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2. Ex vivo screen identifies CDK12 as a metastatic vulnerability in osteosarcoma

Author

Bayles, Ian, Krajewska, Malgorzata, Pontius, W. Dean, Saiakhova, Alina, Morrow, James J., Bartels, Cynthia, Lu, Jim, Faber, Zachary J., Fedorov, Yuriy, Hong, Ellen S., Karnuta, Jaret M., Rubin, Brian, Adams, Drew J., George, Rani E., and Scacheri, Peter C.

Subjects
DNA damage, B cells, Osteosarcoma, Transcription (Genetics), Cancer metastasis, RNA, DNA, Genes, DNA repair, Health care industry, Case Western Reserve University. School of Medicine
Abstract

Despite progress in intensification of therapy, outcomes for patients with metastatic osteosarcoma (OS) have not improved in thirty years. We developed a system that enabled preclinical screening of compounds against metastatic OS cells in the context of the native lung microenvironment. Using this strategy to screen a library of epigenetically targeted compounds, we identified inhibitors of CDK12 to be most effective, reducing OS cell outgrowth in the lung by more than 90% at submicromolar doses. We found that knockout of CDK12 in an in vivo model of lung metastasis significantly decreased the ability of OS to colonize the lung. CDK12 inhibition led to defects in transcription elongation in a gene length- and expressiondependent manner. These effects were accompanied by defects in RNA processing and altered the expression of genes involved in transcription regulation and the DNA damage response. We further identified OS models that differ in their sensitivity to CDK12 inhibition in the lung and provided evidence that upregulated MYC levels may mediate these differences. Our studies provided a framework for rapid preclinical testing of compounds with antimetastatic activity and highlighted CDK12 as a potential therapeutic target in OS., Introduction One of the greatest challenges in cancer treatment is the successful targeting and eradication of metastatic disease. Indeed, 90% of cancer-related deaths are caused by metastasis (1), yet paradoxically, [...]

Published
2019
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3. Colon Cancer-Upregulated Long Non-Coding RNA lincDUSP Regulates Cell Cycle Genes and Potentiates Resistance to Apoptosis

Author

Megan E. Forrest, Alina Saiakhova, Lydia Beard, David A. Buchner, Peter C. Scacheri, Thomas LaFramboise, Sanford Markowitz, and Ahmad M. Khalil

Subjects
Medicine, Science
Abstract

Abstract Long non-coding RNAs (lncRNAs) are frequently dysregulated in many human cancers. We sought to identify candidate oncogenic lncRNAs in human colon tumors by utilizing RNA sequencing data from 22 colon tumors and 22 adjacent normal colon samples from The Cancer Genome Atlas (TCGA). The analysis led to the identification of ~200 differentially expressed lncRNAs. Validation in an independent cohort of normal colon and patient-derived colon cancer cell lines identified a novel lncRNA, lincDUSP, as a potential candidate oncogene. Knockdown of lincDUSP in patient-derived colon tumor cell lines resulted in significantly decreased cell proliferation and clonogenic potential, and increased susceptibility to apoptosis. The knockdown of lincDUSP affects the expression of ~800 genes, and NCI pathway analysis showed enrichment of DNA damage response and cell cycle control pathways. Further, identification of lincDUSP chromatin occupancy sites by ChIRP-Seq demonstrated association with genes involved in the replication-associated DNA damage response and cell cycle control. Consistent with these findings, lincDUSP knockdown in colon tumor cell lines increased both the accumulation of cells in early S-phase and γH2AX foci formation, indicating increased DNA damage response induction. Taken together, these results demonstrate a key role of lincDUSP in the regulation of important pathways in colon cancer.

Published
2018
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4. PRC2 Is Dispensable in Vivo for β-Catenin-Mediated Repression of Chondrogenesis in the Mouse Embryonic Cranial Mesenchyme

Author

James Ferguson, Mahima Devarajan, Gregg DiNuoscio, Alina Saiakhova, Chia-Feng Liu, Veronique Lefebvre, Peter C. Scacheri, and Radhika P. Atit

Subjects
cell fate selection, H3K27me3, skull bone, cranial dermis, development, Genetics, QH426-470
Abstract

A hallmark of craniofacial development is the differentiation of multiple cell lineages in close proximity to one another. The mouse skull bones and overlying dermis are derived from the cranial mesenchyme (CM). Cell fate selection of the embryonic cranial bone and dermis in the CM requires Wnt/β-catenin signaling, and loss of β-catenin leads to an ectopic chondrogenic cell fate switch. The mechanism by which Wnt/β-catenin activity suppresses the cartilage fate is unclear. Upon conditional deletion of β-catenin in the CM, several key determinants of the cartilage differentiation program, including Sox9, become differentially expressed. Many of these differentially expressed genes are known targets of the Polycomb Repressive Complex 2 (PRC2). Thus, we hypothesized that PRC2 is required for Wnt/β-catenin-mediated repression of chondrogenesis in the embryonic CM. We find that β-catenin can physically interact with PRC2 components in the CM in vivo. However, upon genetic deletion of Enhancer of Zeste homolog 2 (EZH2), the catalytic component of PRC2, chondrogenesis remains repressed and the bone and dermis cell fate is preserved in the CM. Furthermore, loss of β-catenin does not alter either the H3K27me3 enrichment levels genome-wide or on cartilage differentiation determinants, including Sox9. Our results indicate that EZH2 is not required to repress chondrogenesis in the CM downstream of Wnt/β-catenin signaling.

Published
2018
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6. Positively selected enhancer elements endow osteosarcoma cells with metastatic competence

Author

Morrow, James J, Bayles, Ian, Funnell, Alister P W, Miller, Tyler E, Saiakhova, Alina, Lizardo, Michael M, Bartels, Cynthia F, Kapteijn, Maaike Y, Hung, Stevephen, Mendoza, Arnulfo, Dhillon, Gursimran, Chee, Daniel R, Myers, Jay T, Allen, Frederick, Gambarotti, Marco, Righi, Alberto, DiFeo, Analisa, Rubin, Brian P, Huang, Alex Y, Meltzer, Paul S, Helman, Lee J, Picci, Piero, Versteeg, Henri H, Stamatoyannopoulos, John A, Khanna, Chand, and Scacheri, Peter C

Subjects
Osteosarcoma -- Development and progression -- Genetic aspects -- Research, Cancer metastasis -- Development and progression -- Genetic aspects -- Research, Biological sciences, Health
Abstract

Metastasis results from a complex set of traits acquired by tumor cells, distinct from those necessary for tumorigenesis. Here, we investigate the contribution of enhancer elements to the metastatic phenotype of osteosarcoma. Through epigenomic profiling, we identify substantial differences in enhancer activity between primary and metastatic human tumors and between near isogenic pairs of highly lung metastatic and nonmetastatic osteosarcoma cell lines. We term these regions metastatic variant enhancer loci (Met-VELs). Met-VELs drive coordinated waves of gene expression during metastatic colonization of the lung. Met-VELs cluster nonrandomly in the genome, indicating that activity of these enhancers and expression of their associated gene targets are positively selected. As evidence of this causal association, osteosarcoma lung metastasis is inhibited by global interruptions of Met-VEL-associated gene expression via pharmacologic BET inhibition, by knockdown of AP-1 transcription factors that occupy Met-VELs, and by knockdown or functional inhibition of individual genes activated by Met-VELs, such as that encoding coagulation factor III/tissue factor (F3). We further show that genetic deletion of a single Met-VEL at the F3 locus blocks metastatic cell outgrowth in the lung. These findings indicate that Met-VELs and the genes they regulate play a functional role in metastasis and may be suitable targets for antimetastatic therapies., Author(s): James J Morrow [1, 2]; Ian Bayles [2]; Alister P W Funnell [3]; Tyler E Miller [1]; Alina Saiakhova [2]; Michael M Lizardo [4]; Cynthia F Bartels [2]; Maaike [...]

Published
2018
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7. Therapeutic targeting of ependymoma as informed by oncogenic enhancer profiling

Author

Mack, Stephen C., Pajtler, Kristian W., Chavez, Lukas, Okonechnikov, Konstantin, Bertrand, Kelsey C., Wang, Xiuxing, Erkek, Serap, Federation, Alexander, Song, Anne, Lee, Christine, Wang, Xin, McDonald, Laura, Morrow, James J., Saiakhova, Alina, Sin-Chan, Patrick, Wu, Qiulian, Michaelraj, Kulandaimanuvel Antony, Miller, Tyler E., Hubert, Christopher G., Ryzhova, Marina, Garzia, Livia, Donovan, Laura, Dombrowski, Stephen, Factor, Daniel C., Luu, Betty, Valentim, Claudia L. L., Gimple, Ryan C., Morton, Andrew, Kim, Leo, Prager, Briana C., Lee, John J. Y., Wu, Xiaochong, Zuccaro, Jennifer, Thompson, Yuan, Holgado, Borja L., Reimand, Jri, Ke, Susan Q., Tropper, Adam, Lai, Sisi, Vijayarajah, Senthuran, Doan, Sylvia, Mahadev, Vaidehi, Mian, Ana Fernandez, Grbner, Susanne N., Lienhard, Matthias, Zapatka, Marc, Huang, Zhiqin, Aldape, Kenneth D., Carcaboso, Angel M., Houghton, Peter J., Keir, Stephen T., Milde, Till, Witt, Hendrik, Li, Yan, Li, Chao-Jun, Bian, Xiu-Wu, Jones, David T. W., Scott, Ian, Singh, Sheila K., Huang, Annie, Dirks, Peter B., Bouffet, Eric, Bradner, James E., Ramaswamy, Vijay, Jabado, Nada, Rutka, James T., Northcott, Paul A., Lupien, Mathieu, Lichter, Peter, Korshunov, Andrey, Scacheri, Peter C., Pfister, Stefan M., Kool, Marcel, Taylor, Michael D., and Rich, Jeremy N.

Subjects
Gliomas -- Physiological aspects -- Genetic aspects -- Care and treatment, Cancer genetics -- Research, Cancer research, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Stephen C. Mack [1, 2, 3, 4]; Kristian W. Pajtler [5, 6, 7]; Lukas Chavez [5, 6, 8]; Konstantin Okonechnikov [5, 6]; Kelsey C. Bertrand [1, 2, 9]; Xiuxing [...]

Published
2018
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8. Enhancer mapping uncovers phenotypic heterogeneity and evolution in patients with luminal breast cancer

Author

Patten, Darren K., Corleone, Giacomo, Győrffy, Balázs, Perone, Ylenia, Slaven, Neil, Barozzi, Iros, Erdős, Edina, Saiakhova, Alina, Goddard, Kate, Vingiani, Andrea, Shousha, Sami, Pongor, Lőrinc Sándor, Hadjiminas, Dimitri J., Schiavon, Gaia, Barry, Peter, Palmieri, Carlo, Coombes, Raul C., Scacheri, Peter, Pruneri, Giancarlo, and Magnani, Luca

Published
2018
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9. Hotspots of aberrant enhancer activity punctuate the colorectal cancer epigenome

Author

Andrea J. Cohen, Alina Saiakhova, Olivia Corradin, Jennifer M. Luppino, Katreya Lovrenert, Cynthia F. Bartels, James J. Morrow, Stephen C. Mack, Gursimran Dhillon, Lydia Beard, Lois Myeroff, Matthew F. Kalady, Joseph Willis, James E. Bradner, Ruth A. Keri, Nathan A. Berger, Shondra M. Pruett-Miller, Sanford D. Markowitz, and Peter C. Scacheri

Subjects
Science
Abstract

Active enhancers are defined by the presence of post-translational modifications of histones. Here, the authors use these marks to identify enhancers recurrently activated in colorectal cancer and find that these enhancers turn on oncogenes and are associated with known risk loci for developing the disease.

Published
2017
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10. Mismatch repair-signature mutations activate gene enhancers across human colorectal cancer epigenomes

Author

Stevephen Hung, Alina Saiakhova, Zachary J Faber, Cynthia F Bartels, Devin Neu, Ian Bayles, Evelyn Ojo, Ellen S Hong, W Dean Pontius, Andrew R Morton, Ruifu Liu, Matthew F Kalady, David N Wald, Sanford Markowitz, and Peter C Scacheri

Subjects
gene enhancer, cis-regulatory mutation, colorectal cancer, Medicine, Science, Biology (General), QH301-705.5
Abstract

Commonly-mutated genes have been found for many cancers, but less is known about mutations in cis-regulatory elements. We leverage gains in tumor-specific enhancer activity, coupled with allele-biased mutation detection from H3K27ac ChIP-seq data, to pinpoint potential enhancer-activating mutations in colorectal cancer (CRC). Analysis of a genetically-diverse cohort of CRC specimens revealed that microsatellite instable (MSI) samples have a high indel rate within active enhancers. Enhancers with indels show evidence of positive selection, increased target gene expression, and a subset is highly recurrent. The indels affect short homopolymer tracts of A/T and increase affinity for FOX transcription factors. We further demonstrate that signature mismatch-repair (MMR) mutations activate enhancers using a xenograft tumor metastasis model, where mutations are induced naturally via CRISPR/Cas9 inactivation of MLH1 prior to tumor cell injection. Our results suggest that MMR signature mutations activate enhancers in CRC tumor epigenomes to provide a selective advantage.

Published
2019
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13. Epigenomic Enhancer Profiling Defines a Signature of Colon Cancer

Author

Akhtar-Zaidi, Batool, Cowper-Sal-lari, Richard, Corradin, Olivia, Saiakhova, Alina, Bartels, Cynthia F., Balasubramanian, Dheepa, Myeroff, Lois, Lutterbaugh, James, Jarrar, Awad, Kalady, Matthew F., Willis, Joseph, Moore, Jason H., Tesar, Paul J., Laframboise, Thomas, Markowitz, Sanford, Lupien, Mathieu, and Scacheri, Peter C.

Published
2012
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14. Ex vivo screen identifies CDK12 as a metastatic vulnerability in osteosarcoma

Author

Ellen S. Hong, W Dean Pontius, Yuriy Fedorov, Cynthia F. Bartels, Peter C. Scacheri, Jaret M. Karnuta, Jim Lu, Małgorzata Krajewska, Brian P. Rubin, James J. Morrow, Ian Bayles, Rani E. George, Alina Saiakhova, Drew J. Adams, and Zachary J Faber

Subjects
0301 basic medicine, Lung Neoplasms, DNA damage, Cell, Context (language use), Mice, SCID, Gene Knockout Techniques, Mice, 03 medical and health sciences, 0302 clinical medicine, In vivo, Cell Line, Tumor, Tumor Microenvironment, medicine, Transcriptional regulation, Animals, Humans, Protein Kinase Inhibitors, Osteosarcoma, business.industry, Cancer, General Medicine, medicine.disease, Cyclin-Dependent Kinases, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Cancer research, Female, Drug Screening Assays, Antitumor, business, Ex vivo, Research Article
Abstract

Despite progress in intensification of therapy, outcomes for patients with metastatic osteosarcoma (OS) have not improved in thirty years. We developed a system that enabled preclinical screening of compounds against metastatic OS cells in the context of the native lung microenvironment. Using this strategy to screen a library of epigenetically targeted compounds, we identified inhibitors of CDK12 to be most effective, reducing OS cell outgrowth in the lung by more than 90% at submicromolar doses. We found that knockout of CDK12 in an in vivo model of lung metastasis significantly decreased the ability of OS to colonize the lung. CDK12 inhibition led to defects in transcription elongation in a gene length- and expression-dependent manner. These effects were accompanied by defects in RNA processing and altered the expression of genes involved in transcription regulation and the DNA damage response. We further identified OS models that differ in their sensitivity to CDK12 inhibition in the lung and provided evidence that upregulated MYC levels may mediate these differences. Our studies provided a framework for rapid preclinical testing of compounds with antimetastatic activity and highlighted CDK12 as a potential therapeutic target in OS.

Published
2019

15. Linguistic Personality As A Key Concept Of Anthropolinguistics

Author

Flyuza Gabdullinovna Fatkullina, Almira Kamilovna Suleymanova, Lira Marselevna Salimova, Vladimir Vasilevich Vorobiev, and Dinara Kamilevna Saiakhova

Subjects
media_common.quotation_subject, Key (cryptography), Personality, Psychology, Linguistics, media_common
Published
2020

16. CHD7 promotes neural progenitor differentiation in embryonic stem cells via altered chromatin accessibility and nascent gene expression

Author

Jennifer M. Skidmore, Hui Yao, Ricardo D’Oliveira Albanus, Gilson J. Sanchez, Alina Saiakhova, Stephanie L. Bielas, Stephen C. J. Parker, Mats Ljungman, Peter C. Scacheri, Donna M. Martin, Douglas F Hannum, Wenjia Lou, Yiwen Zhai, and Sophie F. Hill

Subjects
0301 basic medicine, Cellular differentiation, lcsh:Medicine, Biology, Development, Chromatin remodeling, Article, Chromodomain, Epigenesis, Genetic, 03 medical and health sciences, Mice, 0302 clinical medicine, Neural Stem Cells, Conditional gene knockout, Animals, Epigenetics in the nervous system, lcsh:Science, Induced pluripotent stem cell, Embryonic Stem Cells, Regulation of gene expression, Mice, Knockout, Neurons, Multidisciplinary, Gene Expression Profiling, lcsh:R, Gene Expression Regulation, Developmental, Cell Differentiation, Neural stem cell, Chromatin, Cell biology, DNA-Binding Proteins, 030104 developmental biology, Blastocyst, Enhancer Elements, Genetic, lcsh:Q, 030217 neurology & neurosurgery, Transcription Factors
Abstract

CHARGE syndrome, a rare multiple congenital anomaly condition, is caused by haploinsufficiency of the chromatin remodeling protein gene CHD7 (Chromodomain helicase DNA binding protein 7). Brain abnormalities and intellectual disability are commonly observed in individuals with CHARGE, and neuronal differentiation is reduced in CHARGE patient-derived iPSCs and conditional knockout mouse brains. However, the mechanisms of CHD7 function in nervous system development are not well understood. In this study, we asked whether CHD7 promotes gene transcription in neural progenitor cells via changes in chromatin accessibility. We used Chd7 null embryonic stem cells (ESCs) derived from Chd7 mutant mouse blastocysts as a tool to investigate roles of CHD7 in neuronal and glial differentiation. Loss of Chd7 significantly reduced neuronal and glial differentiation. Sholl analysis showed that loss of Chd7 impaired neuronal complexity and neurite length in differentiated neurons. Genome-wide studies demonstrated that loss of Chd7 leads to modified chromatin accessibility (ATAC-seq) and differential nascent expression (Bru-Seq) of neural-specific genes. These results suggest that CHD7 acts preferentially to alter chromatin accessibility of key genes during the transition of NPCs to neurons to promote differentiation. Our results form a basis for understanding the cell stage-specific roles for CHD7-mediated chromatin remodeling during cell lineage acquisition.

Published
2020

17. TRANSLATION OF PROPER NOUNS IN VIDEOGAMES IN ENGLISH-RUSSIAN LANGUAGE PAIR

Author

Saiakhova, D.K. and Fatkullina, F.G.

Subjects
philology, proper nouns, linguistics, translation, localization
Abstract

The given article is devoted to the issues in translations of the onims functioning in the videogames area, from English into Rus- sian. Authors have analyzed 5 type of translation of anthroponyms and toponimes: transliteration, transcription, transposition, loan translation, cul- tural adaptation. The conclusion is that for some elements it is not always possible to find an analogue in the translation language, therefore, units of approximately equal strength and value are used.

Published
2020
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18. Enhancer mapping uncovers phenotypic heterogeneity and evolution in patients with luminal breast cancer

Author

Giacomo Corleone, Ylenia Perone, Dimitri Hadjiminas, Neil D. Slaven, Peter C. Scacheri, Kate Goddard, Edina Erdős, Giancarlo Pruneri, Darren K. Patten, Lőrinc S. Pongor, Balazs Gyorffy, Peter A. Barry, Gaia Schiavon, Charles Coombes, Sami Shousha, Andrea Vingiani, Iros Barozzi, Alina Saiakhova, Luca Magnani, Carlo Palmieri, Imperial College London, and Cancer Research UK

Subjects
CHROMATIN, 0301 basic medicine, Transcription, Genetic, Settore MED/06 - Oncologia Medica, Research & Experimental Medicine, Somatic evolution in cancer, Epigenesis, Genetic, Risk Factors, HUMAN GENOME, Elméleti orvostudományok, 11 Medical and Health Sciences, YY1 Transcription Factor, GENE-EXPRESSION, Genetics, Tumor, Single Nucleotide, Orvostudományok, General Medicine, 3. Good health, TRANSCRIPTION FACTORS, Enhancer Elements, Genetic, Phenotype, Medicine, Research & Experimental, PIONEER FACTORS, MCF-7 Cells, Female, Transcription, Life Sciences & Biomedicine, Protein Binding, Biochemistry & Molecular Biology, Sodium-Hydrogen Exchangers, Enhancer Elements, Breast Neoplasms, Cell Line, Tumor, Clone Cells, Estrogen Receptor alpha, Estrogens, Humans, Phosphoproteins, Polymorphism, Single Nucleotide, Clonal Evolution, Immunology, Settore MED/08 - Anatomia Patologica, Biology, General Biochemistry, Genetics and Molecular Biology, Cell Line, 03 medical and health sciences, Genetic, REVEALS, CELL, Epigenetics, Polymorphism, Enhancer, Gene, Transcription factor, Settore MED/04 - Patologia Generale, Science & Technology, MOLECULAR PORTRAITS, Genetic heterogeneity, ESTROGEN-RECEPTOR BINDING, Promoter, Cell Biology, Epigenome, SUPER-ENHANCERS, 030104 developmental biology, Epigenesis
Abstract

The degree of intrinsic and interpatient phenotypic heterogeneity and its role in tumor evolution is poorly understood. Phenotypic drifts can be transmitted via inheritable transcriptional programs. Cell-type specific transcription is maintained through the activation of epigenetically defined regulatory regions including promoters and enhancers. Here we have annotated the epigenome of 47 primary and metastatic estrogen-receptor (ERα)-positive breast cancer clinical specimens and inferred phenotypic heterogeneity from the regulatory landscape, identifying key regulatory elements commonly shared across patients. Shared regions contain a unique set of regulatory information including the motif for transcription factor YY1. We identify YY1 as a critical determinant of ERα transcriptional activity promoting tumor growth in most luminal patients. YY1 also contributes to the expression of genes mediating resistance to endocrine treatment. Finally, we used H3K27ac levels at active enhancer elements as a surrogate of intra-tumor phenotypic heterogeneity to track the expansion and contraction of phenotypic subpopulations throughout breast cancer progression. By tracking the clonality of SLC9A3R1-positive cells, a bona fide YY1-ERα-regulated gene, we show that endocrine therapies select for phenotypic clones under-represented at diagnosis. Collectively, our data show that epigenetic mechanisms significantly contribute to phenotypic heterogeneity and evolution in systemically treated breast cancer patients.

Published
2018

19. PRC2 Is Dispensable in Vivo for β-Catenin-Mediated Repression of Chondrogenesis in the Mouse Embryonic Cranial Mesenchyme

Author

Chia-Feng Liu, Gregg DiNuoscio, Véronique Lefebvre, Mahima Devarajan, James W. Ferguson, Radhika P. Atit, Alina Saiakhova, and Peter C. Scacheri

Subjects
0301 basic medicine, Cartilage, Mesenchyme, H3K27me3, EZH2, Wnt signaling pathway, macromolecular substances, skull bone, Biology, Cell fate determination, QH426-470, Chondrogenesis, Embryonic stem cell, Cell biology, 03 medical and health sciences, 030104 developmental biology, medicine.anatomical_structure, Catenin, cranial dermis, medicine, Genetics, cell fate selection, Molecular Biology, development, Genetics (clinical)
Abstract

A hallmark of craniofacial development is the differentiation of multiple cell lineages in close proximity to one another. The mouse skull bones and overlying dermis are derived from the cranial mesenchyme (CM). Cell fate selection of the embryonic cranial bone and dermis in the CM requires Wnt/β-catenin signaling, and loss of β-catenin leads to an ectopic chondrogenic cell fate switch. The mechanism by which Wnt/β-catenin activity suppresses the cartilage fate is unclear. Upon conditional deletion of β-catenin in the CM, several key determinants of the cartilage differentiation program, including Sox9, become differentially expressed. Many of these differentially expressed genes are known targets of the Polycomb Repressive Complex 2 (PRC2). Thus, we hypothesized that PRC2 is required for Wnt/β-catenin-mediated repression of chondrogenesis in the embryonic CM. We find that β-catenin can physically interact with PRC2 components in the CM in vivo. However, upon genetic deletion of Enhancer of Zeste homolog 2 (EZH2), the catalytic component of PRC2, chondrogenesis remains repressed and the bone and dermis cell fate is preserved in the CM. Furthermore, loss of β-catenin does not alter either the H3K27me3 enrichment levels genome-wide or on cartilage differentiation determinants, including Sox9. Our results indicate that EZH2 is not required to repress chondrogenesis in the CM downstream of Wnt/β-catenin signaling.

Published
2018

20. Positively selected enhancer elements endow osteosarcoma cells with metastatic competence

Author

Tyler E. Miller, Analisa DiFeo, Ian Bayles, Gursimran Dhillon, Stevephen Hung, Frederick Allen, Cynthia F. Bartels, Alberto Righi, Maaike Y. Kapteijn, Brian P. Rubin, Alex Yee-Chen Huang, Peter C. Scacheri, Arnulfo Mendoza, Michael M. Lizardo, Paul S. Meltzer, James J. Morrow, Lee J. Helman, John A. Stamatoyannopoulos, Daniel R. Chee, Alister P. W. Funnell, Piero Picci, Jay Myers, Alina Saiakhova, Henri H. Versteeg, Chand Khanna, and Marco Gambarotti

Subjects
Epigenomics, 0301 basic medicine, Lung Neoplasms, Carcinogenesis, Biology, medicine.disease_cause, Article, General Biochemistry, Genetics and Molecular Biology, Thromboplastin, Metastasis, 03 medical and health sciences, Cell Line, Tumor, Tumor Microenvironment, medicine, Humans, Neoplasm Metastasis, Selection, Genetic, Enhancer, Transcription factor, Gene, Regulation of gene expression, Osteosarcoma, Gene knockdown, Genome, Human, Proteins, General Medicine, medicine.disease, Gene Expression Regulation, Neoplastic, Transcription Factor AP-1, Enhancer Elements, Genetic, 030104 developmental biology, Cancer research
Abstract

Metastasis results from a complex set of traits acquired by tumor cells, distinct from those necessary for tumorigenesis. Here, we investigate the contribution of enhancer elements to the metastatic phenotype of osteosarcoma. Through epigenomic profiling, we identify substantial differences in enhancer activity between primary and metastatic human tumors and between near isogenic pairs of highly lung metastatic and nonmetastatic osteosarcoma cell lines. We term these regions metastatic variant enhancer loci (Met-VELs). Met-VELs drive coordinated waves of gene expression during metastatic colonization of the lung. Met-VELs cluster nonrandomly in the genome, indicating that activity of these enhancers and expression of their associated gene targets are positively selected. As evidence of this causal association, osteosarcoma lung metastasis is inhibited by global interruptions of Met-VEL-associated gene expression via pharmacologic BET inhibition, by knockdown of AP-1 transcription factors that occupy Met-VELs, and by knockdown or functional inhibition of individual genes activated by Met-VELs, such as that encoding coagulation factor III/tissue factor (F3). We further show that genetic deletion of a single Met-VEL at the F3 locus blocks metastatic cell outgrowth in the lung. These findings indicate that Met-VELs and the genes they regulate play a functional role in metastasis and may be suitable targets for antimetastatic therapies.

Published
2018

21. Therapeutic targeting of ependymoma as informed by oncogenic enhancer profiling

Author

Anne Song, Alexander J. Federation, Leo J.Y. Kim, David T.W. Jones, Ana Fernandez Miñan, Laura McDonald, Mathieu Lupien, Susan Q. Ke, Lukas Chavez, Briana C. Prager, Sheila K. Singh, Peter B. Dirks, Borja L. Holgado, Kristian W. Pajtler, Yan Li, Till Milde, Marc Zapatka, Angel M. Carcaboso, Livia Garzia, Xiuxing Wang, Chao Jun Li, Kenneth Aldape, Christine Lee, Ian C. Scott, Xin Wang, Laura K. Donovan, Xiu-Wu Bian, Sylvia Doan, Stephen M. Dombrowski, Betty Luu, Michael D. Taylor, Adam Tropper, Vaidehi Mahadev, James E. Bradner, Ryan C. Gimple, Tyler E. Miller, Serap Erkek, Christopher G. Hubert, Daniel C. Factor, Kulandaimanuvel Antony Michaelraj, Stefan M. Pfister, Kelsey C. Bertrand, Jennifer Zuccaro, Zhiqin Huang, Yuan Yao Thompson, Hendrik Witt, Nada Jabado, Konstantin Okonechnikov, Paul A. Northcott, James J. Morrow, Senthuran Vijayarajah, Jeremy N. Rich, Susanne Gröbner, Andrey Korshunov, Vijay Ramaswamy, Sisi Lai, Stephen C. Mack, Alina Saiakhova, Annie Huang, Claudia L.L. Valentim, James T. Rutka, Eric Bouffet, Xiaochong Wu, Matthias Lienhard, Qiulian Wu, Jüri Reimand, Peter J. Houghton, Andrew R. Morton, Peter C. Scacheri, John J.Y. Lee, Marina Ryzhova, Patrick Sin-Chan, Peter Lichter, Stephen T. Keir, Marcel Kool, Alex's Lemonade Stand Foundation for Childhood Cancer, Cancer Prevention and Research Institute of Texas, Ministry of Science, Technology and Space (Israel), James S. McDonnell Foundation, and National Institutes of Health (US)

Subjects
0301 basic medicine, Ependymoma, Biology, Small hairpin RNA, Mice, 03 medical and health sciences, Cancer epigenetics, RNA interference, Cancer genomics, medicine, Animals, Humans, Gene Regulatory Networks, Molecular Targeted Therapy, Precision Medicine, Enhancer, Gene, Regulation of gene expression, Multidisciplinary, Base Sequence, Oncogenes, medicine.disease, Xenograft Model Antitumor Assays, Chromatin, Gene Expression Regulation, Neoplastic, CNS cancer, Enhancer Elements, Genetic, 030104 developmental biology, Cancer research, Female, RNA Interference, Transcription Factors
Abstract

Genomic sequencing has driven precision-based oncology therapy; however, the genetic drivers of many malignancies remain unknown or non-targetable, so alternative approaches to the identification of therapeutic leads are necessary. Ependymomas are chemotherapy-resistant brain tumours, which, despite genomic sequencing, lack effective molecular targets. Intracranial ependymomas are segregated on the basis of anatomical location (supratentorial region or posterior fossa) and further divided into distinct molecular subgroups that reflect differences in the age of onset, gender predominance and response to therapy1,2,3. The most common and aggressive subgroup, posterior fossa ependymoma group A (PF-EPN-A), occurs in young children and appears to lack recurrent somatic mutations2. Conversely, posterior fossa ependymoma group B (PF-EPN-B) tumours display frequent large-scale copy number gains and losses but have favourable clinical outcomes1,3. More than 70% of supratentorial ependymomas are defined by highly recurrent gene fusions in the NF-κB subunit gene RELA (ST-EPN-RELA), and a smaller number involve fusion of the gene encoding the transcriptional activator YAP1 (ST-EPN-YAP1)1,3,4. Subependymomas, a distinct histologic variant, can also be found within the supratetorial and posterior fossa compartments, and account for the majority of tumours in the molecular subgroups ST-EPN-SE and PF-EPN-SE. Here we describe mapping of active chromatin landscapes in 42 primary ependymomas in two non-overlapping primary ependymoma cohorts, with the goal of identifying essential super-enhancer-associated genes on which tumour cells depend. Enhancer regions revealed putative oncogenes, molecular targets and pathways; inhibition of these targets with small molecule inhibitors or short hairpin RNA diminished the proliferation of patient-derived neurospheres and increased survival in mouse models of ependymomas. Through profiling of transcriptional enhancers, our study provides a framework for target and drug discovery in other cancers that lack known genetic drivers and are therefore difficult to treat., This work was supported by an Alex's Lemonade Stand Young Investigator Award (S.C.M.), The CIHR Banting Fellowship (S.C.M.), The Cancer Prevention Research Institute of Texas (S.C.M., RR170023), Sibylle Assmus Award for Neurooncology (K.W.P.), the DKFZ-MOST (Ministry of Science, Technology & Space, Israel) program in cancer research (H.W.), James S. McDonnell Foundation (J.N.R.) and NIH grants: CA154130 (J.N.R.), R01 CA169117 (J.N.R.), R01 CA171652 (J.N.R.), R01 NS087913 (J.N.R.) and R01 NS089272 (J.N.R.). R.C.G. is supported by NIH grants T32GM00725 and F30CA217065. M.D.T. is supported by The Garron Family Chair in Childhood Cancer Research, and grants from the Pediatric Brain Tumour Foundation, Grand Challenge Award from CureSearch for Children’s Cancer, the National Institutes of Health (R01CA148699, R01CA159859), The Terry Fox Research Institute and Brainchild. M.D.T. is also supported by a Stand Up To Cancer St. Baldrick’s Pediatric Dream Team Translational Research Grant (SU2C-AACR-DT1113).

Published
2017

24. Abstract P2-04-01: Withdrawn

Author

Lőrinc S. Pongor, Sami Shousha, Peter A. Barry, Kate Goddard, Balázs Győrffy, Giancarlo Pruneri, R. C. Coombes, Alina Saiakhova, Giacomo Corleone, Carlo Palmieri, Gaia Schiavon, Andrea Vingiani, Dimitri Hadjiminas, Luca Magnani, Peter C. Scacheri, Edina Erdős, and Darren K. Patten

Subjects
Cancer Research, Oncology
Abstract

This abstract was withdrawn by the authors.

Published
2018

25. Mismatch repair-signature mutations activate gene enhancers across human colorectal cancer epigenomes

Author

Alina Saiakhova, Ellen S. Hong, Matthew F. Kalady, Andrew R. Morton, W Dean Pontius, Zachary J Faber, Stevephen Hung, Cynthia F. Bartels, Ian Bayles, Evelyn Ojo, Peter C. Scacheri, Sanford D. Markowitz, David N. Wald, Ruifu Liu, and Devin Neu

Subjects
0301 basic medicine, Colorectal cancer, DNA Mismatch Repair, Histones, Epigenome, Mice, 0302 clinical medicine, INDEL Mutation, CRISPR, Biology (General), Cancer Biology, General Neuroscience, Acetylation, General Medicine, Enhancer Elements, Genetic, Phenotype, 030220 oncology & carcinogenesis, Medicine, DNA mismatch repair, Microsatellite Instability, Colorectal Neoplasms, Research Article, Human, QH301-705.5, Science, colorectal cancer, Biology, MLH1, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Cell Line, Tumor, medicine, Animals, Humans, gene enhancer, Nucleotide Motifs, Selection, Genetic, Indel, Enhancer, Gene, General Immunology and Microbiology, Base Sequence, Cas9, Lysine, Genetics and Genomics, medicine.disease, digestive system diseases, 030104 developmental biology, cis-regulatory mutation, Gene Expression Regulation, Mutation, Cancer research, Transcription Factors
Abstract

Commonly-mutated genes have been found for many cancers, but less is known about mutations in cis-regulatory elements. We leverage gains in tumor-specific enhancer activity, coupled with allele-biased mutation detection from H3K27ac ChIP-seq data, to pinpoint potential enhancer-activating mutations in colorectal cancer (CRC). Analysis of a genetically-diverse cohort of CRC specimens revealed that microsatellite instable (MSI) samples have a high indel rate within active enhancers. Enhancers with indels show evidence of positive selection, increased target gene expression, and a subset is highly recurrent. The indels affect short homopolymer tracts of A/T and increase affinity for FOX transcription factors. We further demonstrate that signature mismatch-repair (MMR) mutations activate enhancers using a xenograft tumor metastasis model, where mutations are induced naturally via CRISPR/Cas9 inactivation of MLH1 prior to tumor cell injection. Our results suggest that MMR signature mutations activate enhancers in CRC tumor epigenomes to provide a selective advantage.

Published
2019

26. Author response: Mismatch repair-signature mutations activate gene enhancers across human colorectal cancer epigenomes

Author

Sanford D. Markowitz, W Dean Pontius, Zachary J Faber, Alina Saiakhova, Matthew F. Kalady, Ruifu Liu, Stevephen Hung, Cynthia F. Bartels, Ian Bayles, Evelyn Ojo, Peter C. Scacheri, Devin Neu, David N. Wald, Ellen S. Hong, and Andrew R. Morton

Subjects
Colorectal cancer, Cancer research, medicine, DNA mismatch repair, Biology, medicine.disease, Enhancer, Gene, Signature (logic)
Published
2018

28. Transcriptome-wide identification of mRNAs and lincRNAs associated with trastuzumab-resistance in HER2-positive breast cancer

Author

Lyndsay Harris, Callie R. Merry, Cynthia F. Bartels, Alina Saiakhova, Mark W. Jackson, Peter C. Scacheri, Megan E. Forrest, Courtney A. Bartel, Cheryl L. Thompson, Ahmad M. Khalil, and Sarah McMahon

Subjects
0301 basic medicine, Candidate gene, Receptor, ErbB-2, Breast Neoplasms, Disease, Drug resistance, Receptor tyrosine kinase, Epigenesis, Genetic, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, breast cancer, Antineoplastic Agents, Immunological, Trastuzumab, HER2, Cell Line, Tumor, medicine, Humans, RNA, Messenger, skin and connective tissue diseases, neoplasms, trastuzumab-resistance, drug resistance, biology, business.industry, Calcium-Binding Proteins, Cancer, medicine.disease, 3. Good health, Neoplasm Proteins, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Oncology, Drug Resistance, Neoplasm, 030220 oncology & carcinogenesis, Immunology, Cancer research, biology.protein, cancer therapy, RNA Interference, RNA, Long Noncoding, business, medicine.drug, Research Paper, Signal Transduction
Abstract

// Callie R. Merry 1, 2 , Sarah McMahon 1 , Megan E. Forrest 1 , Cynthia F. Bartels 1 , Alina Saiakhova 1 , Courtney A. Bartel 3 , Peter C. Scacheri 1, 3 , Cheryl L. Thompson 3, 5 , Mark W. Jackson 3 , Lyndsay N. Harris 3, 4 , Ahmad M. Khalil 1, 2, 3 1 Department of Genetics and Genome Sciences, Case Western Reserve University, Cleveland, OH 44106, USA 2 Department of Biochemistry, Case Western Reserve University, Cleveland, OH 44106, USA 3 Case Comprehensive Cancer Center, Case Western Reserve University, Cleveland, OH 44106, USA 4 Department of Medicine and Case Western Reserve University, Cleveland, OH 44106, USA 5 Department of Nutrition, Case Western Reserve University, Cleveland, OH 44106, USA Correspondence to: Ahmad M. Khalil, email: Dr.Ahmad.Khalil@gmail.com Keywords: breast cancer, HER2, drug resistance, trastuzumab-resistance, cancer therapy Received: March 11, 2016 Accepted: July 09, 2016 Published: July 16, 2016 ABSTRACT Approximately, 25–30% of early-stage breast tumors are classified at the molecular level as HER2-positive, which is an aggressive subtype of breast cancer. Amplification of the HER2 gene in these tumors results in a substantial increase in HER2 mRNA levels, and consequently, HER2 protein levels. HER2, a transmembrane receptor tyrosine kinase (RTK), is targeted therapeutically by a monoclonal antibody, trastuzumab (Tz), which has dramatically improved the prognosis of HER2-driven breast cancers. However, ~30% of patients develop resistance to trastuzumab and recur; and nearly all patients with advanced disease develop resistance over time and succumb to the disease. Mechanisms of trastuzumab resistance (TzR) are not well understood, although some studies suggest that growth factor signaling through other receptors may be responsible. However, these studies were based on cell culture models of the disease, and thus, it is not known which pathways are driving the resistance in vivo . Using an integrative transcriptomic approach of RNA isolated from trastuzumab-sensitive and trastuzumab-resistant HER2+ tumors, and isogenic cell culture models, we identified a small set of mRNAs and lincRNAs that are associated with trastuzumab-resistance (TzR). Functional analysis of a top candidate gene, S100P, demonstrated that inhibition of S100P results in reversing TzR. Mechanistically, S100P activates the RAS/MEK/MAPK pathway to compensate for HER2 inhibition by trastuzumab. Finally, we demonstrated that the upregulation of S100P appears to be driven by epigenomic changes at the enhancer level. Our current findings should pave the path toward new therapies for breast cancer patients.

Published
2016

30. Mismatch-repair signature mutations activate gene enhancers across colorectal cancer epigenomes

Author

Ellen S. Hong, Devin Neu, David N. Wald, Sanford D. Markowitz, Andrew R. Morton, Alina Saiakhova, Stevephen Hung, Cynthia F. Bartels, Ian Bayles, Evelyn Ojo, Matthew F. Kalady, Peter C. Scacheri, Ruifu Liu, W Dean Pontius, and Zachary J Faber

Subjects
Cas9, Colorectal cancer, Cancer research, medicine, CRISPR, DNA mismatch repair, Biology, Enhancer, Indel, MLH1, medicine.disease, Gene, digestive system diseases
Abstract

Commonly-mutated genes have been found for many cancers, but less is known about mutations incis-regulatory elements. We leverage gains in tumor-specific enhancer activity, coupled with allele-biased mutation detection from H3K27ac ChIP-seq data, to pinpoint potential enhancer-activating mutations in colorectal cancer (CRC). Analysis of a genetically-diverse cohort of CRC specimens revealed that microsatellite instable (MSI) samples have a high indel rate within active enhancers. Enhancers with indels show evidence of positive selection, increased target gene expression, and a subset is highly recurrent. The indels affect short homopolymer tracts of A/T and increase affinity for FOX transcription factors. We further demonstrate that signature mismatch-repair (MMR) mutations activate enhancers using a xenograft tumor metastasis model, where mutations are induced naturally via CRISPR/Cas9 inactivation ofMLH1prior to tumor cell injection. Our results suggest that MMR signature mutations activate or augment enhancers in CRC tumor epigenomes to provide a selective advantage.

Published
2018

31. Leadership Phenomenon in the Youth Environment

Author

Almira Suleymanova, Flyuza Fatkullina, and Dinara K. Saiakhova

Subjects
Power (social and political), State (polity), business.industry, Phenomenon, Social activity, media_common.quotation_subject, Sociology, Youth leadership, Integrated approach, Public relations, business, Administration (government), media_common
Abstract

In the paper presented, the questions of the general condition of the Russian youth as a special social and demographic group are posed, and the main features that are inherent in the young people and influence the social activity are identified. The technique used in the research is of a holistic nature and integrated approach; it includes the general, general-scientific, and specific methods: the activity-based one, the institutional one, the social and cultural one, the systemic one, and the interdisciplinary approach to analyzing the phenomenon of leadership. As a result of an in-depth analysis of the youth leadership phenomenon, the authors have made more precise the notion of youth leadership in the structures of state and municipal administration from the standpoints of the institutional and social and cultural approaches. The conclusion is made that youth leadership can be legitimated based on the interaction of youth, its leaders, and the power institutions by developing the promising forms of organized social activity of the young people (youth forums, volunteering).

Published
2018

32. Mismatch repair-signature mutations activate gene enhancers across human colorectal cancer epigenomes

Author

Hung, Stevephen, primary, Saiakhova, Alina, additional, Faber, Zachary J, additional, Bartels, Cynthia F, additional, Neu, Devin, additional, Bayles, Ian, additional, Ojo, Evelyn, additional, Hong, Ellen S, additional, Pontius, W Dean, additional, Morton, Andrew R, additional, Liu, Ruifu, additional, Kalady, Matthew F, additional, Wald, David N, additional, Markowitz, Sanford, additional, and Scacheri, Peter C, additional

Published
2019
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33. PRC2 Is Dispensable

Author

James, Ferguson, Mahima, Devarajan, Gregg, DiNuoscio, Alina, Saiakhova, Chia-Feng, Liu, Veronique, Lefebvre, Peter C, Scacheri, and Radhika P, Atit

Subjects
Mice, Knockout, Gene Expression Profiling, H3K27me3, Skull, Polycomb Repressive Complex 2, Gene Expression Regulation, Developmental, Cell Differentiation, Mice, Transgenic, macromolecular substances, skull bone, Investigations, Mesoderm, Cartilage, cranial dermis, Animals, Enhancer of Zeste Homolog 2 Protein, cell fate selection, Chondrogenesis, Wnt Signaling Pathway, development, beta Catenin
Abstract

A hallmark of craniofacial development is the differentiation of multiple cell lineages in close proximity to one another. The mouse skull bones and overlying dermis are derived from the cranial mesenchyme (CM). Cell fate selection of the embryonic cranial bone and dermis in the CM requires Wnt/β-catenin signaling, and loss of β-catenin leads to an ectopic chondrogenic cell fate switch. The mechanism by which Wnt/β-catenin activity suppresses the cartilage fate is unclear. Upon conditional deletion of β-catenin in the CM, several key determinants of the cartilage differentiation program, including Sox9, become differentially expressed. Many of these differentially expressed genes are known targets of the Polycomb Repressive Complex 2 (PRC2). Thus, we hypothesized that PRC2 is required for Wnt/β-catenin-mediated repression of chondrogenesis in the embryonic CM. We find that β-catenin can physically interact with PRC2 components in the CM in vivo. However, upon genetic deletion of Enhancer of Zeste homolog 2 (EZH2), the catalytic component of PRC2, chondrogenesis remains repressed and the bone and dermis cell fate is preserved in the CM. Furthermore, loss of β-catenin does not alter either the H3K27me3 enrichment levels genome-wide or on cartilage differentiation determinants, including Sox9. Our results indicate that EZH2 is not required to repress chondrogenesis in the CM downstream of Wnt/β-catenin signaling.

Published
2017

34. Author response: Mismatch repair-signature mutations activate gene enhancers across human colorectal cancer epigenomes

Author

Hung, Stevephen, primary, Saiakhova, Alina, additional, Faber, Zachary J, additional, Bartels, Cynthia F, additional, Neu, Devin, additional, Bayles, Ian, additional, Ojo, Evelyn, additional, Hong, Ellen S, additional, Pontius, W Dean, additional, Morton, Andrew R, additional, Liu, Ruifu, additional, Kalady, Matthew F, additional, Wald, David N, additional, Markowitz, Sanford, additional, and Scacheri, Peter C, additional

Published
2018
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35. Enhancers mapping uncovers phenotypic heterogeneity and evolution in patients with luminal breast cancer

Author

Balázs Győrffy, Carlo Palmieri, Sami Shousha, R. C. Coombes, Dimitri Hadjiminas, Andrea Vingiani, Kate Goddard, Peter A. Barry, Alina Saiakhova, Giancarlo Pruneri, Peter C. Scacheri, Darren K. Patten, Edina Erdős, Luca Magnani, Giacomo Corleone, Gaia Schiavon, and Lőrinc S. Pongor

Subjects
Genetics, 0303 health sciences, Settore MED/06 - Oncologia Medica, Genetic heterogeneity, Settore BIO/11 - Biologia Molecolare, Epigenome, Computational biology, Settore MED/08 - Anatomia Patologica, Biology, medicine.disease, Phenotype, 3. Good health, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, 030220 oncology & carcinogenesis, medicine, In patient, Epigenetics, Enhancer, Gene, Transcription factor, 030304 developmental biology
Abstract

The degree of intrinsic and interpatient phenotypic heterogeneity and its role in tumour evolution is poorly understood. Phenotypic divergence can be achieved via the inheritance of alternative transcriptional programs1,2. Cell-type specific transcription is maintained through the activation of epigenetically-defined regulatory regions including promoters and enhancers1,3,4. In this work, we annotated the epigenome of 47 primary and metastatic oestrogen-receptor (ERα)-positive breast cancer specimens from clinical samples, and developed strategies to deduce phenotypic heterogeneity from the regulatory landscape, identifying key regulatory elements commonly shared across patients. Highly shared regions contain a unique set of regulatory information including the motif for the transcription factor YY1. In vitro work shows that YY1 is essential for ERα transcriptional activity and defines the critical subset of functional ERα binding sites driving tumor growth in most luminal patients. YY1 also control the expression of genes that mediate resistance to endocrine treatment. Finally, we show that H3K27ac levels at active enhancer elements can be used as a surrogate of intra-tumor phenotypic heterogeneity, and to track expansion and contraction of phenotypic subpopulations throughout breast cancer progression. Tracking YY1 and SLC9A3R1 positive clones in primary and metastatic lesions, we show that endocrine therapies drive the expansion of phenotypic clones originally underrepresented at diagnosis. Collectively, our data show that epigenetic mechanisms significantly contribute to phenotypic heterogeneity and evolution in systemically treated breast cancer patients.

Published
2017

36. Positively Selected Enhancer Elements Endow Tumor Cells with Metastatic Competence

Author

Tyler E. Miller, Analisa DiFeo, Alina Saiakhova, Piero Picci, Arnulfo Mendoza, Stevephen Hung, Cynthia F. Bartels, Frederick Allen, Alberto Righi, Jay Myers, Michael M. Lizardo, Alex Yee-Chen Huang, Peter C. Scacheri, Ian Bayles, Daniel R. Chee, Versteeg H, James J. Morrow, John A. Stamatoyannopoulos, Marco Gambarotti, Kapteijn My, Chand Khanna, Brian P. Rubin, Alister P. W. Funnell, Paul S. Meltzer, and Lee J. Helman

Subjects
Genetics, Gene knockdown, Biology, medicine.disease_cause, medicine.disease, Metastasis, Gene expression, Cancer research, medicine, Osteosarcoma, Carcinogenesis, Enhancer, Transcription factor, Gene
Abstract

Metastasis results from a complex set of traits acquired by tumor cells, distinct from those necessary for tumorigenesis. Here, we investigate the contribution of enhancer elements to the metastatic phenotype of osteosarcoma. Through epigenomic profiling, we identify substantial differences in enhancer activity between primary and metastatic tumors in human patients as well as nearisogenic pairs of high and low lung-metastatic osteosarcoma cells. We term these regions Metastatic Variant Enhancer Loci (Met-VELs). We demonstrate that these Met-VELs drive coordinated waves of gene expression during metastatic colonization of the lung. Met-VELs cluster non-randomly, indicating that activity of these enhancers and their associated gene targets are positively selected. As evidence of this causal association, osteosarcoma lung metastasis is inhibited by global interruptions of Met-VEL-associated gene expression via pharmacologic BET inhibition, by knockdown of AP-1 transcription factors that occupy Met-VELs, and by knockdown or functional inhibition of individual genes activated by Met-VELs, such as F3. We further show that genetic deletion of a single Met-VEL at the F3 locus blocks metastatic cell outgrowth in the lung. These findings indicate that Met-VELs and the genes they regulate play a functional role in metastasis and may be suitable targets for anti-metastatic therapies.

Published
2017

37. Hotspots of aberrant enhancer activity punctuate the colorectal cancer epigenome

Author

Alina Saiakhova, James J. Morrow, Lois Myeroff, Shondra M. Pruett-Miller, Gursimran Dhillon, Andrea J. Cohen, Stephen C. Mack, Nathan A. Berger, Jennifer M. Luppino, Matthew F. Kalady, Joseph Willis, Cynthia F. Bartels, Peter C. Scacheri, Ruth A. Keri, Sanford D. Markowitz, Lydia Beard, James E. Bradner, Katreya Lovrenert, and Olivia Corradin

Subjects
Epigenomics, 0301 basic medicine, Cohesin complex, Cell Survival, Science, Datasets as Topic, Mice, Nude, General Physics and Astronomy, Biology, medicine.disease_cause, Article, General Biochemistry, Genetics and Molecular Biology, Epigenesis, Genetic, Mice, 03 medical and health sciences, Cell Line, Tumor, medicine, Animals, Humans, Epigenetics, Enhancer, Gene, Cell Proliferation, Genetics, Multidisciplinary, General Chemistry, Epigenome, Xenograft Model Antitumor Assays, digestive system diseases, 3. Good health, Chromatin, Gene Expression Regulation, Neoplastic, Transcription Factor AP-1, Enhancer Elements, Genetic, 030104 developmental biology, Genetic Loci, Tissue Array Analysis, Mutation, Female, Colorectal Neoplasms, Carcinogenesis
Abstract

In addition to mutations in genes, aberrant enhancer element activity at non-coding regions of the genome is a key driver of tumorigenesis. Here, we perform epigenomic enhancer profiling of a cohort of more than forty genetically diverse human colorectal cancer (CRC) specimens. Using normal colonic crypt epithelium as a comparator, we identify enhancers with recurrently gained or lost activity across CRC specimens. Of the enhancers highly recurrently activated in CRC, most are constituents of super enhancers, are occupied by AP-1 and cohesin complex members, and originate from primed chromatin. Many activate known oncogenes, and CRC growth can be mitigated through pharmacologic inhibition or genome editing of these loci. Nearly half of all GWAS CRC risk loci co-localize to recurrently activated enhancers. These findings indicate that the CRC epigenome is defined by highly recurrent epigenetic alterations at enhancers which activate a common, aberrant transcriptional programme critical for CRC growth and survival., Active enhancers are defined by the presence of post-translational modifications of histones. Here, the authors use these marks to identify enhancers recurrently activated in colorectal cancer and find that these enhancers turn on oncogenes and are associated with known risk loci for developing the disease.

Published
2017

38. Corrigendum: Positively selected enhancer elements endow osteosarcoma cells with metastatic competence

Author

Morrow, James J, Bayles, Ian, Funnell, Alister P W, Miller, Tyler E, Saiakhova, Alina, Lizardo, Michael M, Bartels, Cynthia F, Kapteijn, Maaike Y, Hung, Stevephen, Mendoza, Arnulfo, Dhillon, Gursimran, Chee, Daniel R, Myers, Jay T, Allen, Frederick, Gambarotti, Marco, Righi, Alberto, DiFeo, Analisa, Rubin, Brian P, Huang, Alex Y, Meltzer, Paul S, Helman, Lee J, Picci, Piero, Versteeg, Henri H, Stamatoyannopoulos, John A, Khanna, Chand, and Scacheri, Peter C

Subjects
Biological sciences, Health
Abstract

Author(s): James J Morrow; Ian Bayles; Alister P W Funnell; Tyler E Miller; Alina Saiakhova; Michael M Lizardo; Cynthia F Bartels; Maaike Y Kapteijn; Stevephen Hung; Arnulfo Mendoza; Gursimran Dhillon; [...]

Published
2018
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39. Epigenomic Comparison Reveals Activation of 'Seed' Enhancers during Transition from Naive to Primed Pluripotency

Author

Olivia Corradin, Gabriel E. Zentner, Paul J. Tesar, Peter C. Scacheri, Alina Saiakhova, Ronald D.G. McKay, Gregory E. Crawford, Daniel C. Factor, Josh G. Chenoweth, and Lingyun Song

Subjects
Pluripotent Stem Cells, Somatic cell, Enhancer RNAs, Biology, Article, Epigenesis, Genetic, Mice, 03 medical and health sciences, 0302 clinical medicine, Genetics, Animals, Induced pluripotent stem cell, Enhancer, Cells, Cultured, Embryonic Stem Cells, 030304 developmental biology, 0303 health sciences, Cell Biology, Embryonic stem cell, Chromatin, Enhancer Elements, Genetic, Epiblast, Molecular Medicine, Stem cell, 030217 neurology & neurosurgery
Abstract

Summary Naive mouse embryonic stem cells (mESCs) and primed epiblast stem cells (mEpiSCs) represent successive snapshots of pluripotency during embryogenesis. Using transcriptomic and epigenomic mapping we show that a small fraction of transcripts are differentially expressed between mESCs and mEpiSCs and that these genes show expected changes in chromatin at their promoters and enhancers. Unexpectedly, the cis -regulatory circuitry of genes that are expressed at identical levels between these cell states also differs dramatically. In mESCs, these genes are associated with dominant proximal enhancers and dormant distal enhancers, which we term seed enhancers. In mEpiSCs, the naive-dominant enhancers are lost, and the seed enhancers take up primary transcriptional control. Seed enhancers have increased sequence conservation and show preferential usage in downstream somatic tissues, often expanding into super enhancers. We propose that seed enhancers ensure proper enhancer utilization and transcriptional fidelity as mammalian cells transition from naive pluripotency to a somatic regulatory program.

Published
2014

40. Trithorax monomethylates histone H3K4 and interacts directly with CBP to promote H3K27 acetylation and antagonize Polycomb silencing

Author

Benny Howard, Kelsey E. Monteith, Rakhee Banerjee, Peter J. Harte, Feng Tie, Peter C. Scacheri, Alina Saiakhova, and Michael S. Cosgrove

Subjects
animal structures, Chromosomal Proteins, Non-Histone, Methylation, environment and public health, Histones, Transcription (biology), Animals, Drosophila Proteins, Gene silencing, Gene Silencing, Enhancer, Molecular Biology, Research Articles, Polycomb Repressive Complex 1, biology, Chromatin binding, fungi, Gene Expression Regulation, Developmental, Acetylation, Molecular biology, Histone, biology.protein, H3K4me3, Demethylase, Protein Binding, Developmental Biology
Abstract

Trithorax (TRX) antagonizes epigenetic silencing by Polycomb group (PcG) proteins, stimulates enhancer-dependent transcription, and establishes a ‘cellular memory’ of active transcription of PcG-regulated genes. The mechanisms underlying these TRX functions remain largely unknown, but are presumed to involve its histone H3K4 methyltransferase activity. We report that the SET domains of TRX and TRX-related (TRR) have robust histone H3K4 monomethyltransferase activity in vitro and that Tyr3701 of TRX and Tyr2404 of TRR prevent them from being trimethyltransferases. The trxZ11 missense mutation (G3601S), which abolishes H3K4 methyltransferase activity in vitro, reduces the H3K4me1 but not the H3K4me3 level in vivo. trxZ11 also suppresses the impaired silencing phenotypes of the Pc3 mutant, suggesting that H3K4me1 is involved in antagonizing Polycomb silencing. Polycomb silencing is also antagonized by TRX-dependent H3K27 acetylation by CREB-binding protein (CBP). We show that perturbation of Polycomb silencing by TRX overexpression requires CBP. We also show that TRX and TRR are each physically associated with CBP in vivo, that TRX binds directly to the CBP KIX domain, and that the chromatin binding patterns of TRX and TRR are highly correlated with CBP and H3K4me1 genome-wide. In vitro acetylation of H3K27 by CBP is enhanced on K4me1-containing H3 substrates, and independently altering the H3K4me1 level in vivo, via the H3K4 demethylase LSD1, produces concordant changes in H3K27ac. These data indicate that the catalytic activities of TRX and CBP are physically coupled and suggest that both activities play roles in antagonizing Polycomb silencing, stimulating enhancer activity and cellular memory.

Published
2014

41. Mismatch-repair signature mutations activate gene enhancers across colorectal cancer epigenomes

Author

Hung, Stevephen, primary, Saiakhova, Alina, additional, Faber, Zachary, additional, Bartels, Cynthia F., additional, Neu, Devin, additional, Bayles, Ian, additional, Ojo, Evelyn, additional, Hong, Ellen S., additional, Pontius, W. Dean, additional, Morton, Andrew R., additional, Liu, Ruifu, additional, Kalady, Matthew, additional, Wald, David N., additional, Markowitz, Sanford, additional, and Scacheri, Peter C., additional

Published
2018
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43. Erratum: Corrigendum: Positively selected enhancer elements endow osteosarcoma cells with metastatic competence

Author

Morrow, James J, primary, Bayles, Ian, additional, Funnell, Alister P W, additional, Miller, Tyler E, additional, Saiakhova, Alina, additional, Lizardo, Michael M, additional, Bartels, Cynthia F, additional, Kapteijn, Maaike Y, additional, Hung, Stevephen, additional, Mendoza, Arnulfo, additional, Dhillon, Gursimran, additional, Chee, Daniel R, additional, Myers, Jay T, additional, Allen, Frederick, additional, Gambarotti, Marco, additional, Righi, Alberto, additional, DiFeo, Analisa, additional, Rubin, Brian P, additional, Huang, Alex Y, additional, Meltzer, Paul S, additional, Helman, Lee J, additional, Picci, Piero, additional, Versteeg, Henri H, additional, Stamatoyannopoulos, John A, additional, Khanna, Chand, additional, and Scacheri, Peter C, additional

Published
2018
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44. Abstract P2-04-01: Withdrawn

Author

Magnani, L, primary, Pruneri, G, additional, Patten, DK, additional, Corleone, G, additional, Győrffy, B, additional, Erdős, E, additional, Saiakhova, A, additional, Goddard, K, additional, Vingiani, A, additional, Shousha, S, additional, Pongor, LS, additional, Hadjiminas, DJ, additional, Schiavon, G, additional, Barry, P, additional, Palmieri, C, additional, Coombes, RC, additional, and Scacheri, P, additional

Published
2018
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45. Enhancers mapping uncovers phenotypic heterogeneity and evolution in patients with luminal breast cancer

Author

Patten, Darren K, primary, Corleone, Giacomo, additional, Győrffy, Balazs, additional, Erdős, Edina, additional, Saiakhova, Alina, additional, Goddard, Kate, additional, Vingiani, Andrea, additional, Shousha, Sami, additional, Pongor, Lőrinc Sandor, additional, Hadjiminas, Dimitri J, additional, Schiavon, Gaia, additional, Barry, Peter, additional, Palmieri, Carlo, additional, Coombes, Raul C, additional, Scacheri, Peter, additional, Pruneri, Giancarlo, additional, and Magnani, Luca, additional

Published
2018
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47. Therapeutic targeting of ependymoma as informed by oncogenic enhancer profiling

Author

Mack, Stephen C., primary, Pajtler, Kristian W., additional, Chavez, Lukas, additional, Okonechnikov, Konstantin, additional, Bertrand, Kelsey C., additional, Wang, Xiuxing, additional, Erkek, Serap, additional, Federation, Alexander, additional, Song, Anne, additional, Lee, Christine, additional, Wang, Xin, additional, McDonald, Laura, additional, Morrow, James J., additional, Saiakhova, Alina, additional, Sin-Chan, Patrick, additional, Wu, Qiulian, additional, Michaelraj, Kulandaimanuvel Antony, additional, Miller, Tyler E., additional, Hubert, Christopher G., additional, Ryzhova, Marina, additional, Garzia, Livia, additional, Donovan, Laura, additional, Dombrowski, Stephen, additional, Factor, Daniel C., additional, Luu, Betty, additional, Valentim, Claudia L. L., additional, Gimple, Ryan C., additional, Morton, Andrew, additional, Kim, Leo, additional, Prager, Briana C., additional, Lee, John J. Y., additional, Wu, Xiaochong, additional, Zuccaro, Jennifer, additional, Thompson, Yuan, additional, Holgado, Borja L., additional, Reimand, Jüri, additional, Ke, Susan Q., additional, Tropper, Adam, additional, Lai, Sisi, additional, Vijayarajah, Senthuran, additional, Doan, Sylvia, additional, Mahadev, Vaidehi, additional, Miñan, Ana Fernandez, additional, Gröbner, Susanne N., additional, Lienhard, Matthias, additional, Zapatka, Marc, additional, Huang, Zhiqin, additional, Aldape, Kenneth D., additional, Carcaboso, Angel M., additional, Houghton, Peter J., additional, Keir, Stephen T., additional, Milde, Till, additional, Witt, Hendrik, additional, Li, Yan, additional, Li, Chao-Jun, additional, Bian, Xiu-Wu, additional, Jones, David T. W., additional, Scott, Ian, additional, Singh, Sheila K., additional, Huang, Annie, additional, Dirks, Peter B., additional, Bouffet, Eric, additional, Bradner, James E., additional, Ramaswamy, Vijay, additional, Jabado, Nada, additional, Rutka, James T., additional, Northcott, Paul A., additional, Lupien, Mathieu, additional, Lichter, Peter, additional, Korshunov, Andrey, additional, Scacheri, Peter C., additional, Pfister, Stefan M., additional, Kool, Marcel, additional, Taylor, Michael D., additional, and Rich, Jeremy N., additional

Published
2017
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48. Combinatorial effects of multiple enhancer variants in linkage disequilibrium dictate levels of gene expression to confer susceptibility to common traits

Author

Sanford D. Markowitz, Mathieu Lupien, Olivia Corradin, Batool Akhtar-Zaidi, Alina Saiakhova, Joseph Willis, Peter C. Scacheri, Lois Myeroff, and Richard Cowper-Sal·lari

Subjects
Linkage disequilibrium, Multiple Sclerosis, Quantitative Trait Loci, Gene Expression, Locus (genetics), Genome-wide association study, Biology, Polymorphism, Single Nucleotide, Linkage Disequilibrium, Autoimmune Diseases, Arthritis, Rheumatoid, Crohn Disease, Genetics, Humans, Lupus Erythematosus, Systemic, Genetic Predisposition to Disease, International HapMap Project, Enhancer, Gene, Genetics (clinical), Genetic association, Research, Genetic Variation, Celiac Disease, Enhancer Elements, Genetic, Phenotype, Colitis, Ulcerative, Genome-Wide Association Study, Common disease-common variant
Abstract

DNA variants (SNPs) that predispose to common traits often localize within noncoding regulatory elements such as enhancers. Moreover, loci identified by genome-wide association studies (GWAS) often contain multiple SNPs in linkage disequilibrium (LD), any of which may be causal. Thus, determining the effect of these multiple variant SNPs on target transcript levels has been a major challenge. Here, we provide evidence that for six common autoimmune disorders (rheumatoid arthritis, Crohn's disease, celiac disease, multiple sclerosis, lupus, and ulcerative colitis), the GWAS association arises from multiple polymorphisms in LD that map to clusters of enhancer elements active in the same cell type. This finding suggests a “multiple enhancer variant” hypothesis for common traits, where several variants in LD impact multiple enhancers and cooperatively affect gene expression. Using a novel method to delineate enhancer–gene interactions, we show that multiple enhancer variants within a given locus typically target the same gene. Using available data from HapMap and B lymphoblasts as a model system, we provide evidence at numerous loci that multiple enhancer variants cooperatively contribute to altered expression of their gene targets. The effects on target transcript levels tend to be modest and can be either gain- or loss-of-function. Additionally, the genes associated with multiple enhancer variants encode proteins that are often functionally related and enriched in common pathways. Overall, the multiple enhancer variant hypothesis offers a new paradigm by which noncoding variants can confer susceptibility to common traits.

Published
2013

49. Практико-ориентированное направление современного химического образования

Author

Саяхова Гульнара Фанисовна, Химический институт им. А.М. Бутлерова ФГАОУ ВО «Казанский (Приволжский) федеральный университет», Saiakhova Gulnara Fanisovna, Халикова Фидалия Дамировна, Khalikova Fidaliia Damirovna, Саяхова Гульнара Фанисовна, Химический институт им. А.М. Бутлерова ФГАОУ ВО «Казанский (Приволжский) федеральный университет», Saiakhova Gulnara Fanisovna, Халикова Фидалия Дамировна, and Khalikova Fidaliia Damirovna

Abstract

статья посвящена вопросу успешности применения практико-ориентированного обучения в школьном химическом образовании. Актуальность темы заключается в том, современные школьники все чаще затрудняются применять теоретические знания в практической жизни.

Published
2017

50. Integrative genomic analysis of human ribosomal DNA

Author

Peter C. Scacheri, Pavel Manaenkov, Mark Raymond Adams, Gabriel E. Zentner, and Alina Saiakhova

Subjects
CCCTC-Binding Factor, Chromatin Immunoprecipitation, Transcription, Genetic, Gene Regulation, Chromatin and Epigenetics, Biology, DNA, Ribosomal, Genome, Histones, 03 medical and health sciences, 0302 clinical medicine, RNA Polymerase I, Genetics, RNA polymerase I, Humans, Nucleosome, Promoter Regions, Genetic, Ribosomal DNA, 030304 developmental biology, 0303 health sciences, Genome, Human, High-Throughput Nucleotide Sequencing, Genomics, Sequence Analysis, DNA, Ribosomal RNA, RRNA transcription, Chromatin, Nucleosomes, Repressor Proteins, HEK293 Cells, RNA, Ribosomal, CTCF, 030220 oncology & carcinogenesis, Human genome, K562 Cells, Pol1 Transcription Initiation Complex Proteins, Sequence Alignment
Abstract

The transcription of ribosomal RNA (rRNA) is critical to life. Despite its importance, ribosomal DNA (rDNA) is not included in current genome assemblies and, consequently, genomic analyses to date have excluded rDNA. Here, we show that short sequence reads can be aligned to a genome assembly containing a single rDNA repeat. Integrated analysis of ChIP-seq, DNase-seq, MNase-seq and RNA-seq data reveals several novel findings. First, the coding region of active rDNA is contained within nucleosome-depleted open chromatin that is highly transcriptionally active. Second, histone modifications are located not only at the rDNA promoter but also at novel sites within the intergenic spacer. Third, the distributions of active modifications are more similar within and between different cell types than repressive modifications. Fourth, UBF, a positive regulator of rRNA transcription, binds to sites throughout the genome. Lastly, the insulator binding protein CTCF associates with the spacer promoter of rDNA, suggesting that transcriptional insulation plays a role in regulating the transcription of rRNA. Taken together, these analyses confirm and expand the results of previous ChIP studies of rDNA and provide novel avenues for exploration of chromatin-mediated regulation of rDNA.

Published
2011

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