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218 results on '"Ohgi, Kenneth A."'

1. Enhancer release and retargeting activates disease-susceptibility genes

Author

Oh, Soohwan, Shao, Jiaofang, Mitra, Joydeep, Xiong, Feng, D’Antonio, Matteo, Wang, Ruoyu, Garcia-Bassets, Ivan, Ma, Qi, Zhu, Xiaoyu, Lee, Joo-Hyung, Nair, Sreejith J, Yang, Feng, Ohgi, Kenneth, Frazer, Kelly A, Zhang, Zhengdong D, Li, Wenbo, and Rosenfeld, Michael G

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Genetics, Human Genome, Prevention, Cancer Genomics, Cancer, 2.1 Biological and endogenous factors, Aetiology, CCCTC-Binding Factor, CRISPR-Cas Systems, Cell Cycle Proteins, Cells, Cultured, Chromatin, Chromosomal Proteins, Non-Histone, Enhancer Elements, Genetic, Gene Deletion, Gene Expression Regulation, Neoplastic, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, MCF-7 Cells, Neoplasms, Neural Stem Cells, Oncogenes, Parkinson Disease, Promoter Regions, Genetic, Cohesins, General Science & Technology
Abstract

The functional engagement between an enhancer and its target promoter ensures precise gene transcription1. Understanding the basis of promoter choice by enhancers has important implications for health and disease. Here we report that functional loss of a preferred promoter can release its partner enhancer to loop to and activate an alternative promoter (or alternative promoters) in the neighbourhood. We refer to this target-switching process as 'enhancer release and retargeting'. Genetic deletion, motif perturbation or mutation, and dCas9-mediated CTCF tethering reveal that promoter choice by an enhancer can be determined by the binding of CTCF at promoters, in a cohesin-dependent manner-consistent with a model of 'enhancer scanning' inside the contact domain. Promoter-associated CTCF shows a lower affinity than that at chromatin domain boundaries and often lacks a preferred motif orientation or a partnering CTCF at the cognate enhancer, suggesting properties distinct from boundary CTCF. Analyses of cancer mutations, data from the GTEx project and risk loci from genome-wide association studies, together with a focused CRISPR interference screen, reveal that enhancer release and retargeting represents an overlooked mechanism that underlies the activation of disease-susceptibility genes, as exemplified by a risk locus for Parkinson's disease (NUCKS1-RAB7L1) and three loci associated with cancer (CLPTM1L-TERT, ZCCHC7-PAX5 and PVT1-MYC).

Published
2021

2. Phase separation of ligand-activated enhancers licenses cooperative chromosomal enhancer assembly

Author

Nair, Sreejith J, Yang, Lu, Meluzzi, Dario, Oh, Soohwan, Yang, Feng, Friedman, Meyer J, Wang, Susan, Suter, Tom, Alshareedah, Ibraheem, Gamliel, Amir, Ma, Qi, Zhang, Jie, Hu, Yiren, Tan, Yuliang, Ohgi, Kenneth A, Jayani, Ranveer Singh, Banerjee, Priya R, Aggarwal, Aneel K, and Rosenfeld, Michael G

Subjects
Cancer, Cell Line, Tumor, Chromatin, Chromosomes, Enhancer Elements, Genetic, Estradiol, Humans, MCF-7 Cells, Protein Conformation, Ribonucleoproteins, Transcription, Genetic, Transcriptional Activation, Chemical Sciences, Biological Sciences, Medical and Health Sciences, Biophysics, Developmental Biology
Abstract

A crucial feature of differentiated cells is the rapid activation of enhancer-driven transcriptional programs in response to signals. The potential contributions of physicochemical properties of enhancer assembly in signaling events remain poorly understood. Here we report that in human breast cancer cells, the acute 17β-estradiol-dependent activation of functional enhancers requires assembly of an enhancer RNA-dependent ribonucleoprotein (eRNP) complex exhibiting properties of phase-separated condensates. Unexpectedly, while acute ligand-dependent assembly of eRNPs resulted in enhancer activation sensitive to chemical disruption of phase separation, chronically activated enhancers proved resistant to such disruption, with progressive maturation of eRNPs to a more gel-like state. Acute, but not chronic, stimulation resulted in ligand-induced, condensin-dependent changes in spatial chromatin conformation based on homotypic enhancer association, resulting in cooperative enhancer-activation events. Thus, distinct physicochemical properties of eRNP condensates on enhancers serve as determinants of rapid ligand-dependent alterations in chromosomal architecture and cooperative enhancer activation.

Published
2019

3. Pluripotency factors functionally premark cell-type-restricted enhancers in ES cells.

Author

Kim, Hong Sook, Tan, Yuliang, Ma, Wubin, Merkurjev, Daria, Destici, Eugin, Ma, Qi, Suter, Tom, Ohgi, Kenneth, Friedman, Meyer, Skowronska-Krawczyk, Dorota, and Rosenfeld, Michael G

Subjects
Macrophages, Pluripotent Stem Cells, Animals, Mice, Transcription Factors, Reproducibility of Results, Cell Differentiation, Organ Specificity, Gene Expression Regulation, Epigenesis, Genetic, Female, Enhancer Elements, Genetic, Neural Stem Cells, Mouse Embryonic Stem Cells, Enhancer Elements, Genetic, Epigenesis, General Science & Technology
Abstract

Enhancers for embryonic stem (ES) cell-expressed genes and lineage-determining factors are characterized by conventional marks of enhancer activation in ES cells1-3, but it remains unclear whether enhancers destined to regulate cell-type-restricted transcription units might also have distinct signatures in ES cells. Here we show that cell-type-restricted enhancers are 'premarked' and activated as transcription units by the binding of one or two ES cell transcription factors, although they do not exhibit traditional enhancer epigenetic marks in ES cells, thus uncovering the initial temporal origins of cell-type-restricted enhancers. This premarking is required for future cell-type-restricted enhancer activity in the differentiated cells, with the strength of the ES cell signature being functionally important for the subsequent robustness of cell-type-restricted enhancer activation. We have experimentally validated this model in macrophage-restricted enhancers and neural precursor cell (NPC)-restricted enhancers using ES cell-derived macrophages or NPCs, edited to contain specific ES cell transcription factor motif deletions. DNA hydroxyl-methylation of enhancers in ES cells, determined by ES cell transcription factors, may serve as a potential molecular memory for subsequent enhancer activation in mature macrophages. These findings suggest that the massive repertoire of cell-type-restricted enhancers are essentially hierarchically and obligatorily premarked by binding of a defining ES cell transcription factor in ES cells, dictating the robustness of enhancer activation in mature cells.

Published
2018

4. Glucocorticoid Receptor:MegaTrans Switching Mediates the Repression of an ERα-Regulated Transcriptional Program.

Author

Yang, Feng, Ma, Qi, Liu, Zhijie, Li, Wenbo, Tan, Yuliang, Jin, Chunyu, Ma, Wubin, Hu, Yiren, Shen, Jia, Ohgi, Kenneth A, Telese, Francesca, Liu, Wen, and Rosenfeld, Michael G

Subjects
Humans, Breast Neoplasms, Estradiol, Dexamethasone, Multiprotein Complexes, Histone Deacetylases, Estrogen Receptor alpha, Receptors, Glucocorticoid, Transfection, Signal Transduction, Receptor Cross-Talk, Transcription, Genetic, Down-Regulation, Gene Expression Regulation, Neoplastic, RNA Interference, Binding Sites, Protein Binding, Mutation, Female, Enhancer Elements, Genetic, Nuclear Receptor Co-Repressor 1, Nuclear Receptor Co-Repressor 2, HEK293 Cells, Sumoylation, Transcriptome, MCF-7 Cells, enhancers, nuclear receptors, transcriptional regulation, transrepression, Cancer, Estrogen, Breast Cancer, Biotechnology, Genetics, 1.1 Normal biological development and functioning, Underpinning research, Biological Sciences, Medical and Health Sciences, Developmental Biology
Abstract

The molecular mechanisms underlying the opposing functions of glucocorticoid receptors (GRs) and estrogen receptor α (ERα) in breast cancer development remain poorly understood. Here we report that, in breast cancer cells, liganded GR represses a large ERα-activated transcriptional program by binding, in trans, to ERα-occupied enhancers. This abolishes effective activation of these enhancers and their cognate target genes, and it leads to the inhibition of ERα-dependent binding of components of the MegaTrans complex. Consistent with the effects of SUMOylation on other classes of nuclear receptors, dexamethasone (Dex)-induced trans-repression of the estrogen E2 program appears to depend on GR SUMOylation, which leads to stable trans-recruitment of the GR-N-CoR/SMRT-HDAC3 corepressor complex on these enhancers. Together, these results uncover a mechanism by which competitive recruitment of DNA-binding nuclear receptors/transcription factors in trans to hot spot enhancers serves as an effective biological strategy for trans-repression, with clear implications for breast cancer and other diseases.

Published
2017

6. LRP8-Reelin-Regulated Neuronal Enhancer Signature Underlying Learning and Memory Formation

Author

Telese, Francesca, Ma, Qi, Perez, Patricia Montilla, Notani, Dimple, Oh, Soohwan, Li, Wenbo, Comoletti, Davide, Ohgi, Kenneth A, Taylor, Havilah, and Rosenfeld, Michael G

Subjects
Behavioral and Social Science, Genetics, Neurosciences, Basic Behavioral and Social Science, Mental Health, Underpinning research, 1.1 Normal biological development and functioning, Mental health, Neurological, Animals, Bicuculline, CREB-Binding Protein, Cell Adhesion Molecules, Neuronal, Cells, Cultured, Conditioning, Classical, Embryo, Mammalian, Enzyme Inhibitors, Excitatory Amino Acid Antagonists, Extracellular Matrix Proteins, Histone Deacetylases, Humans, LDL-Receptor Related Proteins, Memory, Mice, Mice, Inbred C57BL, Mice, Transgenic, Models, Molecular, N-Acetylglucosaminyltransferases, Nerve Tissue Proteins, Neurons, Receptors, N-Methyl-D-Aspartate, Reelin Protein, Serine Endopeptidases, Signal Transduction, Synaptic Transmission, Psychology, Cognitive Sciences, Neurology & Neurosurgery
Abstract

One of the exceptional properties of the brain is its ability to acquire new knowledge through learning and to store that information through memory. The epigenetic mechanisms linking changes in neuronal transcriptional programs to behavioral plasticity remain largely unknown. Here, we identify the epigenetic signature of the neuronal enhancers required for transcriptional regulation of synaptic plasticity genes during memory formation, linking this to Reelin signaling. The binding of Reelin to its receptor, LRP8, triggers activation of this cohort of LRP8-Reelin-regulated neuronal (LRN) enhancers that serve as the ultimate convergence point of a novel synapse-to-nucleus pathway. Reelin simultaneously regulates NMDA-receptor transmission, which reciprocally permits the required γ-secretase-dependent cleavage of LRP8, revealing an unprecedented role for its intracellular domain in the regulation of synaptically generated signals. These results uncover an in vivo enhancer code serving as a critical molecular component of cognition and relevant to psychiatric disorders linked to defects in Reelin signaling.

Published
2015

7. Enhancer-bound LDB1 regulates a corticotrope promoter-pausing repression program

Author

Zhang, Feng, Tanasa, Bogdan, Merkurjev, Daria, Lin, Chijen, Song, Xiaoyuan, Li, Wenbo, Tan, Yuliang, Liu, Zhijie, Zhang, Jie, Ohgi, Kenneth A, Krones, Anna, Skowronska-Krawczyk, Dorota, and Rosenfeld, Michael G

Subjects
Biochemistry and Cell Biology, Biological Sciences, Genetics, Biotechnology, Underpinning research, 1.1 Normal biological development and functioning, Animals, Cell Line, Corticotrophs, DNA-Binding Proteins, Enhancer Elements, Genetic, LIM Domain Proteins, Mice, Mice, Knockout, Promoter Regions, Genetic, LDB1, ASCL1, MTA2, looping, enhancer
Abstract

Substantial evidence supports the hypothesis that enhancers are critical regulators of cell-type determination, orchestrating both positive and negative transcriptional programs; however, the basic mechanisms by which enhancers orchestrate interactions with cognate promoters during activation and repression events remain incompletely understood. Here we report the required actions of LIM domain-binding protein 1 (LDB1)/cofactor of LIM homeodomain protein 2/nuclear LIM interactor, interacting with the enhancer-binding protein achaete-scute complex homolog 1, to mediate looping to target gene promoters and target gene regulation in corticotrope cells. LDB1-mediated enhancer:promoter looping appears to be required for both activation and repression of these target genes. Although LDB1-dependent activated genes are regulated at the level of transcriptional initiation, the LDB1-dependent repressed transcription units appear to be regulated primarily at the level of promoter pausing, with LDB1 regulating recruitment of metastasis-associated 1 family, member 2, a component of the nucleosome remodeling deacetylase complex, on these negative enhancers, required for the repressive enhancer function. These results indicate that LDB1-dependent looping events can deliver repressive cargo to cognate promoters to mediate promoter pausing events in a pituitary cell type.

Published
2015

8. Ligand-Dependent Enhancer Activation Regulated by Topoisomerase-I Activity

Author

Puc, Janusz, Kozbial, Piotr, Li, Wenbo, Tan, Yuliang, Liu, Zhijie, Suter, Tom, Ohgi, Kenneth A, Zhang, Jie, Aggarwal, Aneel K, and Rosenfeld, Michael G

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Genetics, Cancer, Rare Diseases, 1.1 Normal biological development and functioning, Underpinning research, Cell Line, Tumor, DNA Breaks, Single-Stranded, DNA Repair, DNA Topoisomerases, Type I, DNA-Binding Proteins, Enhancer Elements, Genetic, Gene Expression Regulation, Gene Knockdown Techniques, Homeodomain Proteins, Humans, MRE11 Homologue Protein, Receptors, Androgen, Transcription Factors, Transcription, Genetic, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

The discovery that enhancers are regulated transcription units, encoding eRNAs, has raised new questions about the mechanisms of their activation. Here, we report an unexpected molecular mechanism that underlies ligand-dependent enhancer activation, based on DNA nicking to relieve torsional stress from eRNA synthesis. Using dihydrotestosterone (DHT)-induced binding of androgen receptor (AR) to prostate cancer cell enhancers as a model, we show rapid recruitment, within minutes, of DNA topoisomerase I (TOP1) to a large cohort of AR-regulated enhancers. Furthermore, we show that the DNA nicking activity of TOP1 is a prerequisite for robust eRNA synthesis and enhancer activation and is kinetically accompanied by the recruitment of ATR and the MRN complex, followed by additional components of DNA damage repair machinery to the AR-regulated enhancers. Together, our studies reveal a linkage between eRNA synthesis and ligand-dependent TOP1-mediated nicking-a strategy exerting quantitative effects on eRNA expression in regulating AR-bound enhancer-dependent transcriptional programs.

Published
2015

9. Tyrosine phosphorylation of histone H2A by CK2 regulates transcriptional elongation

Author

Basnet, Harihar, Su, Xue B, Tan, Yuliang, Meisenhelder, Jill, Merkurjev, Daria, Ohgi, Kenneth A, Hunter, Tony, Pillus, Lorraine, and Rosenfeld, Michael G

Subjects
Biochemistry and Cell Biology, Biological Sciences, Genetics, Underpinning research, 1.1 Normal biological development and functioning, Amino Acid Sequence, Casein Kinase II, Cell Line, Conserved Sequence, Histones, Humans, Molecular Sequence Data, Phosphorylation, Saccharomyces cerevisiae, Transcription Elongation, Genetic, Tyrosine, Ubiquitination, General Science & Technology
Abstract

Post-translational histone modifications have a critical role in regulating transcription, the cell cycle, DNA replication and DNA damage repair. The identification of new histone modifications critical for transcriptional regulation at initiation, elongation or termination is of particular interest. Here we report a new layer of regulation in transcriptional elongation that is conserved from yeast to mammals. This regulation is based on the phosphorylation of a highly conserved tyrosine residue, Tyr 57, in histone H2A and is mediated by the unsuspected tyrosine kinase activity of casein kinase 2 (CK2). Mutation of Tyr 57 in H2A in yeast or inhibition of CK2 activity impairs transcriptional elongation in yeast as well as in mammalian cells. Genome-wide binding analysis reveals that CK2α, the catalytic subunit of CK2, binds across RNA-polymerase-II-transcribed coding genes and active enhancers. Mutation of Tyr 57 causes a loss of H2B mono-ubiquitination as well as H3K4me3 and H3K79me3, histone marks associated with active transcription. Mechanistically, both CK2 inhibition and the H2A(Y57F) mutation enhance H2B deubiquitination activity of the Spt-Ada-Gcn5 acetyltransferase (SAGA) complex, suggesting a critical role of this phosphorylation in coordinating the activity of the SAGA complex during transcription. Together, these results identify a new component of regulation in transcriptional elongation based on CK2-dependent tyrosine phosphorylation of the globular domain of H2A.

Published
2014

11. Required enhancer–matrin-3 network interactions for a homeodomain transcription program

Author

Skowronska-Krawczyk, Dorota, Ma, Qi, Schwartz, Michal, Scully, Kathleen, Li, Wenbo, Liu, Zhijie, Taylor, Havilah, Tollkuhn, Jessica, Ohgi, Kenneth A, Notani, Dimple, Kohwi, Yoshinori, Kohwi-Shigematsu, Terumi, and Rosenfeld, Michael G

Subjects
Nuclear and Plasma Physics, Biological Sciences, Physical Sciences, Biotechnology, Genetics, Animals, Cells, Cultured, Enhancer Elements, Genetic, Gene Expression Regulation, Developmental, Homeodomain Proteins, Humans, Matrix Attachment Region Binding Proteins, Mice, Nuclear Matrix-Associated Proteins, Pituitary Gland, Protein Binding, RNA-Binding Proteins, Transcription Factor Pit-1, Transcription, Genetic, beta Catenin, General Science & Technology
Abstract

Homeodomain proteins, described 30 years ago, exert essential roles in development as regulators of target gene expression; however, the molecular mechanisms underlying transcriptional activity of homeodomain factors remain poorly understood. Here investigation of a developmentally required POU-homeodomain transcription factor, Pit1 (also known as Pou1f1), has revealed that, unexpectedly, binding of Pit1-occupied enhancers to a nuclear matrin-3-rich network/architecture is a key event in effective activation of the Pit1-regulated enhancer/coding gene transcriptional program. Pit1 association with Satb1 (ref. 8) and β-catenin is required for this tethering event. A naturally occurring, dominant negative, point mutation in human PIT1(R271W), causing combined pituitary hormone deficiency, results in loss of Pit1 association with β-catenin and Satb1 and therefore the matrin-3-rich network, blocking Pit1-dependent enhancer/coding target gene activation. This defective activation can be rescued by artificial tethering of the mutant R271W Pit1 protein to the matrin-3 network, bypassing the pre-requisite association with β-catenin and Satb1 otherwise required. The matrin-3 network-tethered R271W Pit1 mutant, but not the untethered protein, restores Pit1-dependent activation of the enhancers and recruitment of co-activators, exemplified by p300, causing both enhancer RNA transcription and target gene activation. These studies have thus revealed an unanticipated homeodomain factor/β-catenin/Satb1-dependent localization of target gene regulatory enhancer regions to a subnuclear architectural structure that serves as an underlying mechanism by which an enhancer-bound homeodomain factor effectively activates developmental gene transcriptional programs.

Published
2014

12. Enhancer Activation Requires trans-Recruitment of a Mega Transcription Factor Complex

Author

Liu, Zhijie, Merkurjev, Daria, Yang, Feng, Li, Wenbo, Oh, Soohwan, Friedman, Meyer J, Song, Xiaoyuan, Zhang, Feng, Ma, Qi, Ohgi, Kenneth A, Krones, Anna, and Rosenfeld, Michael G

Subjects
Biochemistry and Cell Biology, Genetics, Biological Sciences, Human Genome, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Enhancer Elements, Genetic, Estrogen Receptor alpha, Estrogens, GATA3 Transcription Factor, Gene Expression Regulation, Hepatocyte Nuclear Factor 3-alpha, Humans, Multiprotein Complexes, Transcription Factors, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

Enhancers provide critical information directing cell-type-specific transcriptional programs, regulated by binding of signal-dependent transcription factors and their associated cofactors. Here, we report that the most strongly activated estrogen (E2)-responsive enhancers are characterized by trans-recruitment and in situ assembly of a large 1-2 MDa complex of diverse DNA-binding transcription factors by ERα at ERE-containing enhancers. We refer to enhancers recruiting these factors as mega transcription factor-bound in trans (MegaTrans) enhancers. The MegaTrans complex is a signature of the most potent functional enhancers and is required for activation of enhancer RNA transcription and recruitment of coactivators, including p300 and Med1. The MegaTrans complex functions, in part, by recruiting specific enzymatic machinery, exemplified by DNA-dependent protein kinase. Thus, MegaTrans-containing enhancers represent a cohort of functional enhancers that mediate a broad and important transcriptional program and provide a molecular explanation for transcription factor clustering and hotspots noted in the genome.

Published
2014

13. Chem-seq permits identification of genomic targets of drugs against androgen receptor regulation selected by functional phenotypic screens

Author

Jin, Chunyu, Yang, Liuqing, Xie, Min, Lin, Chunru, Merkurjev, Daria, Yang, Joy C, Tanasa, Bogdan, Oh, Soohwan, Zhang, Jie, Ohgi, Kenneth A, Zhou, Hongyan, Li, Wenbo, Evans, Christopher P, Ding, Sheng, and Rosenfeld, Michael G

Subjects
Genetics, Aging, Prostate Cancer, Human Genome, Cancer, Biotechnology, Urologic Diseases, Aetiology, 2.1 Biological and endogenous factors, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Androgen Receptor Antagonists, Animals, Antineoplastic Agents, Cell Line, Tumor, DNA Mutational Analysis, Drug Delivery Systems, Humans, Male, Mice, Neoplasm Proteins, Prostatic Neoplasms, Receptors, Androgen, Translocation, Genetic, Xenograft Model Antitumor Assays, transcription, histone demethylase
Abstract

Understanding the mechanisms by which compounds discovered using cell-based phenotypic screening strategies might exert their effects would be highly augmented by new approaches exploring their potential interactions with the genome. For example, altered androgen receptor (AR) transcriptional programs, including castration resistance and subsequent chromosomal translocations, play key roles in prostate cancer pathological progression, making the quest for identification of new therapeutic agents and an understanding of their actions a continued priority. Here we report an approach that has permitted us to uncover the sites and mechanisms of action of a drug, referred to as "SD70," initially identified by phenotypic screening for inhibitors of ligand and genotoxic stress-induced translocations in prostate cancer cells. Based on synthesis of a derivatized form of SD70 that permits its application for a ChIP-sequencing-like approach, referred to as "Chem-seq," we were next able to efficiently map the genome-wide binding locations of this small molecule, revealing that it largely colocalized with AR on regulatory enhancers. Based on these observations, we performed the appropriate global analyses to ascertain that SD70 inhibits the androgen-dependent AR program, and prostate cancer cell growth, acting, at least in part, by functionally inhibiting the Jumonji domain-containing demethylase, KDM4C. Global location of candidate drugs represents a powerful strategy for new drug development by mapping genome-wide location of small molecules, a powerful adjunct to contemporary drug development strategies.

Published
2014

14. lncRNA-dependent mechanisms of androgen-receptor-regulated gene activation programs

Author

Yang, Liuqing, Lin, Chunru, Jin, Chunyu, Yang, Joy C, Tanasa, Bogdan, Li, Wenbo, Merkurjev, Daria, Ohgi, Kenneth A, Meng, Da, Zhang, Jie, Evans, Christopher P, and Rosenfeld, Michael G

Subjects
Aging, Prostate Cancer, Urologic Diseases, Genetics, Cancer, Aetiology, 2.1 Biological and endogenous factors, Animals, Castration, Cell Line, Tumor, Cell Proliferation, Enhancer Elements, Genetic, Humans, Male, Mice, Mice, Nude, Neoplasm Transplantation, Promoter Regions, Genetic, Prostatic Neoplasms, RNA, Long Noncoding, Receptors, Androgen, Transcription Factors, Transcriptional Activation, Up-Regulation, General Science & Technology
Abstract

Although recent studies have indicated roles of long non-coding RNAs (lncRNAs) in physiological aspects of cell-type determination and tissue homeostasis, their potential involvement in regulated gene transcription programs remains rather poorly understood. The androgen receptor regulates a large repertoire of genes central to the identity and behaviour of prostate cancer cells, and functions in a ligand-independent fashion in many prostate cancers when they become hormone refractory after initial androgen deprivation therapy. Here we report that two lncRNAs highly overexpressed in aggressive prostate cancer, PRNCR1 (also known as PCAT8) and PCGEM1, bind successively to the androgen receptor and strongly enhance both ligand-dependent and ligand-independent androgen-receptor-mediated gene activation programs and proliferation in prostate cancer cells. Binding of PRNCR1 to the carboxy-terminally acetylated androgen receptor on enhancers and its association with DOT1L appear to be required for recruitment of the second lncRNA, PCGEM1, to the androgen receptor amino terminus that is methylated by DOT1L. Unexpectedly, recognition of specific protein marks by PCGEM1-recruited pygopus 2 PHD domain enhances selective looping of androgen-receptor-bound enhancers to target gene promoters in these cells. In 'resistant' prostate cancer cells, these overexpressed lncRNAs can interact with, and are required for, the robust activation of both truncated and full-length androgen receptor, causing ligand-independent activation of the androgen receptor transcriptional program and cell proliferation. Conditionally expressed short hairpin RNA targeting these lncRNAs in castration-resistant prostate cancer cell lines strongly suppressed tumour xenograft growth in vivo. Together, these results indicate that these overexpressed lncRNAs can potentially serve as a required component of castration-resistance in prostatic tumours.

Published
2013

15. Signalosome-Regulated Serum Response Factor Phosphorylation Determining Myocyte Growth in Width Versus Length as a Therapeutic Target for Heart Failure

Author

Li, Jinliang, Tan, Yuliang, Passariello, Catherine L., Martinez, Eliana C., Kritzer, Michael D., Li, Xueyi, Li, Xiaofeng, Li, Yang, Yu, Qian, Ohgi, Kenneth, Thakur, Hrishikesh, MacArthur, John W., Jr, Ivey, Jan R., Woo, Y. Joseph, Emter, Craig A., Dodge-Kafka, Kimberly, Rosenfeld, Michael G., and Kapiloff, Michael S.

Published
2020
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21. PHF8 mediates histone H4 lysine 20 demethylation events involved in cell cycle progression

Author

Liu, Wen, Tanasa, Bogdan, Tyurina, Oksana V., Zhou, Tian Yuan, Gassmann, Reto, Liu, Wei Ting, Ohgi, Kenneth A., Benner, Chris, Garcia-Bassets, Ivan, Aggarwal, Aneel K., Desai, Arshad, Dorrestein, Pieter C., Glass, Christopher K., and Rosenfeld, Michael G.

Subjects
Histones -- Physiological aspects -- Research, Cell cycle -- Physiological aspects -- Genetic aspects -- Research, DNA damage -- Physiological aspects -- Research -- Genetic aspects
Abstract

While reversible histone modifications are linked to an ever-expanding range of biological functions (1-5), the demethylases for histone H4 lysine 20 and their potential regulatory roles remain unknown. Here we report that the PHD and Jumonji C (JmjC) domain-containing protein, PHF8, while using multiple substrates, including H3K9me1/2 and H3K27me2, also functions as an H4K20me1 demethylase. PHF8 is recruited to promoters by its PHD domain based on interaction with H3K4me2/3 and controls G1-S transition in conjunction with E2F1,HCF-1 (also known as HCFC1) and SETIA (also known as SETD1A), at least in part, by removing the repressive H4K20me1 mark from a subset of E2F1-regulated gene promoters. Phosphorylation-dependent PHF8 dismissal from chromatin in prophase is apparently required for the accumulation of H4K20me1 during early mitosis, which might represent a component of the condensin II loading process. Accordingly, the HEAT repeat clusters in two non-structural maintenance of chromosomes (SMC) condensin II subunits, N-CAPD3 and N-CAPG2 (also known as NCAPD3 and NCAPG2, respectively), are capable of recognizing H4K20me1, and ChIP-Seq analysis demonstrates a significant overlap of condensin II and H4K20me1 sites in mitotic HeLa cells. Thus, the identification and characterization of an H4K20me1 demethylase, PHF8, has revealed an intimate link between this enzyme and two distinct events in cell cycle progression., We evaluated potential substrates for the putative histone demethylase, PHF8, on mononucleosomes. Flag-tagged PHF8 immunoprecipitated from HEK293T cells was capable of demethylating H4K20me1, H3K9me1/2 and H3K27me2, but had no effects [...]

Published
2010
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22. Opposing LSD1 complexes function in developmental gene activation and repression programmes

Author

Wang, Jianxun, Scully, Kathleen, Zhu, Xiaoyan, Cai, Ling, Zhang, Jie, Prefontaine, Gratien G., Krones, Anna, Ohgi, Kenneth A., Zhu, Ping, Garcia-Bassets, Ivan, Liu, Forrest, Taylor, Havilah, Lozach, Jean, Jayes, Friederike L., Korach, Kenneth S., Glass, Christopher K., Fu, Xiang-Dong, and Rosenfeld, Michael G.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Jianxun Wang [1, 2]; Kathleen Scully [1, 6]; Xiaoyan Zhu [1, 6]; Ling Cai [1, 3, 6]; Jie Zhang [1]; Gratien G. Prefontaine [1]; Anna Krones [1]; Kenneth A. [...]

Published
2007
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24. Homeodomain-mediated [beta]-catenin-dependent switching events dictate cell-lineage determination

Author

Olson, Lorin E.; Ohgi, Kenneth A.; Rose, Dave, Tollkuhn, Jessica; Wei Wu; Xue Li, Scafoglio, Claudio; Taketo, Makoto M.; Rosenfeld, Michael G., Krones, Anna; Kemler, Rolf, and Jie Zhang; Grosschedl, Rudolf

Subjects
Catenanes -- Research, Genetic regulation -- Research, Genetic transcription -- Research, Genetic research, Biological sciences
Abstract

An unexpected strategy for [beta]-catenin-dependent regulation of cell-lineage determination based on interactions between [beta]-catenin and a specific homeodomain factor, Prop1, is presented. A novel transcriptional strategy that underlies [beta]-catenin control of cell-lineage determination in organogenesis is discovered during the study.

Published
2006

26. Eya protein phosphatase activity regulates Six1-Dach-Eya transcriptional effects in mammalian organogenesis

Author

Li, Xue, Ohgi, Kenneth A., Zhang, Jie, Krones, Anna, Bush, Kevin T., Glass, Christopher K., Nigam, Sanjay K., Aggarwal, Aneel K., Maas, Richard, Rose, David W., and Rosenfeld, Michael G.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Xue Li (corresponding author) [1]; Kenneth A. Ohgi [1]; Jie Zhang [1]; Anna Krones [1]; Kevin T. Bush [2]; Christopher K. Glass [3]; Sanjay K. Nigam [2]; Aneel K. [...]

Published
2003
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27. Identification of a Wnt/Dvl/beta-catenin (approaches) Pitx2 pathway mediating cell-type-specific proliferation during development

Author

Kioussi, Chrissa, Briata, Paola, Baek, Sung Hee, Rose, David W., Hamblet, Natasha S., Herman, Thomas, Ohgi, Kenneth A., Lin, Chijen, Gleiberman, Anatoli, Wang, Jianbo, Brault, Veronique, Ruiz-Lozano, Pilar, Nguyen, H. D., Kemler, Rolf, Glass, Christopher K., Wynshaw-Boris, Anthony, and Rosenfeld, Michael G.

Subjects
Cell research -- Analysis, Cells -- Genetic aspects, Cell proliferation -- Research, Biological sciences
Abstract

Research has been conducted on cell type-specific molecular mechanisms. Results demonstrate that bicoid-related transcription factor Pitx2 is induced by Wnt/Dvl/beta-catenin pathway and is required for cell-type-specific proliferation via growth-regulating gene activation.

Published
2002

28. Exchange of N-CoR corepressor and Tip60 coactivator complexes links gene expression by NF-(kappa)B and beta-amyloid precursor protein

Author

Baek, Sung Hee, Ohgi, Kenneth A., Rose, David W., Koo, Edward H., Glass, Christopher K., and Rosenfeld, Michael K.

Subjects
Cell research -- Analysis, Amyloid beta-protein -- Genetic aspects, Gene expression -- Physiological aspects, Nitrogen -- Physiological aspects, Cobalt -- Physiological aspects, Interleukin-1 -- Genetic aspects, Biological sciences
Abstract

Research has been conducted on the N-CoR corepressor complex. Results indicate that interleukin-1(beta) is responsible for the nuclear export of this complex and leads to the NF-(kappa)B -regulated gene subset derepression.

Published
2002

29. The genetic architecture of divergence between threespine stickleback species

Author

Peichel, Catherine L., Nereng, Kirsten S., Ohgi, Kenneth A., Cole, Bonnie L. E., Colosimo, Pamela F., Buerkle, C. Alex, Schluter, Dolph, and Kingsley, David M.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Catherine L. Peichel [1]; Kirsten S. Nereng [1]; Kenneth A. Ohgi [1]; Bonnie L. E. Cole [1]; Pamela F. Colosimo [1]; C. Alex Buerkle [2]; Dolph Schluter [3]; David [...]

Published
2001
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31. Required Enhancer: Matrin-3 Network Interactions for Pit1 Homeodomain Transcription Programs

Author

Skowronska-Krawczyk, Dorota, Ma, Qi, Schwartz, Michal, Scully, Kathleen, Li, Wenbo, Liu, Zhijie, Taylor, Havilah, Tollkuhn, Jessica, Ohgi, Kenneth A., Notani, Dimple, Kohwi, Yoshinori, Kohwi-Shigematsu, Terumi, and Rosenfeld, Michael G.

Subjects
Homeodomain Proteins, endocrine system, Enhancer Elements, Genetic, Nuclear Matrix-Associated Proteins, Transcription, Genetic, Animals, Gene Expression Regulation, Developmental, Humans, RNA-Binding Proteins, Article
Abstract

Homeodomain proteins, described 30 years ago1,2, exert essential roles in development as regulators of target gene expression3,4, however the molecular mechanism underlying transcriptional activity of homeodomain factors remains poorly understood. Here, investigation of a developmentally-required POU-homeodomain transcription factor, Pit1/Pou1f1, has revealed that, unexpectedly, binding of Pit1-occupied enhancers5 to a nuclear matrin-3-rich network/architecture6,7 is a key event in effective activation of the Pit1-regulated enhancer/coding gene transcriptional program. Pit1 association with Satb18 and β-catenin is required for this tethering event. A naturally-occurring, dominant negative, point mutation in human Pit1 (R271W), causing combined pituitary hormone deficiency (CPDH)9, results in loss of Pit1 association with β-catenin and Satb1 and therefore the matrin-3-rich network, blocking Pit1-dependent enhancer/coding target gene activation. This defective activation can be rescued by artificial tethering of the mutant R271W Pit1 protein to the matrin-3 network, bypassing the prerequisite association with β-catenin and Satb1 otherwise required. The matrin-3 network-tethered R271W Pit1 mutant, but not the untethered protein, restores Pit1-dependent activation of the enhancers and recruitment of co-activators, exemplified by p300, causing both eRNA transcription and target gene activation. These studies have thus revealed an unanticipated homeodomain factor/β-catenin/Satb1-dependent localization of target gene regulatory enhancer regions to a subnuclear architectural structure that serves as an underlying mechanism by which an enhancer-bound homeodomain factor effectively activates developmental gene transcriptional programs.

Published
2014

32. Macrophage/cancer cell interactions mediate hormone resistance by a nuclear receptor derepression pathway

Author

Ping Zhu, Sung Hee Baek, Bourk, Eliot M., Ohgi, Kenneth A., Garcia-Bassets, Ivan, Sanjo, Hideki, Akira, Shizuo, Kotol, Paul F., Glass, Christopher, K., Rosenfeld, Michael G., and Rose, David W.

Subjects
Cancer cells -- Structure, Cancer cells -- Research, Homeostasis -- Research, Macrophages -- Structure, Macrophages -- Research, Biological sciences
Abstract

The occurrence of specific interactions between prostate cancer cells and macrophages in most prostate cancers is discussed. The interactions mediate a switch in function of selective androgen receptor antagonist/modulators (SARMs) as agonists and activate a functional program of specific proinflammatory signals causing dismissal of the N-CoR holocorepressor complex from AR.

Published
2006

33. Tbx19, a tissue-selective regulator of POMC gene expression

Author

Liu, Jianxiang, Lin, Chijen, Gleiberman, Anatoli, Ohgi, Kenneth A., Herman, Thomas, Huang, Hsiang-Po, Tsai, Ming-Jer, and Rosenfeld, Michael G.

Subjects
Gene expression -- Physiological aspects, Pituitary gland -- Genetic aspects, Cell differentiation -- Genetic aspects, Science and technology
Abstract

Pituitary cell types arise in a temporally and spatially specific fashion, in response to combinatorial actions of transcription factors induced by transient signaling gradients. The critical transcriptional determinants of the two pituitary cell types that express the pro-opiomela-nocortin (POMC) gene, the anterior lobe corticotropes, producing adrenocorticotropin, and the intermediate lobe melanotropes, producing melanocyte-stimulating hormone (MSH[Alpha]), have remained unknown. Here, we report that a member of the T-box gene family, Tbx19, which is expressed only in the rostral ventral diencephalon and pituitary gland, commencing on e11.5, marks pituitary cells that will subsequently express the POMC gene and is capable of altering progression of ventral cell types and inducing adrenocorticotropin in rostral tip cells. It is suggested that Tbx19, depending on the presence of synergizing transcription factors, can activate POMC gene expression and repress the [Alpha] glycoprotein subunit and thyroid-stimulating hormone [Beta] promoters.

Published
2001

39. Nuclear Receptor-Enhanced Transcription Requires Motor- and LSD1-Dependent Gene Networking in Interchromatin Granules

Author

Nunez, Esperanza, primary, Kwon, Young-Soo, additional, Hutt, Kasey R., additional, Hu, Qidong, additional, Cardamone, Maria Dafne, additional, Ohgi, Kenneth A., additional, Garcia-Bassets, Ivan, additional, Rose, David W., additional, Glass, Christopher K., additional, Rosenfeld, Michael G., additional, and Fu, Xiang-Dong, additional

Published
2008
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40. RETRACTED: Nuclear Receptor-Enhanced Transcription Requires Motor- and LSD1-Dependent Gene Networking in Interchromatin Granules

Author

Nunez, Esperanza, primary, Kwon, Young-Soo, additional, Hutt, Kasey R., additional, Hu, Qidong, additional, Cardamone, Maria Dafne, additional, Ohgi, Kenneth A., additional, Garcia-Bassets, Ivan, additional, Rose, David W., additional, Glass, Christopher K., additional, Rosenfeld, Michael G., additional, and Fu, Xiang-Dong, additional

Published
2008
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44. Histone Methylation-Dependent Mechanisms Impose Ligand Dependency for Gene Activation by Nuclear Receptors

Author

Garcia-Bassets, Ivan, primary, Kwon, Young-Soo, additional, Telese, Francesca, additional, Prefontaine, Gratien G., additional, Hutt, Kasey R., additional, Cheng, Christine S., additional, Ju, Bong-Gun, additional, Ohgi, Kenneth A., additional, Wang, Jianxun, additional, Escoubet-Lozach, Laure, additional, Rose, David W., additional, Glass, Christopher K., additional, Fu, Xiang-Dong, additional, and Rosenfeld, Michael G., additional

Published
2007
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45. Enhancer-bound LDB1 regulates a corticotrope promoter-pausing repression program.

Author

Feng Zhang, Tanasa, Bogdan, Merkurjev, Daria, Chijen Lin, Xiaoyuan Song, Wenbo Li, Yuliang Tan, Zhijie Liu, Jie Zhang, Ohgi, Kenneth A., Krones, Anna, Skowronska-Krawczyk, Dorota, and Rosenfeld, Michael G.

Subjects
CORTICOTROPIN releasing hormone, REPRESSION (Psychology), CARRIER proteins, CHROMATIN, TRANSCRIPTIONAL repressor CTCF, METASTASIS, DEACETYLASES
Abstract

Substantial evidence supports the hypothesis that enhancers are critical regulators of cell-type determination, orchestrating both positive and negative transcriptional programs; however, the basic mechanisms by which enhancers orchestrate interactions with cognate promoters during activation and repression events remain incompletely understood. Here we report the required actions of LIM domain-binding protein 1 (LDB1)/cofactor of LIM homeodomain protein 2/nuclear LIMinteractor, interactingwith the enhancer-binding protein achaete-scute complex homolog 1, to mediate looping to target gene promoters and target gene regulation in corticotrope cells. LDB1-mediated enhancer:promoter looping appears to be required for both activation and repression of these target genes. Although LDB1-dependent activated genes are regulated at the level of transcriptional initiation, the LDB1-dependent repressed transcription units appear to be regulated primarily at the level of promoter pausing, with LDB1 regulating recruitment of metastasis-associated 1 family, member 2, a component of the nucleosome remodeling deacetylase complex, on these negative enhancers, required for the repressive enhancer function. These results indicate that LDB1-dependent looping events can deliver repressive cargo to cognate promoters to mediate promoter pausing events in a pituitary cell type. [ABSTRACT FROM AUTHOR]

Published
2015
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46. Homeodomain-Mediated β-Catenin-Dependent Switching Events Dictate Cell-Lineage Determination

Author

Olson, Lorin E., primary, Tollkuhn, Jessica, additional, Scafoglio, Claudio, additional, Krones, Anna, additional, Zhang, Jie, additional, Ohgi, Kenneth A., additional, Wu, Wei, additional, Taketo, Makoto M., additional, Kemler, Rolf, additional, Grosschedl, Rudolf, additional, Rose, Dave, additional, Li, Xue, additional, and Rosenfeld, Michael G., additional

Published
2006
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49. Corrigendum: Eya protein phosphatase activity regulates Six1-Dach-Eya transcriptional effects in mammalian organogenesis

Author

Li, Xue, Ohgi, Kenneth A., Zhang, Jie, Krones, Anna, Bush, Kevin T., Glass, Christopher K., Nigam, Sanjay K., Aggarwal, Aneel K., Maas, Richard, Rose, David W., and Rosenfeld, Michael G.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Xue Li; Kenneth A. Ohgi; Jie Zhang; Anna Krones; Kevin T. Bush; Christopher K. Glass; Sanjay K. Nigam; Aneel K. Aggarwal; Richard Maas; David W. Rose; Michael G. Rosenfeld [...]

Published
2004
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50. Erratum: Corrigendum: Eya protein phosphatase activity regulates Six1–Dach–Eya transcriptional effects in mammalian organogenesis

Author

Li, Xue, primary, Ohgi, Kenneth A., additional, Zhang, Jie, additional, Krones, Anna, additional, Bush, Kevin T., additional, Glass, Christopher K., additional, Nigam, Sanjay K., additional, Aggarwal, Aneel K., additional, Maas, Richard, additional, Rose, David W., additional, and Rosenfeld, Michael G., additional

Published
2004
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