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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Regulation of alternative pre-mRNA splicing by depolarization/CaMKIV

Liu, Guodong 29 June 2012 (has links)
Alternative pre-mRNA splicing is often controlled by cell signals (1-3). Membrane depolarization/calcium (Ca2+) signaling controls alternative splicing of a group of genes in neurons and endocrine cells (4-9), with important implications in memory formation or secretion of hormones and neurotransmitters (10-15). However, the underlying molecular basis remains largely unknown. In rat GH3 pituitary cells, BK potassium channels control cellular electrical firing, which is critical for the release of growth hormone and prolactin. Inclusion of the STREX exon of the Slo1 gene encoding the channel α subunit is repressed by the Ca2+/calmodulin-dependent kinase IV (CaMKIV) upon depolarization (4). We isolated CaMKIV-responsive RNA elements (CaRREs) from a library of 13-nucleotide random sequences through in vivo selection in HEK293T cells. Most elements are CA-rich or A-rich, with the heterogeneous nuclear ribonucleoprotein (hnRNP) L as a binding factor. This is consistent with the finding that CA-rich elements and hnRNP L are targeted by CaMKIV in the regulation of splicing (16). In further efforts to directly link the kinase with hnRNP L, we showed that hnRNP L is essential for the full repression of STREX by depolarization and that a highly conserved CaMKIV target serine (Ser513) of L is required. Ser513 phosphorylation enhanced L binding to the STREX CaRRE1, leading to reduced binding of the constitutive factor U2AF65 to the 3’ splice site of STREX. Mutation of Ser513 abolished both activities. Therefore, hnRNP L mediates the repression of STREX by depolarization through modulation of a key step in spliceosomal assembly. We further identified hnRNP L, L-like (LL) and PTB as repressors of STREX and other depolarization-regulated exons with differential effects. Moreover, a full response of STREX to depolarization is mediated by combinations of hnRNP L and LL or PTB. Another depolarization-responsive exon, the exon 18 of the neuregulin 1 gene, is also controlled in a similar way, with the hnRNP L Ser513 required as well. This work provides the first direct link between the Ca2+ signaling and a specific serine of a regulatory splicing factor. Elucidation of the underlying molecular mechanisms would likely help us understand the fine-tuning of hormone secretion and memory formation.
2

Regulation of alternative pre-mRNA splicing by depolarization/CaMKIV

Liu, Guodong 29 June 2012 (has links)
Alternative pre-mRNA splicing is often controlled by cell signals (1-3). Membrane depolarization/calcium (Ca2+) signaling controls alternative splicing of a group of genes in neurons and endocrine cells (4-9), with important implications in memory formation or secretion of hormones and neurotransmitters (10-15). However, the underlying molecular basis remains largely unknown. In rat GH3 pituitary cells, BK potassium channels control cellular electrical firing, which is critical for the release of growth hormone and prolactin. Inclusion of the STREX exon of the Slo1 gene encoding the channel α subunit is repressed by the Ca2+/calmodulin-dependent kinase IV (CaMKIV) upon depolarization (4). We isolated CaMKIV-responsive RNA elements (CaRREs) from a library of 13-nucleotide random sequences through in vivo selection in HEK293T cells. Most elements are CA-rich or A-rich, with the heterogeneous nuclear ribonucleoprotein (hnRNP) L as a binding factor. This is consistent with the finding that CA-rich elements and hnRNP L are targeted by CaMKIV in the regulation of splicing (16). In further efforts to directly link the kinase with hnRNP L, we showed that hnRNP L is essential for the full repression of STREX by depolarization and that a highly conserved CaMKIV target serine (Ser513) of L is required. Ser513 phosphorylation enhanced L binding to the STREX CaRRE1, leading to reduced binding of the constitutive factor U2AF65 to the 3’ splice site of STREX. Mutation of Ser513 abolished both activities. Therefore, hnRNP L mediates the repression of STREX by depolarization through modulation of a key step in spliceosomal assembly. We further identified hnRNP L, L-like (LL) and PTB as repressors of STREX and other depolarization-regulated exons with differential effects. Moreover, a full response of STREX to depolarization is mediated by combinations of hnRNP L and LL or PTB. Another depolarization-responsive exon, the exon 18 of the neuregulin 1 gene, is also controlled in a similar way, with the hnRNP L Ser513 required as well. This work provides the first direct link between the Ca2+ signaling and a specific serine of a regulatory splicing factor. Elucidation of the underlying molecular mechanisms would likely help us understand the fine-tuning of hormone secretion and memory formation.
3

Progression tumorale dans le cancer colorectal : analyse de l'expression de l'ensemble des gènes du génome humain et de l'épissage alternatif par des approches à haut débit / Colorectal cancer progression : analysis of gene expression and alternative pre-mRNA splicing by high throughput approaches

Pesson, Marine 16 December 2013 (has links)
Une analyse multiple des mutations, de l’expression des transcrits et de l’épissage alternatif a été réalisée dans des biopsies de lésions colorectales, correspondant à des stades variés de transformation, afin de rechercher des altérations qui caractériseraient la transformation de la muqueuse normale en adénome, puis en adénocarcinome. Cette analyse est basée sur l’utilisation de différentes technologies de puces à ADN. Des altérations spécifiques à chaque type de lésions colorectales ont été mises en évidence, démontrant que les adénomes et les adénocarcinomes sont des entités distinctes. Cependant, des altérations communes ont aussi été identifiées, confirmant que l’adénome est un état transitoire avant l’adénocarcinome. Une sélection clonale et des effets environnementaux sont sans doute à l’origine de la progression des adénomes en adénocarcinomes. Des voies de signalisation cellulaire caractéristiques de cette transformation ainsi qu’une classification des lésions colorectales ont été recherchées. Une signature de 40 transcrits a été identifiée, qui pourrait permettre de prédire la transformation des adénomes en adénocarcinomes. Des événements d’épissage alternatif ont aussi été détectés dans les adénomes, suggérant l’implication, à un stade précoce, de ces altérations dans le processus de cancérisation. Enfin, une puce à ADN « à façon » a été élaborée, qui s’inscrit dans une perspective d’appui à la mise en oeuvre de thérapeutiques anticancéreuses. Elle permet en effet d’analyser l’épissage alternatif des gènes codant les protéines cibles des nouvelles thérapies ciblées du cancer. / A genome-wide analysis of mutation, gene expression and alternative pre-mRNA splicing was performed in colorectal normal mucosa, adenoma and adenocarcinoma biopsy samples in order to look for some alterations that could characterize the stepwise “colorectal normal mucosa-adenoma-adenocarcinoma” transition. It was conducted through different microarray-based experiments. Alterations specific for either adenomas or adenocarcinomas were identified. Nevertheless, most deregulated genes in adenocarcinomas were shared between adenomas and adenocarcinomas, in agreement with the notion that adenomas are precursor lesions for adenocarcinomas. Adenomas may have different outcomes, depending on environment, some evolving towards cancer, while others could be prone to disappearance. Pathway enrichment in colorectal lesions and classification of colorectal lesions were investigated. A 40-gene set was identified as a gene expression signature that could help predicting patients, at time of adenoma ablation, with a risk for developing colorectal cancer. Splicing profiles were also identified in colorectal lesions, suggesting that alternative splicing may play a major role in cancer outcome. Finally, a custom microarray was designed with the aim to predict the response of patients before treatment. This custom microarray makes it possible to analyze transcript structure and levels for genes involved in the response to targeted anticancer therapies.
4

ALTERNATIVE SPLICING OF CYTOPLASMIC POLYADENYLATION ELEMENT BINDING PROTEIN 2 IS MODULATED VIA SERINE ARGININE SPLICING FACTOR 3 IN CANCER METASTASIS

DeLigio, James T, DeLigio, James Thomas 01 January 2018 (has links)
Our laboratory delineated a role for alternative pre-mRNA splicing (AS) in triple negative breast cancer (TNBC). We found the translational regulator cytosolic polyadenylation element binding protein 2 (CPEB2) which has two isoforms, CPEB2A and CPEB2B, is alternatively spliced during acquisition of anoikis resistance (AnR) and metastasis. The splicing event which determines the CPEB2 isoform is via inclusion/ exclusion of exon four in the mature mRNA transcript. The loss of CPEB2A with a concomitant increase in CPEB2B is required for TNBC cells to metastasize in vivo. We examined RNAseq profiles of TNBC cells which had CPEB2 isoforms specifically downregulated to examine the mechanism by which CPEB2 isoforms mediate opposing effects on cancer-related phenotypes. Downregulation of the CPEB2B isoform inhibited pathways driving the epithelial-to-mesenchymal transition (EMT) and hypoxic response, whereas downregulation of the CPEB2A isoform did not have this effect. Specifically, CPEB2B functioned as a translational activator of TWIST1 and HIF1a. Functional studies showed that specific downregulation of either HIF1α or TWIST1 inhibited the ability of CPEB2B to induce AnR and drive metastasis. The mechanism governing inclusion/ exclusion of exon 4 was determined to be serine/ arginine-rich splicing factor 3 (SRSF3). Binding of SRSF3 to a consensus sequence within CPEB2 exon 4 promoted its inclusion in the mature mRNA, and mutation of this sequence abolished association of SRSF3 with exon 4. SRSF3 expression was upregulated in TNBC cells upon acquisition of AnR correlating with a reduction in the CPEB2A/B ratio. Importantly, downregulation of SRSF3 by siRNA in these cells induced the exclusion of exon 4. Downregulation of SRSF3 also reversed the CPEB2A/B ratio in a wild-type CPEB2 exon 4 minigene construct, but not a mutant CPEB2 minigene with the SRSF3 RNA cis-element ablated. Physiologic studies demonstrated SRSF3 downregulation ablated AnR in TNBC cells, and was “rescued” by ectopic expression of CPEB2B. Importantly, biostatistical analysis of The Cancer Genome Atlas database showed a positive relationship between alterations in SRSF3 expression and lower overall survival in TNBC. Overall, this study demonstrates that SRSF3 modulates CPEB2 AS to induce the expression of the CPEB2B isoform that drives TNBC phenotypes correlating with aggressive human breast cancer.
5

An experimental and genomic approach to the regulation of alternative pre-mRNA splicing in Drosophila rnp-4f

Fetherson, Rebecca A. January 2005 (has links)
Thesis (M.S.)--Miami University, Dept. of Zoology, 2005. / Title from first page of PDF document. Document formatted into pages; contains [1], ix, 75 p. : ill. Includes bibliographical references (p. 69-75).
6

An experimental and genomic approach to the regulation of alternative pre-mRNA splicing in Drosophila rnp-4f

Fetherson, Rebecca A. 30 April 2005 (has links)
No description available.
7

Modulating RNA Splicing of DNA Topoisomerase IIα in Human Leukemia K562 Cells: Use of CRISPR/Cas9 Gene Editing to Impact Sensitivity/Resistance to the Anticancer Agent Etoposide

Hernandez, Victor A. January 2021 (has links)
No description available.

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