INVESTIGATING THE MECHANISM OF PROMOTER-SPECIFIC N-TERMINAL MUTANT HUNTINGTIN-MEDIATED TRANSCRIPTIONAL DYSREGULATION

Hogel, Matthew

30 August 2011

Huntington’s disease (HD) is a neurodegenerative disorder caused by the inheritance of one mutant copy of the huntingtin gene. Mutant huntingtin protein (mHtt) contains an expanded polyglutamine repeat region near the N-terminus. Cleavage of mHtt releases an N-terminal fragment (N-mHtt) which translocates, and accumulates in the nucleus. Nuclear accumulation of N-mHtt has been directly associated with cellular toxicity. Decreased transcription is among the earliest detected changes that occur in the brains of HD patients and is consistently observed in all animal and cellular models of HD. Transcriptional dysregulation may trigger many of the perturbations that occur later in disease progression and an understanding of the effects of mHtt may lead to strategies to slow the progression of the disease. Current models of N-mHtt-mediated transcriptional dysregulation suggest that abnormal interactions between N-mHtt and transcription factors impair the ability of these transcription factors to associate at N-mHtt-affected promoters and properly regulate gene expression. We tested various aspects of these models using two N-mHtt-affected promoters in in vitro transcription assays and in two cell models of HD using techniques including overexpression of known N-mHtt-interacting transcription factors, chromatin immunoprecipitation, promoter deletion and mutation analyses and in vitro promoter binding assays. Based on our results and those in the literature, we proposed a new model of N-mHtt-mediated transcriptional dysregulation centered on the presence of N-mHtt at affected promoters. We concluded that simultaneous interaction of N-mHtt with multiple binding partners within the transcriptional machinery would explain the gene-specificity of N-mHtt-mediated transcriptional dysregulation, as well as the observation that some genes are affected early in disease progression while others are affected later. Our model explains why alleviating N-mHtt-mediated transcriptional dysregulation through overexpression of N-mHtt-interacting proteins has proven to be difficult and suggests that the most realistic strategy for restoring gene expression across the spectrum of N-mHtt affected genes is by reducing the amount of soluble nuclear N-mHtt.

Huntington's

Transcription

Repression

Huntingtin

Polyglutamine

Transcriptional Dysregulation

in vitro transcription

N548

ST14A

Dual-luciferase assay

Chromatin Immunoprecipitation

Promoter Deletion

Linker Scanning Mutagenesis

Quantitative PCR

Promoter binding assay

TBP

RAP30

High-throughput protein analysis using mass spectrometry-based methods

Boström, Tove

January 2014

In the field of proteomics, proteins are analyzed and quantified in high numbers. Protein analysis is of great importance and can for example generate information regarding protein function and involvement in disease. Different strategies for protein analysis and quan- tification have emerged, suitable for different applications. The focus of this thesis lies on protein identification and quantification using different setups and method development has a central role in all included papers. The presented research can be divided into three parts. Part one describes the develop- ment of two different screening methods for His6-tagged recombinant protein fragments. In the first investigation, proteins were purified using immobilized metal ion affinity chro- matography in a 96-well plate format and in the second investigation this was downscaled to nanoliter-scale using the miniaturized sample preparation platform, integrated selective enrichment target (ISET). The aim of these investigations was to develop methods that could work as an initial screening step in high-throughput protein production projects, such as the Human Protein Atlas (HPA) project, for more efficient protein production and purification. In the second part of the thesis, focus lies on quantitative proteomics. Protein fragments were produced with incorporated heavy isotope-labeled amino acids and used as internal standards in absolute protein quantification mass spectrometry experiments. The aim of this investigation was to compare the protein levels obtained using quanti- tative mass spectrometry to mRNA levels obtained by RNA sequencing. Expression of 32 different proteins was studied in six different cell lines and a clear correlation between protein and mRNA levels was observed when analyzing genes on an individual level. The third part of the thesis involves the antibodies generated within the HPA project. In the first investigation a method for validation of antibodies using protein immunoenrichment coupled to mass spectrometry was described. In a second study, a method was developed where antibodies were used to capture tryptic peptides from a digested cell lysate with spiked in heavy isotope-labeled protein fragments, enabling quantification of 20 proteins in a multiplex format. Taken together, the presented research has expanded the pro- teomics toolbox in terms of available methods for protein analysis and quantification in a high-throughput format. / <p>QC 20141022</p>

Proteomics

mass spectrometry

affinity proteomics

immunoenrichment

immunoprecipitation

IMAC

screening

protein production

protein purification

ISET

quantification

SILAC

stable isotope standard

antibody validation

Bcl-2 related ovarian killer, Bok, is cell cycle regulated and sensitizes to stress-induced apoptosis

Rodríguez, José M.

January 2007

Dissertation (Ph.D.)--University of South Florida, 2007. / Title from PDF of title page. Document formatted into pages; contains 82 pages. Includes vita. Includes bibliographical references.

Influence de Toxoplasma Gondii dans la régulation d'UHRF1 via la voie NF-KB / Influence of Toxoplasma gondii in the regulation of UHRF1 by NF-KB signaling pathway

Kanjo, Ghaidaa

30 September 2014

T. gondii interfère avec l'activation des voies de signalisation de NF-kB des cellules hôtes. Ainsi, lors de l’infection par T. gondii, 85% des gènes dépendant de NF-kB sont up-régulés. Un autre facteur de transcription dont l’expression est modulée par le parasite est UHRF1 (Ubiquitin-like,containing PHD and RING finger domains, 1). UHRF1, en se fixant sur le promoteur du gène de la cycline b, induit une répression épigénétique de ce dernier conduisant à un arrêt du cycle cellulaire des cellules infectées en phase G2 et à un arrêt de la prolifération parasitaire. L’analyse in silico du promoteur du gène uhrf1 a montré qu’il possédait 9 sites de fixation de NF-kB. Effectivement nous avons démontré que NF-kB interagit avec le promoteur du gène uhrf1 lors d’une infection par T. gondii. L’expression d’UHRF1 serait donc modulée par NF-kB dans les cellules infectées par T. gondii. Or NF-kB a une régulation différentielle en fonction de la nature de la souche infectante. Là encore, nous avons pu observer une régulation différentielle d’UHRF1 selon la nature de la souche infectante, pouvant être dues à la régulation souche dépendante de NF-kB. La détermination du rôle précis de l’activation d’UHRF1 dans les cellules infectées et l’identification du ou des facteurs parasitaires responsables pourraient permettre de mieux comprendre les mécanismes de persistance intracellulaire du parasite et de découvrir de nouveaux points d’impact thérapeutiques. / T.gondii interferes with the activation of NF-kB signaling pathways. Thus, upon infection by T.gondii, 85% of genes NF-kB-dependent are up-regulated. Another transcription factor whose expression is modulated by the parasite is UHRF1 (Ubiquitin-like, Containing PHD and RINGfinger domains, 1). UHRF1, bind to the gene promoter of cyclin b and induces epigenetic repression of this gene leading to cell cycle arrest in G2 phase of infected cells and stop the proliferation in both infected cells and parasite. In silico analysis of the uhrf1 gene promoter has been shown to possess 9 binding sites of NF-kB. Our study showed that NF-kB actually interacts with the promoter of gene uhrf1 during infection with T. gondii. This suggests that the expression of UHRF1 is modulated by NF-kB in T. gondii-infected cells. In addition we observed differential regulation of UHRF1 depending on the nature of the infecting strain. These variations may also be due to already well-known differential regulation of NF-kB by different strains of T.gondii. Determining the precise role of UHRF1 activation in infected cells and the identification of the parasitic factor responsible of this activation would allow to a better understanding of the mechanisms of intracellular persistence of the parasite and allow to unravel new therapeutic trails.

Toxoplasma gondii

Cycle cellulaire

UHRF1

Cycline B

NF-kB

Virulence

Immunoprécipitation de la chromatine

Toxoplasma gondii

Cell cycle

UHRF1

Cyclin B

NF-kB

Virulence

Chromatine immunoprecipitation

572.8

579.4

Wnt-11 signalling, its role in cardiogenesis and identification of Wnt/β-catenin pathway target genes

Railo, A. (Antti)

30 March 2010

Abstract Wnt genes encode secreted signalling molecules that control embryonic development including organogenesis, while dysregulated Wnt signalling is connected to many diseases such as cancer. Specifically, Wnts control a number of cellular processes such as proliferation, adhesion, differentiation and aging. Many Wnt proteins activate the canonical β-catenin signalling pathway that regulates transcription of a still poorly characterized set of target genes. Wnts also transduce their signaling in cells via β-catenin-independent “non-canonical” pathways, which are not well understood. In this study, Wnt-11 signalling mechanisms in a mammalian model cell line and roles of Wnt-11 in heart development were analyzed in detail. In addition the aim was to identify new Wnt target genes by direct chromatin immunoprecipitation and Affymetrix GeneChip assays in the model cells exposed to Wnt-3a. Our studies reveal that Wnt-11 signalling coordinates the activity of key cell signalling pathways, namely the canonical Wnt/β-catenin, the JNK/AP-1, the NF-κB and PI3K/Akt pathways in the CHO cells. Analysis of the Wnt-11-deficient embryos revealed a crucial role in heart organogenesis. Wnt-11 signalling coordinates cell interactions during assembly of the myocardial wall and Wnt-11 localizes the expression of N-cadherin and β-catenin to specific cellular domains in the embryonic ventricular cardiomyocytes. Collectively these studies reveal that the mammalian Wnt-11 behaves as a non-canonical Wnt and that it is a critical factor in the coordination of heart development. Specifically, it controls components of the cell adhesion machinery. Analysis of the Wnt target genes revealed a highly context-dependent profile in the Wnt-regulated genes. Several new putative target genes were discovered. Out of the candidate Wnt target genes, Disabled-2 was identified as a potential new direct target for Wnt signalling.

AP-1

JNK

N-cadherin

NF-κB

TCF

Wnt signalling

Wnt-11

cardiogenesis

cell adhesion

cell viability

chromatin immunoprecipitation

target gene

β-catenin

RAD21 Cooperates with Pluripotency Transcription Factors in the Maintenance of Embryonic Stem Cell Identity

Buchholz, Frank, Nitzsche, Anja, Paszkowski-Rogacz, Maciej, Matarese, Filomena, Janssen-Megens, Eva M., Hubner, Nina C., Schulz, Herbert, de Vries, Ingrid, Ding, Li, Huebner, Norbert, Mann, Matthias, Stunnenberg, Hendrik G.

18 January 2016

For self-renewal, embryonic stem cells (ESCs) require the expression of specific transcription factors accompanied by a particular chromosome organization to maintain a balance between pluripotency and the capacity for rapid differentiation. However, how transcriptional regulation is linked to chromosome organization in ESCs is not well understood. Here we show that the cohesin component RAD21 exhibits a functional role in maintaining ESC identity through association with the pluripotency transcriptional network. ChIP-seq analyses of RAD21 reveal an ESC specific cohesin binding pattern that is characterized by CTCF independent co-localization of cohesin with pluripotency related transcription factors Oct4, Nanog, Sox2, Esrrb and Klf4. Upon ESC differentiation, most of these binding sites disappear and instead new CTCF independent RAD21 binding sites emerge, which are enriched for binding sites of transcription factors implicated in early differentiation. Furthermore, knock-down of RAD21 causes expression changes that are similar to expression changes after Nanog depletion, demonstrating the functional relevance of the RAD21 - pluripotency transcriptional network association. Finally, we show that Nanog physically interacts with the cohesin or cohesin interacting proteins STAG1 and WAPL further substantiating this association. Based on these findings we propose that a dynamic placement of cohesin by pluripotency transcription factors contributes to a chromosome organization supporting the ESC expression program.

info:eu-repo/classification/ddc/570

ddc:570

Elucidation of subcellular regulation of voltage-dependent calcium channel functions via β subunit interacting molecules / 電位依存性Ca2+チャネルβサブユニット相互作用タンパク質による、細胞内局所的なCa2＋チャネル機能調節機構の解明に関する研究

Mitsuru, Hirano

24 July 2017

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第20633号 / 工博第4371号 / 新制||工||1679(附属図書館) / 京都大学大学院工学研究科合成・生物化学専攻 / (主査)教授 森 泰生, 教授 浜地 格, 教授 跡見 晴幸 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

voltage dependent Ca2+ channel

Rab3-interacting molecule

neurotransmitter release

voltage dependent inactivation

total internal reflection fluorescence

nuclear fraction

co-immunoprecipitation

500

Jaderné receptory v regulaci genové exprese, vývoje a metabolismu Caenorhabditis elegans. / Nuclear receptors in regulation of gene expression, development and metabolism in Celegans elegans.

Yilma, Petr

January 2019

5 Abstract Genetic mechanisms of regulation of gene expression form the basis for proper development, function of organisms and their responses to variable life conditions. However, they are relatively slow. Life processes that require a fast response to the changing environmental and metabolic conditions are mostly executed on the level of proteins especially their posttranslational modifications and protein- protein interactions.The goal of the experimental work that led to the presented thesis consisted in exploitation of the model organism Caenorhabditis elegans for analysis of regulation of gene expression by transcription factors from the protein family of nuclear receptors. The model system C. elegans enables very efficient experimental procedures in the field of genetics, genomics and functional analysis of phenotypes. In the experimental work connected with this thesis, I studied the regulation of gene expression under specific experimental conditions from the perspective of advanced functional proteomics and I focused on the employment of separation methods and methods of advanced proteomics, especially by mass spectrometry.In the first part of the work, I characterized the nuclear receptor NHR-60 on the protein level. This nuclear receptor is expressed as two protein forms with a mass of 50 kDa...

Microfluidics for low input epigenomic analysis and application to oncology and brain neuroscience

Liu, Zhengzhi

07 September 2023

Microfluidics is a versatile tool with many applications in biology. Its ability to manipulate small volumes of liquid precisely has led to the development of many microfluidic assay platforms. They could handle small amounts of samples and carry out analysis with high sensitivity and throughput. Microfluidic assays have provided new insights into scarce biological samples at higher resolution. In this thesis, we developed microfluidic tools to conduct low input ChIP-seq and ChIRP-seq. We applied them to a variety of samples profiling different targets. The native MOWChIP-seq platform was developed to map RNA polymerase II, transcription factors and histone deacetylase binding in 1,000-50,000 cells. We examined mouse prefrontal cortex and cerebellum using this technology. We found extensive differences that correlated with distinct neurological functions of the brain regions. The same platform and workflow were used to profile five key histone modifications in human lung tumor and normal tissue samples. Integrative analysis with gene expression data revealed extensive chromatin remodeling in lung tumor. Spatial histone modification mapping was conducted in mouse neocortex in a similar fashion. We generated an epigenomic tomography that demonstrated the molecular state of the brain in 3D. Lastly, we developed a microfluidic version of the ChIRP-seq process which successfully conducted the assay using only 500K cells. This improvement makes ChIRP-seq in tissue samples feasible. / Doctor of Philosophy / Microfluidics is a type of technology that can control small volumes of liquid in a miniature system. It can carry out reactions on very small scales with higher precision and sensitivity than conventional methods. Microfluidics has found many uses in the field of biology, especially dealing with samples available in limited quantities. These low input microfluidic platforms have helped researchers gain new knowledge on many complex questions. In this thesis, we developed microfluidic tools to carry out low input ChIP-seq and ChIRP-seq. These are two established techniques used to map where certain targets are located on the genome of an organism. These targets include specific chemical modifications to the wrapper protein of DNA (histone modification), proteins that take part in transcription and expression of genes (RNA polymerase II, transcription factors) and other molecules. Our nMOWChIP-seq system removed the need for fixation by chemicals. It was able to examine RNA polymerase II, transcription factors and other enzymes using 1,000-50,000 cells. Traditional ChIP-seq requires more than 10 million cells and time-consuming chemical treatment steps. Our technology greatly improved sensitivity and ease of use. We also used this platform to test five important histone modifications in human lung tumors and healthy tissues. We constructed a spatial map of histone modification in mouse brain by analyzing slices of the cortex. Finally, we developed a microfluidic version of ChIRP-seq process to map locations of long non-coding RNAs in cultured human cells. The cells needed for a successful test were reduced to 500K from 20 million of the original workflow.

microfluidics

epigenome

chromatin immunoprecipitation

next generation sequencing

histone modification

RNA polymerase II

transcription factor

chromatin isolation by RNA purification

epigenomic tomography

non-small cell lung cancer

A New Role for Vitamin D Binding Protein in Bipolar Disorder

Petrov, Brawnie Rebecca

03 August 2017

No description available.

Nutrition

vitamin D binding protein

bipolar disorder

major depressive disorder

inflammation

DBP-MAF

macrophage activating factor

inflammation

western blot

glycosylation

actin

immunoprecipitation

bait