Orchestration Of Cardiac Gene Expression Mediated By Global Chromatin Architecture

Orchestration of Cardiac Gene Expression Mediated by Global Chromatin Architecture

Author : Elaheh Karbassi

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Page : 240 pages

File Size : 49,29 MB

Release : 2016

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The underlying mechanisms by which cell identity is achieved in a cell type-specific manner during development are unknown. In this project, we examine the mechanisms through which genomic architecture is regulated by different protein factors and how these proteins in turn regulate gene expression in the cardiomyocyte. We search for cardiac chromatin structural factors that are important for the establishment of genomic architecture during differentiation. We hypothesized that these candidates would also be implicated in pathological gene expression upon the onset of heart failure. Instead, we found that the expression changes of chromatin structural genes across a panel of different mouse strains were not universal, nor did they correlate with cardiac phenotype after pathological stress. Most of our current knowledge of signaling mechanisms in the heart has stemmed from genetic manipulations in a single mouse strain. Here, we examined well-characterized regulators of cardiac phenotype and showed that the relationships between gene expression and cardiac phenotype are lost when expanding across multiple genetic backgrounds. More importantly, these data demonstrate that there is no single signature gene that drives heart disease (nor is there a single gene whose expression is a biomarker of the condition), highlighting the role of genetic variability to differentially sculpt the transcriptome in the development and progression of complex diseases. In addition, our findings demonstrate that regulation of gene expression by genetics occurs in a tissue-dependent manner. We previously identified High Mobility Group B2 as an important chromatin structural protein in the heart and showed its involvement in pathological gene expression. These studies suggested this regulation occurs by remodeling global transcriptional activity. To characterize structural organization of cellular transcription, we show that transcriptional activity is compartmentalized into stable factories in the heart that undergo functional changes in vivo in response to disease stimuli. We provide evidence of direct reorganization of genomic structure by showing that nuclear positioning of cardiac genes with respect to chromatin environments and transcription factories correlates with changes in their expression. In summary, this project explores the mechanisms of cardiac gene regulation and illustrates multiple levels of regulation, with influences from genetics and chromatin architecture.



Control of Cardiac Gene Expression by Chomatin Architectural Proteins

Author : Emma Marie Monte

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Page : 155 pages

File Size : 33,47 MB

Release : 2015

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When faced with chronic stress, the heart enters a compensatory hypertrophic stage; without intervention it eventually succumbs to decompensation marked by a dilated left ventricular chamber and decreased ejection fraction. While the morphological cardiac remodeling that occurs during the progression of heart failure is well characterized, the exact molecular cause for this gradual switch to failure is not known. In addition to the numerous alterations in signaling pathways, a conserved switch in the transcriptome, known as the fetal gene program, occurs during hypertrophy as a protective effort to sustain contractility by reverting to fetal isoforms of metabolic, contractile and calcium handling genes. We hypothesize that the reproducible, coordinated reprogramming of gene expression is orchestrated by a change in chromatin structure that enables pathologic gene expression. To determine the proteins involved in repackaging chromatin during cardiac pathology, we performed quantitative proteomic analyses of nuclear proteins in a mouse model of pressure overload hypertrophy and failure. Among the hundreds of proteins we measured on chromatin, my subsequent analyses have focused on two candidates that had the potential to alter gene expression by directly affecting chromatin packing. The first was Nucleolin, a major component of the nucleolus where it mediates ribosomal biogenesis. Using isolated myocytes and the developing zebrafish embryo, we uncovered a role for Nucleolin to regulate cardiac looping, with its effect on hypertrophy context dependent, such that in isolated myoctyes knockdown can promote pathologic gene expression, but loss of Nucleolin during development does not alter myocyte size, instead affecting differentiation along the cardiac lineage. The second protein I functionally validated was High mobility group protein B2 (HMGB2), a non-histone chromatin structural protein that increases 3-fold in our proteomic analyses. We show that HMGB2 is necessary for ribosomal RNA transcription and is enriched in the nucleolus in hypertrophy; however, overexpression of HMGB2 shuts down transcription globally by compacting DNA. Furthermore, we find HMGB2 knockdown alters the chromatin environment of individual gene promoters in the same manner as hypertrophic agonist signaling in isolated myocytes. Finally, we find that the effect of HMGB2 abundance on the expression of individual genes can be partially explained by the chromatin context, and specifically identify a novel relationship between HMGB2 and CTCF. These studies add to the growing body of work characterizing chromatin remodeling in hypertrophy, and demonstrate that this remodeling extends outside of gene bodies and promoters. Finally, this work begins to uncover what features of chromatin are responsible for tailoring the effects of ubiquitous chromatin proteins toward a cell-type specific outcome.



Gene Activity Patterns Associated with Pathological Cardiac Hypertrophy are Mediated by Specific Chromatin Modifying Factors

Author : Lisa Hsiu Chuan Chang

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Page : 528 pages

File Size : 15,60 MB

Release : 2013

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Pathological cardiac hypertrophy is an initial compensatory response of the heart to a range of intrinsic stimuli including arterial hypertension, myocardial infarction and cardiomyopathy whereby prolonged stress often results in congestive heart failure and sudden death. This condition is commonly associated with the reactivation of the foetal gene program. Recent work has uncovered the importance of chromatin remodeling in the control of gene expression in heart disease. We used a transverse aortic constricted (TAC) mouse model to induce hypertrophy. The increased expression of Nppa, Nppb and embryonic Myh7 were inversely correlated with reduced expression of the adult Myh6 and Atp2a2 genes in TAC animals. We examined the regulatory complexes associated with hypertrophy and changes in the transcriptional response using strategies that allowed us to immunopurify soluble chromatin fractions. Chromatin immunopurifications were performed on the left ventricles of SHAM and TAC cardiac tissues. Quantification of the immunopurified chromatin indicated a unique pattern of binding on the promoters of Nppa, Nppb, Myh6 and Myh7 genes. Our findings suggested that the ATP-dependent chromatin remodeling complex, SWI/SNF, could act in a coordinated fashion with histone acetyltransferase (HAT) or histone deacetylase (HDAC) complexes to regulate the expression of these genes in the hypertrophic heart. SWI/SNF complex serves as a co-regulator in the development of pathological cardiac hypertrophy. We observed enrichment of SWI/SNF subunit BRM and p300 HAT during the reactivation of the foetal gene program on the promoters of upregulated Nppa, Nppb and Myh7 genes. We also observed the recruitment of the SWI/SNF subunit BRG1 and HDAC2 on the Myh6 gene which was consistent with its suppressed gene expression in the hypertrophic heart. The data presented indicate that components of SWI/SNF machinery are associated with diverse regulatory mechanism and the suppression and activation of gene expression. Suppression of HDACs is known to blunt pressure-overload cardiac hypertrophy. However, the molecular mechanism behind this blockade remains unclear. We used a broad-spectrum HDAC inhibitor, Trichostatin A (TSA) to investigate hypertrophy prevention in a mouse model of TAC. TSA treatment resulted in the downregulation of Nppa, Nppb and embryonic Myh7 which was intrinsically highly expressed in the hypertrophic heart. The observed changes in gene expression were found to be associated with concurrent release of BRM, H3K9/14 acetylation and recruitment of BRG1, HDAC2 on suppressed Nppa, Nppb and Myh6 gene promoters in the TSA treated TAC animals. This study described the reciprocoal association of SWI/SNF subunits, BRG1 and BRM, with histone modifications correlated with the regulation of cardiac gene transcription in pathological hypertrophy and their regulatory function in response to TSA exposure. To determine changes in the expression of genes mediated by pathological cardiac hypertrophy, we used a global approach using RNA-Seq. In recent years, high-throughput technologies have been developed and rapidly improved to interrogate several aspects of cellular processes. RNA-Seq was used to map global mRNA expression profile, providing a more sensitive approach than microarrays. It allowed the identification of rare transcripts and gene isoforms which the array approach was unable to detect. This was followed by further investigation using bioinformatics resources such as gene enrichment analysis, pathways, and regulatory network analysis. This enabled us to classify the differentially expressed genes and transcript isoforms into functional categories. A major challenge in deciphering the molecular mechanism associated with the development and prevention of cardiac hypertrophy is the identification of regulatory determinants that are thought to regulate gene expression. We have identified that SWI/SNF chromatin remodeling complex, more specifically, BRM was associated with HAT whereas BRG1 was associated with HDAC2 in correlation with gene expression. Further investigation of regulatory determinants mediated gene expression would need to be carried out to provide a useful framework for understanding and distinguishing the regulatory function of SWI/SNF in pathological cardiac hypertrophy. These studies could lead to more precise understanding of heart disease and potential new strategy to personalised therapies to prevent or reverse cardiac hypertrophy and in turn, cardiac failure.



Chromatin Architecture

Author : Maartje Carolien Brink.

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Page : 100 pages

File Size : 12,10 MB

Release : 2009

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Chromatin Architectural Dynamics in Cardiovascular Disease

Author : Douglas Chapski

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Page : 233 pages

File Size : 41,37 MB

Release : 2019

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The chromatin architectural rearrangements that permit disease gene expression are just beginning to come to light. Distinct levels of chromatin organization are needed to maintain a healthy transcriptome, from the histone octamer that forms nucleosomes (the functional unit of chromatin) to chromosome territories that demarcate large swaths of the nucleus. An integrative picture of how each level of chromatin contributes towards healthy and disease gene expression has eluded us until chromosome conformation capture followed by high-throughput sequencing paved the way for deeper study of how chromatin features, such as significant chromosomal interactions, topologically associating domains, A/B compartmentalization, and enhancer-gene interactions all contribute towards gene regulation at a global scale. Heart failure is a syndrome characterized, in part, by a dysregulated gene expression program. We hypothesized that chromatin structure becomes deranged during heart failure, and we found this to be the case at multiple levels of chromatin organization. In addition, we found that healthy cardiac myocyte chromatin structure permits its organ-specific gene regulation program. This dissertation 1) summarizes the cardiovascular epigenetics work in the field; 2) reports our findings from our chromosome conformation studies in hearts that underwent pressure overload and those that underwent knockout of the chromatin structural protein CTCF to understand how pathology influences chromatin structure; and 3) reports our investigation into the chromatin architectural organization of healthy cardiac myocytes when compared to healthy liver, in an effort to understand how normal epigenomes are organized in three dimensions. These studies open avenues for future mechanistic cardiovascular epigenomics studies, as well as for exploration of therapeutic treatment of chromatin to promote healthier gene expression programs.



Nuclear Dynamics

Author : K. Nagata

Publisher : Springer Science & Business Media

Page : 285 pages

File Size : 28,65 MB

Release : 2007-12-03

Category : Science

ISBN : 4431301305

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The dynamics of nuclear structures described in this book furnish the basis for a comprehensive understanding of how the higher-order organization and function of the nucleus is established and how it correlates with the expression of a variety of vital activities such as cell proliferation and differentiation. The resulting volume creates an invaluable source of reference for researchers in the field.



Epigenomics

Author : Krishnarao Appasani

Publisher : Cambridge University Press

Page : 549 pages

File Size : 26,42 MB

Release : 2012-08-02

Category : Science

ISBN : 1139536281

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Understanding mechanisms of gene regulation that are independent of the DNA sequence itself - epigenetics - has the potential to overthrow long-held views on central topics in biology, such as the biology of disease or the evolution of species. High throughput technologies reveal epigenetic mechanisms at a genome-wide level, giving rise to epigenomics as a new discipline with a distinct set of research questions and methods. Leading experts from academia, the biotechnology and pharmaceutical industries explain the role of epigenomics in a wide range of contexts, covering basic chromatin biology, imprinting at a genome-wide level, and epigenomics in disease biology and epidemiology. Details on assays and sequencing technology serve as an up-to-date overview of the available technological tool kit. A reliable guide for newcomers to the field as well as experienced scientists, this is a unique resource for anyone interested in applying the power of twenty-first-century genomics to epigenetic studies.



The Circadian Clock

Author : Urs Albrecht

Publisher : Springer Science & Business Media

Page : 306 pages

File Size : 49,22 MB

Release : 2010-01-23

Category : Science

ISBN : 1441912622

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Book Description

With the invitation to edit this volume, I wanted to take the opportunity to assemble reviews on different aspects of circadian clocks and rhythms. Although most c- tributions in this volume focus on mammalian circadian clocks, the historical int- duction and comparative clocks section illustrate the importance of various other organisms in deciphering the mechanisms and principles of circadian biology. Circadian rhythms have been studied for centuries, but only recently, a mole- lar understanding of this process has emerged. This has taken research on circadian clocks from mystic phenomenology to a mechanistic level; chains of molecular events can describe phenomena with remarkable accuracy. Nevertheless, current models of the functioning of circadian clocks are still rudimentary. This is not due to the faultiness of discovered mechanisms, but due to the lack of undiscovered processes involved in contributing to circadian rhythmicity. We know for example, that the general circadian mechanism is not regulated equally in all tissues of m- mals. Hence, a lot still needs to be discovered to get a full understanding of cir- dian rhythms at the systems level. In this respect, technology has advanced at high speed in the last years and provided us with data illustrating the sheer complexity of regulation of physiological processes in organisms. To handle this information, computer aided integration of the results is of utmost importance in order to d- cover novel concepts that ultimately need to be tested experimentally.



Index Medicus

Author :

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Page : 2520 pages

File Size : 42,57 MB

Release : 2004

Category : Medicine

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Vols. for 1963- include as pt. 2 of the Jan. issue: Medical subject headings.



Research Grants

Author : National Institutes of Health (U.S.). Division of Research Grants

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Page : 594 pages

File Size : 41,99 MB

Release : 1989

Category : Medicine

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