Global ETD Search

81	Dérégulation du complexe BAF dans les sarcomes épithélioïdes et leur variants génétiques / BAF complex deregulation in epithelioid sarcomas and their genetic variants Le Loarer, François 15 September 2015 (has links) Les sarcomes épithélioides sont caractérisés dans 85% des cas par une perte d'expression nucléaire de la protéine SMARCB1, codée par un gène suppresseur de tumeurs situés en 22q11 impliqué dans la génèse des tumeurs rhabdoides malignes. L'exploration par BAC-FISH (Bacterial Artificial Chromosome- Fluorescence In Situ Hybridization) d'une série de 40 sarcomes épithélioides a permis d'établir que cette perte d'expression était secondaire dans 85% des cas à des délétions homozygotes et a mis en évidence le premier cas de sarcome épithélioide associé à une délétion germinale de SMARCB1, altération jusqu'alors uniquement identifiée dans les tumeurs rhabdoides malignes. Nous avons par la suite testé le gène suppresseur de tumeurs SMARCA4 comme gène candidat impliqué dans les sarcomes épithélioides SMARCB1-conservés à partir d'une série rétrospective de 16 cas. SMARCA4 code la sous-unité ATPase du complexe BAF dont SMARCB1 représente une sous unité. Ce screening initial a permis d'identifier 6 cas de sarcomes SMARCA4-inactivés dont la localisation était exclusivement thoracique et dont les caractéristiques clinique et anatomopathologique stéréotypées ont permis le recrutement prospectif et rétrospectif de nouveaux cas. L'étude par RNA-sequencing d'une fraction de notre cohorte (n=13/19) a confirmé leur homogénéité transcriptomique et souligné leur parenté avec les tumeurs rhabdoides SMARCB1 et SMARCA4 déficientes. L'absence de mutation germinale fréquente (n=1/11) a fait proposer le terme de sarcome thoracique SMARCA4-déficient (SMARCA4-DTS) en proscrivant l'utilisation du qualificatif « rhabdoide ». La parenté transcriptomique de ces tumeurs laisse entrevoir des vulnérabilités thérapeutiques communes qui restent à identifier / Epithelioid sarcomas (ES) display loss of SMARCB1 nuclear expression in 85% of cases. SMARCB1 is encoded by a tumor suppressor gene located in 22q11 which was first linked to cancer in malignant rhabdoid tumors. While investigating a series of 40 epithelioid sarcomas with BAC-FISH (Bacterial Artificial Chromosome-Fluorescence In Situ Hybridization), we demonstrated that SMARCB1 loss in ES occurred through genomic deletions in 85% of cases. We were also able to highlight the first case of ES associated with a heterozygous SMARCB1 deletion in the germ line, which feature was previously thought to be restricted to malignant rhadboid tumors (MRT). We subsequently investigated a series of 16 SMARCB1-retained ES to identify its underlying culprit gene with a focus on the candidate tumor suppressor gene SMARCA4. SMARCA4 encodes one of the ATPase subunit of BAF complexes. Interestingly, SMARCB1 is also a core submit of these complexes which regulate chromatin remodeling. We were able to identify a set of 6 cases displaying SMARCA4 inactivation with this discovery cohort. The review of medical records highlighted these cases had similar presentation : all tumors presented with large compressive and aggressive mediastinopulmonary masses. We further recruited 13 cases based on these characteristics including 5 prospective cases. The characterization of their transcriptomes by RNA-sequencing (n=13/19) confirmed their remarkable homogeneity, all our samples clustering together with MRT. However our variant diverge from malignant rhabdoid tumors as it lacks SMARCA4 alteration in the germline (n=0/11) and displays complex polyploidy genetic profiles. We therefore called this new tumor variant “SMARCA4-deficient thoracic sarcoma” (SMARCA4-DTS). The transcriptomic vicinity of SMARCA4-DTS and MRT let foresee they share common therapeutic vulnerabilities Sarcome épithélioide Tumeur rhabdoide Complexe BAF (SWI/SNF) SMARCB1/INI1 SMARCA4/BRG1 SMARCA2/BRM RNA-sequencing Epithelioid sarcoma Malignant rhabdoid tumor BAF complex (SWI/SNF complex) SMARCB1/INI1 SMARCA4/BRG1 SMARCA2/BRM RNA-sequencing 576
82	TRANSCRIPTIOME ANALYSIS AND EPIGENETIC REGULATION OF OCULAR LENS DEVELOPMENT Hoang, Thanh V. 11 November 2016 (has links) No description available. Biology Biomedical Research Genetics Zoology Lens epithelial cells fiber cells RNA sequencing small RNA sequencing differential expression DNMT1 DNMT3A DNMT3B miRNA Crispr, Cas9 miR-1 miR-184 miR-26a miR-26b knockout lens development fiber cell differentiation cataract
83	Modulation of thyroid hormone action by environmental temperature Hammond, Stewart Austin 23 December 2015 (has links) Thyroid hormone (TH) signaling is conserved across vertebrates, where it is important for normal growth and development, particularly in the perinatal period. TH has an additional critical role in amphibian metamorphosis as the sole signal that initiates the transition from a larval tadpole to juvenile frog. Premetamorphic tadpoles have a thyroid gland but are functionally athyroid, yet can be induced to undergo precocious metamorphosis by exogenous TH administration. This essential dependence upon TH makes amphibian metamorphosis an excellent model to study TH signaling. Metamorphosis is sensitive to environmental stimuli such as temperature. Low temperature delays or slows metamorphosis, whereas high temperature advances or accelerates it. Whether a temperature is considered low or high varies by species and is related to its natural habitat. In temperate climes the North American bullfrog, Rana catesbeiana, does not undergo natural or precocious metamorphosis at low winter temperatures of 4-5°C. Tadpoles injected with TH at low temperature essentially clear it from their bodies after 60-80 days, but some manner of TH signaling has occurred such that they rapidly execute metamorphosis if returned to 20-25°C. This apparent molecular memory is poorly understood, but there is evidence that components of gene expression programs may be involved. This thesis investigated the role of these factors in the molecular memory of TH formed at low temperature in the liver, brain, lung, back skin, and tail fin of Rana catesbeiana. The results suggested that TH receptor beta (thrb), CCAAT/enhancer binding protein 1 (cebp1), and Krüppel-like factor 9 (klf9) may contribute to the molecular memory to different extents in each tissue, and that TH-induced basic leucine zipper-containing protein (thibz) may have an important role in this process for every tissue examined. Assessment of additional genes was hampered by the limited genetic resources available for this species, so de novo high throughput RNA sequencing (RNA-seq) techniques were explored to alleviate this limitation. Trans-ABySS sequence assembly software produced a high quality Rana catesbeiana liver transcriptome that was annotated by BLAST alignment to established sequence databases and resulted in a more than ten-fold increase in Rana catesbeiana sequence information. This approach was supplemented with a software pipeline that was used to refine replicate Rana catesbeiana back skin assemblies, and by construction of a Bullfrog Annotation Resource for the Transcriptome (BART) that was used to quickly annotate more than 97% of the assembled back skin sequences. In the future, the Rana catesbeiana transcriptome sequence resources can be leveraged to identify additional genes that may be involved in formation of the TH molecular memory, and chromatin immunoprecipitation could help characterize the factors and epigenetic marks in the promoter regions of these genes. Elucidation of the molecular memory mechanism provides a means to uncover key events in TH signaling. / Graduate Thyroid hormone Rana catesbeiana Environmental temperature High-throughput RNA sequencing De novo sequence assembly Quantitative polymerase chain reaction
84	Investigating the molecular etiologies of sporadic ALS (sALS) using RNA-Sequencing Brohawn, David G 01 January 2016 (has links) ALS is an often lethal disease involving degeneration of motor neurons in the brain and spinal cord. Current treatments only extend life by several months, and novel therapies are needed. We combined RNA-Sequencing, systems biology analyses, and molecular biology assays to elucidate sporadic ALS group-specific differences in postmortem cervical spinal sections (7 sALS and 8 control samples) that may be relevant to disease pathology. >55 million 2X150 RNA-sequencing reads per sample were generated and processed. In Chapter 2, we used bioinformatics tools to identify nuclear differentially expressed genes (DEGs) between our two groups. Further, we used Weighted Gene Co-Expression Network Analysis to identify gene co-expression networks associated with disease status. Qiagen’s Ingenuity Pathway Analysis revealed our sALS group-specific DEGs and a sALS group-specific gene co-expression network were associated with inflammatory processes and TNF-α signaling. Further, TNFAIP2 was identified as a sALS group-specific upregulated DEG and a network hub gene within that network. We hypothesized TNFAIP2’s upregulation in our ALS samples reflected increased TNF-α signaling and that TNFAIP2 promoted motor neuron death via TNF superfamily apoptotic pathways. Transient overexpression of TNFAIP2 decreased cell viability in both neural stem cells and induced pluripotent stem cell-derived motor neurons. Further, inhibition of activated caspase 9 (a protein necessary for TNF superfamily mitochondrial-mediated apoptosis) reversed this effect in neural stem cells. In Chapters 3 and 4, we used bioinformatics tools to identify sALS group-specifc mitochondrial DEGs and differentially used exons (DUEs). Qiagen’s Ingenuity Pathway Analysis revealed our sALS group-specific DUEs were associated with cholesterol biosynthesis. RNA-Sequencing Sporadic ALS WGCNA Systems Biology TNFAIP2 TNF Genetic Processes Genetics Genomics Medical Genetics Molecular Genetics
85	Genetic analysis of interveinal chlorosis and reduced seedling vigor as related to agronomic performance in sorghum resistant to ALS inhibitor herbicides Weerasooriya, Dilooshi Kumari January 1900 (has links) Doctor of Philosophy / Department of Agronomy / Tesfaye T. Tesso / The lack of effective post-emergence weed control options is often highlighted as one of the major factors behind dwindling acreage under sorghum (Sorghum bicolor (L.) Moench) in the United States. The discovery of herbicide resistance sources in wild sorghum population and subsequent efforts to incorporate them into cultivated sorghum was received with much optimism to change weed management practices in sorghum. As the development of the technology advances, especially of the Acetolactate synthase (ALS) resistance, concerns over the temporary interveinal chlorosis and reduced seedling vigor in some of the resistant families became heightened. This thesis research is designed to shed light on the genetic basis of seedling chlorosis and assess its impacts on yield potential. The study has three parts; the first part is focused on identifying the genetic causes and plant mechanisms associated with the chlorotic phenotype. ALS herbicide resistant sister-lines expressing normal and chlorotic phenotypes were analyzed via RNA sequencing at four time points during seedling growth. The study identified several variants of genes coding chloroplast precursors and those that cause epigenetic modifications. Once confirmed, genetic markers can be developed to track these gene variants in the breeding population and eliminate segregates genetically prone to chlorosis/yellowing. The second part of the study focuses on assessing the effect of ALS resistance associated chlorosis on agronomic and nutritional parameters of sorghum inbred lines. A set of ALS resistant lines expressing different levels of the chlorotic phenotype were evaluated in replicated field trials and laboratory methods. Results showed that interveinal chlorosis delays flowering but does not have negative effect on yield and nutritional parameters with and without herbicide treatment. The last part addresses whether there is any yield drag that may be associated with herbicide resistance traits and foliar interveinal chlorosis. For this, we synthesized a large set (182) of hybrids from ALS resistant, ACCase resistant and regular (susceptible) seed and pollinator parents. The hybrids were then evaluated in three sets at multiple locations during the 2014 and 2015 crop seasons along with commercial checks. The results revealed that resistance to both herbicides do not cause any drag to grain yield. The traits also do not have any negative impact on grain and nutritional quality of resistant hybrids. Sorghum bicolor Interveinal chlorosis RNA sequencing Yield drag
86	IRF5 directs colonic inflammation and control of mononuclear phagocyte adaptation to the tissue environment Corbin, Alastair Lawrence January 2017 (has links) Macrophages are leukocytes of the innate immune system that display great phenotypic plasticity to mediate diverse functions. The ontogeny of tissue resident macrophages has been debated in recent decades. It is now recognised that tissue macrophages can be replenished from embryonically-derived precursors, and/or monocyte intermediates in a tissue specific manner. Interferon Regulatory Factor 5 (IRF5) is a transcription factor that promotes a pro-inflammatory phenotype in macrophages in vitro and in vivo. Indeed, IRF5 contributes to the pathogenesis of experimental inflammatory arthritis, lupus, and obesity via recruitment and activation of effector cells. Research described here as part of this thesis, involves the profiling of the intestinal Mononuclear Phagocyte system to investigate the role of IRF5 in the development of monocyte-derived macrophages in the Colonic Lamina Propria (cLP) which are exclusively replenished by adult Ly6C<sup>hi</sup> monocytes. Using Mixed Bone Marrow Chimaeras (MBMCs) we showed that in shared environment Wild-Type (WT) cLP macrophages dominated IRF5-deficient (Irf5<sup>-/-</sup>) cLP macrophages in both steady state and inflammation. The development of in vitro bone marrow derived macrophages, and the reconstitution of the haematopoietic compartment in bone marrow of MBMCs were not significantly affected by IRF5 deficiency. IRF5 promoted the accumulation of WT monocytes in the cLP of MBMCs in a process possibly dependent on the CCL2/CCR2 axis. Furthermore, IRF5 expression committed Ly6C<sup>hi</sup> monocytes to a pro-inflammatory macrophage fate in the inflamed cLP, characterised by protein expression of the cytokines IL1β, and TNFα, and the expression of Ccl4 and Ccl8 transcripts, whilst loss of IRF5 favoured accumulation of CD11b<sup>+</sup> IRF4-dependent Dendritic Cells. Of significance, IRF5 expression might have prevented further differentiation of inflammatory macrophages into tissue-resident macrophages, thus supporting an inflammatory state. Irf5-/- mice were protected from Helicobacter hepaticus + αIL10R colitis. Intriguingly, protection from colitis may also be conferred by the presence of Irf5-/- haematopoietic cells, evidenced by WT:Irf5-/- MBMCs . Modulation of IRF5 activity may therefore be a viable therapeutic strategy. RNA sequencing identified that C1q, Cd81, and Ccl8 were upregulated in WT macrophages from MBMC, which may prove therapeutic targets. 610
87	The pathological and genomic impact of CTCF depletion in mammalian model systems Aitken, Sarah Jane January 2018 (has links) CCCTC-binding factor (CTCF) binds DNA, thereby helping to partition the mammalian genome into discrete structural and regulatory domains. In doing so, it insulates chromatin and fine-tunes gene activation, repression, and silencing. Complete removal of CTCF from mammalian cells causes catastrophic genomic dysregulation, most likely due to widespread collapse of 3D chromatin looping within the nucleus. In contrast, Ctcf hemizygous mice with lifelong reduction in CTCF expression are viable but have an increased incidence of spontaneous multi-lineage malignancies. In addition, CTCF is mutated in many human cancers and is thus implicated as a tumour suppressor gene. This study aimed to interrogate the genome-wide consequences of a reduced genomic concentration of Ctcf and its implications for carcinogenesis. In a genetically engineered mouse model, Ctcf hemizygous cells showed modest but robust changes in almost a thousand sites of genomic CTCF occupancy; these were enriched for lower affinity binding events with weaker evolutionary conservation across the mouse lineage. Furthermore, several hundred genes concentrated in cancer-related pathways were dysregulated due to changes in transcriptional regulation. Global chromatin structure was preserved but some loop interactions were destabilised, often around differentially expressed genes and their enhancers. Importantly, these transcriptional alterations were also seen in human cancers. These findings were then examined in a hepatocyte-specific mouse model of Ctcf hemizygosity with diethylnitrosamine-induced liver tumours. Ctcf hemizygous mice had a subtle liver-specific phenotype, although the overall tumour burden in Ctcf hemizygous and wild-type mice was the same. Using whole genome sequencing, the highly reproducible mutational signature caused by DEN exposure was characterised, revealing that Braf(V637E), orthologous to BRAF(V600E) in humans, was the predominant oncogenic driver in these liver tumours. Taken together, while Ctcf loss is partially physiologically compensated, chronic CTCF depletion dysregulates gene expression by subtly altering transcriptional regulation. This study also represents the first comprehensive genome-wide and histopathological characterisation of this commonly used liver cancer model.
88	EFFECTS OF A SYSTEMIC HIGH UREA CONCENTRATION ON THE ENDOMETRIAL AND EMBRYONIC TRANSCRIPTOMES OF THE MARE Linhares Boakari, Yatta 01 January 2019 (has links) Pregnancy loss remains a major source of economic cost to the equine industry. Frequently, the exact causes of pregnancy loss remain unknown. It has been shown, in other species, that increased dietary protein leading to elevated blood urea nitrogen concentrations (BUN) can be a factor in decreased survival of the early embryo. Our studies provided novel information regarding the effects of elevated BUN on endometrium and embryos from mares as well as insights on changes in their gene expression. Our first objective was to develop an experimental model to elevate BUN during diestrus using intravenous urea infusion. We analyzed the effects of an acute elevation in BUN on uterine and vaginal pH along with changes in the endometrial transcriptome of mares with RNA sequencing. There was a significant increase in BUN and a decrease in uterine pH in the urea group compared to the control group. A total of 193 genes were differentially expressed (DEG) between the urea and control groups. The DEG were predicted to be related to cell pH, ion homeostasis, changes in epithelial tissue, fatty acid metabolism, and solute carriers. Our second objective was to evaluate the effects of elevated BUN in the endometrium of mares using a chronic oral urea administration to elevate BUN in mares. Uterine and vaginal pH were evaluated and RNA sequencing of the endometrium was again performed. There was an increase in BUN in the urea-fed mares, but no significant change in uterine or vaginal pH between the groups. A total of 60 DEG were characterized, with prediction of transcriptomic changes in the endometrium of mares related to cell death (necrosis) and cellular movement (invasion of cells). Our third objective was to determine the effects of a high BUN on the transcriptome of day-14 embryos. There was a positive correlation between plasma BUN and blastocoele fluid urea nitrogen concentration. Changes in embryo transcriptome were related to survival of organism, angiogenesis, adhesion, and quantity of cells. Our final objective was to evaluate the correlation between BUN and follicular fluid urea nitrogen and evaluate the survival of embryos collected from donor mares with high BUN concentrations. Urea nitrogen concentration was positively correlated between the plasma and follicular fluid of mares. Additionally, there was a higher pregnancy rate when embryos were collected from mares with lower BUN. Overall, these results further elucidate the mechanisms through which urea affects endometrial and embryonic transcriptome of mares with high BUN, serving to identify effects of a high BUN in the reproductive tract of mares that might lead to decreased fertility. High protein diet uterus embryo horse RNA sequencing fertility Animal Sciences Bioinformatics Cell Biology Genomics Molecular Genetics
89	Import d'ARN dans les mitochondries de cellules humaines : identification à grande échelle et applications thérapeutiques / RNA import into mitochondria of human cells : large-scale identification and therapeutic applications Jeandard, Damien 01 February 2019 (has links) Les mutations dans le génome mitochondrial humain sont souvent associées à de graves maladies neuromusculaires. Mon projet de thèse a consisté tout d’abord au développement d’une stratégie thérapeutique basée sur l’import mitochondrial de molécules d’ARN. J’ai pu démontrer que l’expression stable de molécules d’ARN recombinantes dans les cellules humaines permet de diminuer le taux de mutations pathogéniques de l’ADN mitochondrial. Dans une seconde partie, j’ai élaboré une nouvelle méthode, CoLoC-seq, permettant l’identification à grande échelle des ARN localisés dans les mitochondries. En appliquant cette méthode sur des cellules humaines, j’ai pu confirmer l’adressage mitochondrial de certains ARN cytosoliques non-codant et identifier de nouveaux ARN potentiellement importés. Ces données permettront d’élargir les connaissances sur les voies d’adressage mitochondrial des ARN, leurs mécanismes et leur régulation, et d’optimiser les stratégies thérapeutiques basées sur l’import d’ARN. / Mutations in the human mitochondrial genome are often associated with severe neuromuscular disorders. The first part of my thesis project consisted in the development of a therapeutic strategy based on the mitochondrial import of RNA molecules. I demonstrated that the stable expression of recombinant RNA molecules in human cells induced the decrease of the pathogenic mutation load in mitochondrial DNA. In the second part, I developed a nex method, CoLoC-seq, for the large-scale identification of RNA species localized in the mitochondria. By applying this method to human cells, I confirmed the mitochondrial targeting of some non-coding cytosolic RNAs and identified new potentially imported RNAs. These data will broaden the knowledge on the pathway of RNA targeting into the mitochondria, its mechanisms and regulation, and will allow optimization of the therapeutic strategies based on RNA import. Mitochondrie RNome mitochondrial Import d’ARN Stratégie thérapeutique Séquençage d’ARN Mitochondria Mitochondrial RNome RNA import Therapeutic strategy RNA sequencing 572.8
90	Amyloid-beta driven changes in transcriptome plasticity: From OMICS to Therapy Gertig, Michael Andre 24 March 2016 (has links) No description available. 570 Alzheimer's disease DNA-methylation amyloid gene expression RNA sequencing aging neurodegeneration immune response cognitive decline Biologie (PPN619462639)

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