moreover, we used knock-out mice to show that the erythroid transcription factor p45 NF-E2, which has been implicated in β-globin gene regulation, is dispensable for β-globin ACH formation. [ABSTRACT FROM AUTHOR]

Published

2007

30. The active spatial organization of the β-globin locus requires the transcription factor EKLF.

Author

Drissen, Roy, Plastra, Robert-Jan, Gillemans, Nynke, Splinter, Erik, Grosveld, Frank, Philipsen, Sjaak, and De Laat, Wouter

Subjects

*GLOBIN, *CHROMATIN, *TRANSCRIPTION factors, *PROTEINS

Abstract

Three-dimensional organization of a gene locus is important for its regulation, as recently demonstrated for the β-globin locus. When actively expressed, the cis-regulatory elements of the β-globin locus are in proximity in the nuclear space, forming a compartment termed the Active Chromatin Hub (ACH). However, it is unknown which proteins are involved in ACH formation. Here, we show that EKLF, an erythroid transcription factor required for adult β-globin gene transcription, is also required for ACH formation. We conclude that transcription factors can play an essential role in the three-dimensional organization of gene loci. [ABSTRACT FROM AUTHOR]

Published

2004

31. 7C: Computational Chromosome Conformation Capture by Correlation of ChIP-seq at CTCF motifs.

Author

Ibn-Salem, Jonas and Andrade-Navarro, Miguel A.

Subjects

CHROMOSOMES, FORMALDEHYDE, BINDING sites, HUMAN genome, GENE expression, TRANSCRIPTION factors

Abstract

Background: Knowledge of the three-dimensional structure of the genome is necessary to understand how gene expression is regulated. Recent experimental techniques such as Hi-C or ChIA-PET measure long-range chromatin interactions genome-wide but are experimentally elaborate, have limited resolution and such data is only available for a limited number of cell types and tissues. Results: While ChIP-seq was not designed to detect chromatin interactions, the formaldehyde treatment in the ChIP-seq protocol cross-links proteins with each other and with DNA. Consequently, also regions that are not directly bound by the targeted TF but interact with the binding site via chromatin looping are co-immunoprecipitated and sequenced. This produces minor ChIP-seq signals at loop anchor regions close to the directly bound site. We use the position and shape of ChIP-seq signals around CTCF motif pairs to predict whether they interact or not. We implemented this approach in a prediction method, termed Computational Chromosome Conformation Capture by Correlation of ChIP-seq at CTCF motifs (7C). We applied 7C to all CTCF motif pairs within 1 Mb in the human genome and validated predicted interactions with high-resolution Hi-C and ChIA-PET. A single ChIP-seq experiment from known architectural proteins (CTCF, Rad21, Znf143) but also from other TFs (like TRIM22 or RUNX3) predicts loops accurately. Importantly, 7C predicts loops in cell types and for TF ChIP-seq datasets not used in training. Conclusion: 7C predicts chromatin loops which can help to associate TF binding sites to regulated genes. Furthermore, profiling of hundreds of ChIP-seq datasets results in novel candidate factors functionally involved in chromatin looping. Our method is available as an R/Bioconductor package: http://bioconductor.org/packages/sevenC. [ABSTRACT FROM AUTHOR]

Published

2019

32. Diverse gene reprogramming events occur in the same spatial clusters of distal regulatory elements.

Author

Hakim, Ofir, Myong-Hee Sung, Voss, Ty C., Splinter, Erik, John, Sam, Sabo, Peter J., Thurman, Robert E., Stamatoyannopoulos, John A., de Laat, Wouter, and Hager, Gordon L.

Subjects

*GENE expression, *GENETIC regulation, *GENETIC programming, *GLUCOCORTICOID receptors, *GENOMES, *CHROMOSOMES, *CHROMATIN

Abstract

The spatial organization of genes in the interphase nucleus plays an important role in establishment and regulation of gene expression. Contradicting results have been reported to date, with little consensus about the dynamics of nuclear organization and the features of the contact loci. In this study, we investigated the properties and dynamics of genomic loci that are in contact with glucocorticoid receptor (GR)-responsive loci. We took a systematic approach, combining genome-wide interaction profiling by the chromosome conformation capture on chip (4C) technology with expression, protein occupancy, and chromatin accessibility profiles. This approach allowed a comprehensive analysis of how distinct features of the linear genome are organized in the three-dimensional nuclear space in the context of rapid gene regulation. We found that the transcriptional response to GR occurs without dramatic nuclear reorganization. Moreover, contrary to the view of transcription-driven organization, even genes with opposite transcriptional responses colocalize. Regions contacting GR-regulated genes are not particularly enriched for GR-regulated loci or for any functional group of genes, suggesting that these subnuclear environments are not organized to respond to a specific factor. The contact regions are, however, highly enriched for DNase I-hypersensitive sites that comprehensively mark cell-type-specific regulatory sites. These findings indicate that the nucleus is pre-organized in a conformation allowing rapid transcriptional reprogramming, and this organization is significantly correlated with cell-type-specific chromatin sites accessible to regulatory factors. Numerous open chromatin loci may be arranged in nuclear domains that are poised to respond to diverse signals in general and to permit efficient gene regulation. [ABSTRACT FROM AUTHOR]

Published

2011