Your search keyword '"Hager, Gordon"' showing total 15 results

1. Cycles in spatial and temporal chromosomal organization driven by the circadian clock.

Author

Aguilar-Arnal L, Hakim O, Patel VR, Baldi P, Hager GL, and Sassone-Corsi P

Subjects

ARNTL Transcription Factors physiology, Animals, Cells, Cultured, Mice, Chromosomes, Circadian Clocks

Abstract

Dynamic transitions in the epigenome have been associated with regulated patterns of nuclear organization. The accumulating evidence that chromatin remodeling is implicated in circadian function prompted us to explore whether the clock may control nuclear architecture. We applied the chromosome conformation capture on chip technology in mouse embryonic fibroblasts (MEFs) to demonstrate the presence of circadian long-range interactions using the clock-controlled Dbp gene as bait. The circadian genomic interactions with Dbp were highly specific and were absent in MEFs whose clock was disrupted by ablation of the Bmal1 gene (also called Arntl). We establish that the Dbp circadian interactome contains a wide variety of genes and clock-related DNA elements. These findings reveal a previously unappreciated circadian and clock-dependent shaping of the nuclear landscape.

Published

2013

2. Actin-dependent intranuclear repositioning of an active gene locus in vivo.

Author

Dundr M, Ospina JK, Sung MH, John S, Upender M, Ried T, Hager GL, and Matera AG

Subjects

Actins metabolism, Chromosomes metabolism, Chromosomes ultrastructure, Coiled Bodies metabolism, Coiled Bodies ultrastructure, Genes, Reporter, HeLa Cells, Humans, Luminescent Proteins analysis, Recombinant Fusion Proteins analysis, Transcriptional Activation, Actins physiology, Chromosomes physiology, Coiled Bodies physiology, RNA, Small Nuclear metabolism

Abstract

Although bulk chromatin is thought to have limited mobility within the interphase eukaryotic nucleus, directed long-distance chromosome movements are not unknown. Cajal bodies (CBs) are nuclear suborganelles that nonrandomly associate with small nuclear RNA (snRNA) and histone gene loci in human cells during interphase. However, the mechanism responsible for this association is uncertain. In this study, we present an experimental system to probe the dynamic interplay of CBs with a U2 snRNA target gene locus during transcriptional activation in living cells. Simultaneous four-dimensional tracking of CBs and U2 genes reveals that target loci are recruited toward relatively stably positioned CBs by long-range chromosomal motion. In the presence of a dominant-negative mutant of beta-actin, the repositioning of activated U2 genes is markedly inhibited. This supports a model in which nuclear actin is required for these rapid, long-range chromosomal movements.

Published

2007

3. Cycles in spatial and temporal chromosomal organization driven by the circadian clock.

Author

Aguilar-Arnal, Lorena, Hakim, Ofir, Patel, Vishal, Hager, Gordon, Sassone-Corsi, Paolo, and Baldi, Pierre

Subjects

ARNTL Transcription Factors, Animals, Cells, Cultured, Chromosomes, Circadian Clocks, Mice

Abstract

Dynamic transitions in the epigenome have been associated with regulated patterns of nuclear organization. The accumulating evidence that chromatin remodeling is implicated in circadian function prompted us to explore whether the clock may control nuclear architecture. We applied the chromosome conformation capture on chip technology in mouse embryonic fibroblasts (MEFs) to demonstrate the presence of circadian long-range interactions using the clock-controlled Dbp gene as bait. The circadian genomic interactions with Dbp were highly specific and were absent in MEFs whose clock was disrupted by ablation of the Bmal1 gene (also called Arntl). We establish that the Dbp circadian interactome contains a wide variety of genes and clock-related DNA elements. These findings reveal a previously unappreciated circadian and clock-dependent shaping of the nuclear landscape.

Published

2013

4. Large-Scale Chromatin Decondensation and Recondensation Regulated by Transcription from a Natural Promoter

Author

Müller, Waltraud G., Walker, Dawn, Hager, Gordon L., and McNally, James G.

Published

2001

5. The Glucocorticoid Receptor: Rapid Exchange with Regulatory Sites in Living Cells

Author

McNally, James G., Müller, Waltraud G., Walker, Dawn, Wolford, Ronald, and Hager, Gordon L.

Published

2000

6. Mouse model of endemic Burkitt translocations reveals the long-range boundaries of Ig-mediated oncogene deregulation

Author

Kovalchuk, Alexander L., Ansarah-Sobrinho, Camilo, Hakim, Ofir, Resch, Wolfgang, Tolarová, Helena, Dubois, Wendy, Yamane, Arito, Takizawa, Makiko, Klein, Isaac, Hager, Gordon L., Morse, Herbert C., Potter, Michael, Nussenzweig, Michel C., and Casellas, Rafael

Published

2012

7. Histone H1 phosphorylation is associated with transcription by RNA polymerases I and II

Author

Zheng, Yupeng, John, Sam, Pesavento, James J., Schultz-Norton, Jennifer R., Schiltz, R. Louis, Baek, Sonjoon, Nardulli, Ann M., Hager, Gordon L., Kelleher, Neil L., and Mizzen, Craig A.

Published

2010

8. Transcription Factor Loading on the MMTV Promoter: A Bimodal Mechanism for Promoter Activation

Author

Archer, Trevor K., Lefebvre, Philippe, Wolford, Ronald G., and Hager, Gordon L.

Published

1992

9. Newly Expressed Progesterone Receptor Cannot Activate Stable, Replicated Mouse Mammary Tumor Virus Templates but Acquires Transactivation Potential Upon Continuous Expression

Author

Smith, Catherine L., Archer, Trevor K., Hamlin-Green, Gina, and Hager, Gordon L.

Published

1993

10. Glucocorticoid Receptor-Dependent Disruption of a Specific Nucleosome on the Mouse Mammary Tumor Virus Promoter is Prevented by Sodium Butyrate

Author

Bresnick, Emery H., John, Sam, Berard, Diana S., LeFebvre, Philippe, and Hager, Gordon L.

Published

1990

11. Mouse model of endemic Burkitt translocations reveals the long-range boundaries of lg-mediated oncogene deregulation.

Author

Kovalchuk, Alexander L., Ansarah-Sobrinho, Camilo, Hakim, Ofir, Resch, Wolfgang, Tolarová, Helena, Dubois, Wendy, Yamane, Arito, Takizawa, Makiko, Klein, Isaac, Hager, Gordon L., Morse III, Herbert C., Potter, Michael, Nussenzweig, Michel C., and Casellas, Rafael

Subjects

LABORATORY mice, ONCOGENES, BURKITT'S lymphoma, CLINICAL trials, CYTIDINE deaminase, CHROMOSOMES, ANIMAL epigenetics, CONFORMATIONAL analysis

Abstract

Human Burkitt lymphomas are divided into two main clinical variants: the endemic form, affecting African children infected with malaria and the Epstein-Barr virus, and the sporadic form, distributed across the rest of the world. However, whereas sporadic translocations decapitate Myc from 5' proximal regulatory elements, most endemic events occur hundreds of kilobases away from Myc. The origin of these rearrangements and how they deregulate oncogenes at such distances remain unclear. We here recapitulate endemic Burkitt lymphoma-like translocations in plasmacytomas from uracil /V-glycosylase and activation-induced cytidine deaminase-deficient mice. Mapping of translocation breakpoints using an acetylated histone H3 lysine 9 chromatin immunoprecipitation sequencing approach reveals Igh fusions up to ∼350 kb upstream of Myc or the related oncogene Mycn. A comprehensive analysis of epigenetic marks, Polll recruitment, and transcription in tumor cells demonstrates that the 3' Igh enhancer (Ect) vastly remodels ∼450 kb of chromatin into translocated sequences, leading to significant polymerase occupancy and constitutive oncogene expression. We show that this long-range epigenetic reprogramming is directly proportional to the physical interaction of Ect with translocated sites. Our studies thus uncover the extent of epigenetic remodeling by Ig 3' enhancers and provide a rationale for the long-range deregulation of translocated oncogenes in endemic Burkitt lymphomas. The data also shed light on the origin of endemic:like chromosomal rearrangements. [ABSTRACT FROM AUTHOR]

Published

2012

12. Glucocorticoid Receptor Activation of the Ciz1-Lcn2 Locus by Long Range Interactions.

Author

Hakim, Ofir, John, Sam, Ling, Jian Qun, Biddie, Simon C., Hoffman, Andrew R., and Hager, Gordon L.

Subjects

*GLUCOCORTICOID receptors, *TRANSCRIPTION factors, *CHROMOSOMES, *GENE expression, *CELL lines, *CELLS

Abstract

The cellular response to glucocorticoid receptor (GR) activation involves a highly orchestrated series of regulatory actions influenced at multiple levels by a variety of mechanisms including the action of transcription factors and chromatin modifiers. Because the majority of GR binding sites (glucocorticoid-responsive elements (GREs)) are distant from promoters, it is likely that interactions at a distance play an important role in GR action. To determine whether long range chromosomal associations play a role in transcription regulation by GR, we utilized a chromosome conformation capture-based technique (associated chromosome trap) to identify unknown, remote sequences that interact with the GR-induced Lipocalin2 (Lcn2) gene. Our screen revealed that the Lcn2 GRE interacts with the Ciz1 gene, nearly 30 kb upstream. Cizi was subsequently found to be a novel GR-responsive gene. The GRE proximal to the Lcn2 promoter apparently functions to regulate both the Lcn2 gene and the distal Ciz1 gene. Using quantitative chromosome conformation capture, we find that a loop structure is organized between these two genes. This structure is hormone-independent and present only in cell types where the genes are active. The strong correlation between gene expression and loop structure in different cell lines suggests that high order interactions play a role in determining tissue-specific gene regulation. [ABSTRACT FROM AUTHOR]

Published

2009

13. Interaction of the Glucocorticoid Receptor with the Chromatin Landscape

Author

John, Sam, Sabo, Peter J., Johnson, Thomas A., Sung, Myong-Hee, Biddie, Simon C., Lightman, Stafford L., Voss, Ty C., Davis, Sean R., Meltzer, Paul S., Stamatoyannopoulos, John A., and Hager, Gordon L.

Subjects

*CHROMOSOMES, *BIOMOLECULES, *GENES, *BIOCHEMISTRY

Abstract

Summary: The generality and spectrum of chromatin-remodeling requirements for nuclear receptor function are unknown. We have characterized glucocorticoid receptor (GR) binding events and chromatin structural transitions across GR-induced or -repressed genes. This analysis reveals that GR binding invariably occurs at nuclease-accessible sites (DHS). A remarkable diversity of mechanisms, however, render these sites available for GR binding. Accessibility of the GR binding sites is either constitutive or hormone inducible. Within each category, some DHS sites require the Brg1-containing Swi/Snf complex, but others are Brg1 independent, implicating a different remodeling complex. The H2A.Z histone variant is highly enriched at both inducible and constitutive DHS sites and is subject to exchange during hormone activation. The DHS profile is highly cell specific, implicating cell-selective organization of the chromatin landscape as a critical determinant of tissue-selective receptor function. Furthermore, the widespread requirement for chromatin remodeling supports the recent hypothesis that the rapid exchange of receptor proteins occurs during nucleosome reorganization. [Copyright &y& Elsevier]

Published

2008

14. Effects of chromatin structure on the enzymatic and DNA binding functions of DNA methyltransferases DNMT1 and Dnmt3a in vitro

Author

Robertson, Andrea K., Geiman, Theresa M., Sankpal, Umesh T., Hager, Gordon L., and Robertson, Keith D.

Subjects

*NUCLEOPROTEINS, *RECOMBINANT DNA, *TRANSFERASES, *CHROMOSOMES

Abstract

DNA methylation is an epigenetic modification of the genome critical for numerous processes, including transcriptional repression and maintenance of chromatin structure. Recent studies have revealed connections between DNA methylation and other epigenetic modifications such as ATP-dependent chromatin remodeling. It remains unclear, however, exactly how chromatin and epigenetic chromatin modifications affect the biological properties of the DNA methyltransferases (DNMT1, DNMT3A, and DNMT3B). Using a highly purified system and the 5S rDNA gene as free DNA or assembled into a mononucleosome, we have compared the effects of chromatin structure on DNMT1 and Dnmt3a. The catalytic efficiency for both enzymes decreased on the mononucleosome, ∼8-fold for DNMT1 and 17-fold for Dnmt3a. DNMT1 and Dnmt3a bound to DNA and mononucleosomal substrates in gel shift experiments with approximately equal affinity and in a cooperative manner. We also show that DNMT1 interacts with hSNF2H chromatin remodeling enzyme and that DNMT1 binds mononucleosomes with higher affinity in the presence of hSNF2H. These findings raise interesting implications about the interactions of mammalian DNA methyltransferases with chromatin and provide the first evidence that a chromatin remodeling enzyme can alter the biological properties of a DNMT. [Copyright &y& Elsevier]

Published

2004

15. 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