The Regulation of Alternative Splicing by Oncogenic Signaling Pathways.

Shultz, Jacqueline

25 September 2009

In the presented study, we demonstrate that the alternative splicing of caspase 9 was dysregulated in a large percentage of NSCLC tumors and cell lines. These findings led to the hypothesis that survival pathways activated by oncogenic mutation regulated this mechanism. Indeed, the oncogenic PI3-Kinase/Akt pathway was demonstrated to regulate the alternative splicing of caspase 9. Further mechanistic studies demonstrate that multiple Akt isoforms can regulate the alternative splicing of caspase 9 in NSCLC. Akt was additionally shown to mediate the exclusion of the exon 3,4,5,6 cassette of caspase 9 via the phospho-state of the RNA trans-factor, SRp30a. Mutagenesis studies identified serine 199, serine 201, serine 227, and serine 234 as critical residues regulating the alternative splicing of caspase 9, as well as playing a role in the anchorage-independent growth of A549 cells. Since dysregulation of this splicing mechanism correlated with NSCLC tumors/cell lines and constitutively active Akt, oncogenic factors for NSCLC known to activate the PI3-Kinase/Akt pathway were examined in HBEC-3KT cells. In contrast to k-ras V12 expression, the overexpression/mutation of EGFR affected the alternative splicing of caspase 9 in a pro-oncogenic manner, dramatically lowering the caspase 9a/9b mRNA ratio. Stable downregulation of caspase 9b by shRNA blocked the ability of E746-A750 del EGFR expressing HBEC-3KTs to induce anchorage-independent growth, suggesting a role for caspase 9b as a cooperative oncogenic factor. These findings were further corroborated by the ability of caspase 9b expression to completely block the inhibition of clonogenic colony formation by erlotinib. Therefore, this study demonstrates that oncogenic factors activating the PI3-Kinase/Akt pathway regulate the alternative splicing of caspase 9, to produce caspase 9b, via a coordinated mechanism involving the phosphorylation of SRp30a. In additional studies, we demonstrate that the PI3-Kinase/PKCι pathway, a pathway important for cancer cell survival and transformation of lung epithelial cells, regulates the alternative splicing of Bcl-x pre-mRNA via modulation of SAP155 expression to produce an anti-apoptotic phenotype in NSCLC. Therefore, these studies link oncogenic mechanisms in NSCLC to the therapeutically relevant and distal target mechanisms of caspase 9 and Bcl-x pre-mRNA splicing.

caspase 9

alternative splicing

SRp30a

ASF/SF2

tumorigenesis

Life Sciences

Regulace alternativniho sestřihu / Regulation of alternative splicing

Dušková, Eva

January 2010

Alternative splicing is an important cellular mechanism. It allows to produce multiple protein isoforms from a limited number of genes. Regulation of alternative splicing involves cis-acting elements on pre-mRNA and trans-acting splicing factors (SR and hnRNP proteins). Because splicing occurs co-transcriptionaly, chromatin structure appears to have a role in the regulation of alternative splicing. We have studied the effect of histone acetylation on alternative splicing. We have prepared splicing reporter for alternative EDB exon, which is part of the fibronectin gene. We have shown, that the inhibition of histone deacetylases affects splicing pattern of EDB exon from the reporter in the same way as the splicing of the endogenous EDB exon. Furthermore, we have shown, that the structure of the promoter affects splicing of alternative EDB exon from splicing reporter. Currently we have found out, that the structure of the promoter influences the degree of histone H4 acetylation. Inclusion of alternative EDB exon in mRNA was inversely proportional to histon acetylation on the reporter. This work might explain why various promoters have different splicing patterns of alternative exons.

Role promotoru při regulaci RNA sestřihu / Role of promoter in the regulation of alternative splicing

Kozáková, Eva

January 2014

It was shown that 95 % of human multi-exon genes are alternatively spliced and the regulation of alternative splicing is extremely complex. Most pre-mRNA splicing events occur co- transcriptionally and there is increasing body of evidence, that chromatin modifications play an important role in the regulation of alternative splicing. Here we showed that inhibition of histone deacetylases (HDACs) modulates alternative splicing of ~700 genes via induction of histone H4 acetylation and increase of Pol II elongation rate along alternative region. We identified HDAC1 the catalytic activity of which is responsible for changes in alternative splicing. Then, we analyzed whether acetylhistone binding protein Brd2 regulates alternative splicing and showed that Brd2 occupies promoter regions of targeted genes and controls alternative splicing of ~300 genes. Later we showed that knockdown of histone acetyltransferase p300 promotes inclusion of the alternative fibronectin (FN1) EDB exon. p300 associates with CRE sites in the promoter via the CREB transcription factor. We created mini-gene reporters driven by an artificial promoter containing CRE sites. Both deletion and mutation of the CRE site affected EDB alternative splicing in the same manner as the p300 knockdown. Next we showed that p300 controls histone...

Analýza a charakterizace sestřihových variant BRCA1 / Analysis and characterization of BRCA1 splicing variants.

Hojný, Jan

January 2012

The Breast cancer gene 1 (BRCA1) codes for nuclear phosphoprotein with a key function in the regulation of DNA damage response. The BRCA1 protein contributes to the formation and regulation of protein supercomplexes that participates on the DNA double-strand break repair. These protein supercomplexes are formed by the protein-protein interactions between highly conservative protein motives in BRCA1 and its binding partners. Except to the wild type form of BRCA1 mRNA containing entire set of 22 exons coding for the 220 kD protein, numerous alternative splicing variants (ASVs) BRCA1 mRNA has been described. These ASVs code for BRCA1 isoforms lacking several critical functional domains. It has been proposed, that formation of BRCA1's ASVs represent a tool for regulation of BRCA1 function. Only poorly has been characterized a complex catalogue of in various human tissues and their expression. This study aims to address these questions. We optimized the identification of BRCA1's ASVs including those covering the entire transcripts of the wt BRCA1 mRNA with length exceeding 5.5 kb. In further analysis, we characterized 13 BRCA1's ASVs in RNA samples isolated from peripheral blood mononuclear cells (PBMNC) obtained from patients with breast cancer (BC) and control subjects. The majority of the identified...

Regulace alternativního sestřihu pomocí chromatinových modifikací / Regulation of alternative splicing via chromatin modifications

Hozeifi, Samira

January 2014

Alternative splicing (AS) is involved in expansion of transcriptome and proteome during cell growth, cell death, pluripotency, cell differentiation and development. There is increasing evidence to suggest that splicing decisions are made when the nascent RNA is still associated with chromatin. Here, I studied regulation of AS via chromatin modification with main focus on histone acetylation. First, we demonstrate that activity of histone deacetylases (HDACs) influences splice site selection in 700 genes. We provided evidence that HDAC inhibition induces histone H4 acetylation and increases RNA Polymerase II (RNA Pol II) processivity along an alternatively spliced element. In addition, HDAC inhibition reduces co-transcriptional association of the splicing regulator SRp40 with the target fibronectin exon. Further we showed that histone acetylation reader, Brd2 protein, affect transcription of 1450 genes. Besides, almost 290 genes change their AS pattern upon Brd2 depletion. We study distribution of Brd2 along the target and control genes and find that Brd2 is specifically localized at promoters of target genes only. Surprisingly, Brd2 interaction with chromatin cannot be explained solely by histone acetylation, which suggests that other protein-domains (in addition to bromodomains) are important for...

Caractérisation de composés chimiques agissant sur le phénomène d'épissage alternatif du gène LMNA responsable du vieillissement précoce : applications dans l'obésité / Characterization of chemical compounds targeting alternative splicing of LMNA gene which is responsible for premature aging : applications in obesity

Santo, Julien

11 December 2013

L'épissage alternatif des ARNs pré-messagers est le mécanisme majeur de diversification de l'information génétique chez les eucaryotes supérieurs. Près de 70% des gènes sont concernés par ce mécanisme. Il arrive malgré tout que l'épissage alternatif soit dérégulé ce qui conduit à des défauts d'épissage qui provoquent des maladies telles que le syndrome progérique de Hutchinson-Gilford (HGPS). Cette maladie se caractérise notamment par une apparition précoce des signes distinctifs de la vieillesse ainsi que de défauts métaboliques majeurs. Mon travail de thèse a consisté à sélectionner et à caractériser des composés chimiques modulateurs de l'épissage alternatif en se basant sur le mécanisme moléculaire conduisant à la progeria. Par la suite, l'efficacité de ces molécules a été testée dans des modèles de souris obèses. Parmi une chimiothèque de plus de 700 molécules chimiques, j'ai pu sélectionner sur différents critères une vingtaine de molécules modulatrices de l'épissage de l'exon 11 du gène LMNA. Une seule molécule a été capable de diminuer la prise de poids de souris mises sous régime hyperlipidique en favorisant la mise à disposition des lipides et en diminuant la différenciation adipocytaire grâce à son action sur les micros ARN. / Alternative splicing of pre-messenger RNA is the major mechanism to increase genetic variability in superior eukaryotes. Almost 70 % of genes are concerned by the mechanism. In some case this tightly regulated process is deregulated leading to splicing defects and diseases like Hutchinson-Gilford Progeroid Syndrome (HGPS). HGPS is characterized by a premature ageing and important metabolism defects.My thesis work was to select and characterized chemical compounds modulating alternative splicing based on molecular mechanism leading to HGPS. We further tested efficiency of these molecules in diet-induced obesity mice.Among a library of 700 compounds, I was able to select twenty molecules modulating splicing event of LMNA gene exon 11. One unique molecule was found to decrease weight gain in a mouse model under high-fat diet condition trough increasing lipolysis and lipids mobilization, and decreasing adipocyte differentiation.

Épissage alternatif

Vieillissement précoce

Progéria

Obésité

Alternative splicing

Premature aging

Progeria

Obesity

Análise de características das seqüencias genômicas relacionadas a eventos de splicing alternativo do tipo retenção de intron no transcriptoma humano / Analysis of genomic sequence features related to alternative splicing events (intron retention) in the human transcriptome

Sakabe, Noboru Jo

09 February 2007

Os genes eucarióticos, em sua maioria, são divididos em exons e introns, requerendo processamento do RNAm para remover as sequências intrônicas e juntar os exons (splicing). As bordas exon/intron são definidas por sítios de splice que normalmente são reconhecidos com alta fidelidade, gerando os mesmos RNAms processados a cada vez. Apesar desse reconhecimento preciso, tem sido observada a junção de exons de maneiras alternativas (splicing alternativo), foco de muitos estudos recentes devido à sua importância em vários processos biológicos. Este processamento alternativo do RNAm pode ser principalmente de três tipos: exclusão de exon, no qual um exon pode ser incluído ou não no RNAm maduro; uso alternativo de sítios de splice, resultando em exons mais longos ou mais curtos e retenção de intron, o tipo menos estudado, no qual uma sequência intrônica é mantida no RNAm maduro. Um dos aspectos cruciais no entendimento de splicing alternativo é conhecer os mecanismos que levam à geração de diferentes transcritos. Coerente com a importância dos sítios de splice no splicing de RNAms, a retenção de intron parece ser causada por falha no reconhecimento daqueles que são sub-ótimos. Como os sítios de splice são reconhecidos aos pares ao se estabelecer uma ponte através de exons ou introns, dependendo de qual é mais curto, uma falha no reconhecimento de um exon ou de um intron leva a diferentes tipos de splicing alternativo (exclusão de exon ou retenção de intron, respectivamente). Desta forma, acredita-se que a ocorrência de retenção de intron esteja também associada a uma falha no reconhecimento de introns curtos. Embora estudos de introns retidos individuais tenham abordado estas questões, poucas análises sistemáticas de grandes quantidades de dados foram conduzidas sobre as características gerais que levam à retenção de intron. Para este fim, realizamos uma análise de bioinformática de sequências do genoma e transcriptoma (RNAm) humanos armazenadas em formato de computador. Para realizar as análises computacionais, desenvolvemos um sistema de anotação de splicing alternativo completo. Particionamos os eventos de retenção de intron identificados em sequências expressas pelo nosso sistema de anotação em dois grupos, com base na abundância relativa das duas isoformas (um grupo de eventos com <50% e outro com >50% de transcritos retendo o intron) e comparamos características relevantes. Verificamos que uma maior frequência de retenção de intron em humano está associada a sítios de splice mais fracos, genes com introns mais curtos e maior nível de expressão gênica, e menor densidade de um conjunto de elementos inibitórios exônicos e do promotor de splicing intrônico GGG. Os dois grupos apresentaram eventos conservados em camundongo, nos quais os introns retidos também eram curtos e apresentavam sítios de splice mais fracos. Embora nossos resultados tenham confirmado que sítios de splice mais fracos estão associados à retenção de intron, eles mostram que uma fração não-desprezível dos eventos não pode ser explicada apenas por esta característica. Nossa análise sugere que elementos reguladores em cis provavelmente têm um papel na regulação da retenção de intron e também revelou características previamente desconhecidas que parecem influenciar sua ocorrência. Estes resultados salientam a importância de considerar o compromisso entre estas características na regulação da frequência relativa de retenção de intron. / Most eukaryotic genes are split in exons and introns, requiring mRNA processing to remove intervening sequences and join exons (splicing). Exon/intron borders are defined by splice sites that are normally recognized with high fidelity, yielding the same processed mRNA each time. Notwithstanding such precise recognition, alternative joining of exons has been observed (alternative splicing) and is the focus of many recent studies, due to its importance in several biological processes. This alternative mRNA processing can be mainly of three types: exon skipping, whereby an exon may be included or not in the mature mRNA; alternative use of splice sites, resulting in longer or shorter exons and intron retention, the least studied type whereby an intronic sequence is maintained in the mature mRNA. One of the key aspects in understanding alternative splicing is to know the mechanisms that lead to the generation of different transcripts. Coherent with the importance of splice sites in mRNA splicing, intron retention seems to be caused by failure in the recognition of those that are sub-optimal. As splice sites are recognized in pairs by bridging either exons or introns, depending on which is the shortest, failure to recognize an exon or an intron leads to different types of alternative splicing (exon skipping or intron retention, respectively). This way, the occurrence of intron retention is believed to be associated to failure in recognition of short introns also. Although studies on individual retained introns have addressed such issues, few systematic surveys of large amounts of data have been conducted on the general features leading to intron retention. To this end, we performed a bioinformatics analysis of human genome and transcriptome (mRNA) sequences stored in computer format. To perform the computational analyses we developed a complete alternative splicing annotation system. We partitioned intron retention events identified in expressed sequences by our annotation system in two groups based on the relative abundance of both isoforms (one group of events with <50% and another with >50% of transcripts retaining the intron) and compared relevant features. We found that a higher frequency of intron retention in human is associated to weaker splice sites, genes with shorter intron lengths and higher expression level, and lower density of a set of exonic inhibitory elements and the intronic splicing enhancer GGG. Both groups of events presented conserved events in mouse, in which the retained introns were also short and presented weaker splice sites. Although our results confirmed that weaker splice sites are associated to intron retention, they showed that a non-negligible fraction of events can not be explained by this feature alone. Our analysis suggests that cis-regulatory elements are likely to play a crucial role in regulating intron retention and also revealed previously unknown features that seem to influence its occurrence. These results highlight the importance of considering the interplay among these features in the regulation of the relative frequency of intron retention.

Alternative splicing

Freqüência relativa de isoformas

Intron retention

Relative isoform frequency

Retenção de intron

Splicing alternativo

Transcriptoma

Transcriptome

Identificação do perfil de expressão dos splicings alternativos dos genes das hialuronidases em adenocarcinoma de próstata / Study of genetic polymorphism in children: searching for susceptibility genes and haplotypes

Sá, Vanessa Karen de

02 October 2008

Ácido Hialurônico (HA) é um componente da matriz extracelular, responsável pela hidratação e manutenção do equilíbrio osmótico tecidual. Concentrações de HA estão elevadas em vários tipos de cânceres, incluindo próstata. Hialuronidases (HAases), são uma família de enzimas relacionadas com a propagação de infecções bacterianas, toxinas de venenos e progressão tumoral. A quebra do HA em pequenos fragmentos (3-25 dissacarídeos) promovidos pela ação das HAases tipo Hyal1, Hyal2 e Hyal3, está relacionada à promoção do câncer através da indução da angiogênese e estímulo a proliferação através de ativação da via tirosina quinase. Algumas isoformas de HAases, descritas como produto de splicing alternativo, possuem atividade enzimática diversificada. A heterogeneidade de expressão das HAases foi identificada em alguns tipos de câncer e pode ser correlacionada com o comportamento diferenciado dos tumores. Para este trabalho estudamos amostras de 55 pacientes submetidos a prostatectomia radical por carcinoma de próstata (CP) . A média de idade foi 66 anos e o tempo médio de seguimento 73,7 meses. Os pacientes foram divididos em dois grupos para análise dos resultados: 1- Escore de Gleason (EG) >=7 (30) e EG <=6 (25). 2- Comportamento tumoral (recidiva-19, e não recidiva-36), considerando o nível sérico de Antígeno Específico da Próstata (PSA) 0,2 ng/mL. O grupo controle foi representado por 11 pacientes com hiperplasia prostática benigna, submetidos à ressecção retropúbica. As HYAL foram identificadas por PCR, com uso de primers específicos para as variantes 1, 2, 3, 4 e 5 e wt da HYAL1, wt da HYAL2, e wt e variantes 1, 2 e 3 da HYAL3. As HYAL mais freqüentemente expressas pelo CP foram HYAL2-wt (65,4%), HYAL1-v1 (63,3%) e HYAL3-wt (47,2%). Em tecidos prostáticos benignos, a HYAL3-v1 foi expressa em 90,9% dos casos, estando presente em 36% dos tumores com EG baixo, e não expressa em tumores com EG alto (p=<0,001). Nos tumores sem recidiva HYAL1-v3 foi expressa em 30,5% dos casos versus 5,2% em casos que recorreram (p=0,041). HYAL3 v2, foi expressa por 33,3% dos tumores que não recorreram e não expressa em tumores que recorreram (p=0,002). Concluímos que a expressão de HYAL1-v3, HYAL3-v1 e HYAL3-v2 está relacionada a tumores mais diferenciados e com menores taxas de recidiva, podendo ser utilizadas como marcadores na prática clínica identificando candidatos a terapias mais conservadoras. / Hyaluronic acid (HA) is a component of the extracellular matrix that hydrates and maintains the osmotic balance of tissues. HA concentration is elevated in several cancers including prostate. Hyaluronidases (HAases) are a family of enzymes related to the spread of bacterial infections, toxins of venoms and probably cancer progression. Small fragments of HA are generated by HAase Hyal1, Hyal2 and Hyal3, stimulating endothelial proliferation and activating mitogen-activated protein kinase pathway. Several isoforms of HAases have been described as a product of alternative splicing, and are responsible for differences in the enzyme activity. The heterogeneity of HAses expression has been identified in tumors and could be related to the differences in their biological behavior. Fifty-five patients submitted to radical prostatectomy for prostate cancer (PC) were the subject of this study. The mean age was 66 years old and the mean follow-up was 73,7 months. Patients were divided into two groups for the analyses: 1- High Gleason score (GE) >=7 (30) and low Gleason score <=6 (25). 2- Tumor behavior; recurrence - 19 and nonrecurrence - 36. Biochemical recurrence was considered when PSA was higher than 0.2 ng/mL. The control was represented by 11 patients submitted to retropubic prostate resection for benign prostatic hyperplasia. The alternative splicing forms of HYAL were identified by PCR, and the primer sequences identified variants 1, 2, 3, 4, 5 e wt of HYAL1, wt of HYAL2, wt and variants 1, 2 and 3 of HYAL3. The HYAL more frequently expressed by PC was HYAL2-wt (65.4%), HYAL1-v1 (63.3%) and HYAL3-wt (47.2%). In benign prostate tissue the main expressed HAase was HYAL3-v1 in 90.9%, being present in 36% of low Gleason score tumors and not expressed by tumors with high Gleason score (p=<0.001). For tumors that not recurred there was expression of HYAL1-v3 in 30.5% of the cases vs. 5.2% in cases that recurred (p=0.041). The same difference was noted regarding the expression of HYAL3-v2, that was expressed by 33.3% of tumors that not recurred and not expressed by tumors that recurred (p=0.002). We conclude that there is a profile of HAase related to low Gleason score and non-recurrent PC that is characterized by expression of HYAL1-v3, HYAL3-v1 and HYAL3-v2 that could be used in clinical practice to choose a better treatment.

Ácido hialurônico

Alternative splicing

Hialuronoglusaminidase

Hyaluronan

Hyaluronoglucosaminidase

Neoplasias da próstata

Processamento alternativo

Prostate neoplasms

Identificação de variantes de splicing sob influência da alta expressão do oncogene ERBB2 em câncer de mama / Identification of alternative splicing variants under the influence of ERBB2 high expression in breast cancer

Ferreira, Elisa Napolitano e

16 September 2010

O splicing alternativo é o processo pelo qual diversos transcritos podem ser gerados a partir de um único gene, sendo de extrema importância para diversidade do repertório transcricional e proteico. Diferentes variantes de splicing são expressas entre os diferentes tecidos e estágios de desenvolvimento garantindo o funcionamento normal da célula, portanto, qualquer alteração neste padrão pode resultar no aparecimento de doenças. Neste contexto, o objetivo deste trabalho foi o estabelecimento de metodologias para identificação de variantes de splicing em câncer de mama sob influência do oncogene ERBB2, o qual é um marcador de mau prognóstico altamente expresso em cerca de 30% dos tumores de mama. Foram estabelecidas duas estratégias para construção de bibliotecas de cDNA. A construção de bibliotecas de cDNA enriquecidas para splicing alternativo, baseada na formação e captura de moléculas de heteroduplexes em combinação com a amplificação de RNAm, foi realizada a partir de RNA total de linhagem celular de mama e a partir de um grupo de cinco amostras tumorais, todas com alta expressão de ERBB2. Foram identificadas 79 possíveis variantes de splicing alternativo em câncer de mama, das quais 18 foram selecionadas para validação por RT-PCR. Foi obtida uma taxa de vallidação de 94% e foram identificadas duas novas variantes de splicing alternativo. A regulação da expressão mediada por ERBB2 de três variantes de splicing foi confirmada por duas metodologias distintas, eletroforese em chip e estratégia baseada na ligação de sondas específicas, que revelou desbalanço de expressão entre as variantes, demonstrando a influência do oncogene na regulação de variantes de splicing. A segunda abordagem utilizada, foi a construção de bibliotecas de cDNA para avaliação do transcriptoma total, utilizando sequênciamento de alto desempenho. Foram utilizados RNA total de duas linhagens celulares de mama que diferem apenas na expressão do gene ERBB2. Foram identificadas 2.865 novas variantes de splicing, das quais 20, que reportaram a identificação de um novo éxon, foram selecionadas para validação, com uma taxa de validação de 90%. Seis destas variantes apresentaram aumento de expressão na linhagem com alta expressão de ERBB2. Além disso, foi detectado um enriquecimento de algumas categorias de variantes na linhagem celular com alta expressão de ERBB2, reforçando a influência do oncogene na regulação do splicing alternativo, podendo resultar em variantes de splicing associadas a este grupo de câncer de mama, que podem ser candidatas a marcadores moleculares. / Alternative splicing is a process, by which many differente transcripts can be generated by one single gene, significantly expanding the transcriptional and proteomic diversity. Different splicing variants are generated among different transcripts and developmental stages, assuring normal cell function. Therefore, alterations in the splicing process can lead to diseases outcome. In this context, the aim of this study was the establishment of methodologies for the identification of alternative splicing in breast cancer influenced by ERBB2 oncogene, which is a poor prognostic molecular marker, highly expressed in 30% of human breast cancer. Two strategies were established for the construction of cDNA libraries. Alternative enriched splicing libraries, based on heteroduplex capture combined with mRNA amplification, were constructed from total RNA from a cell line and also from five tumor samples, all of them presenting high ERBB2 expression. Seventy nine putative splicing variants were identified and 18 of them were selected for RT-PCR validation. A high validation level was obtained (94%) and two novel alternative splicing variants were identified. ERBB2 mediated regulation was confirmed for three variants by two distinct methodologies, electrophoresis on a chip and probe specific ligation approach. The alteration in the expression balance of variants suggests the influence of the oncogene in the splicing pattern regulation. The second strategy was the construction of cDNA libraries for global transcriptome analysis based on deep sequencing. Total RNA from two mammary epithelial cell lines expressing different ERBB2 levels were used and 2,865 novel splicing variants were identified. Twenty novel events reporting the inclusion of novel exons were selected for RT-PCR validation with 90% validation rate. Six variants presented higher expression in the cell line with high levels of ERBB2. Moreover enrichment in splicing events was detected in the ERBB2 high expressing cell line, supporting the ERBB2 influence in alternative splicing regulation, possibly resulting in splicing variants associated to this subgroup of cancer that can be tested as molecular markers.

Alternative splicing

Bibliotecas de cDNA

cDNA libraries

ERBB2

ERBB2 gene

Splicing alternativo

Investigating the RNA Binding Domains of MBNL1 and the Alternative Splicing Motifs They Recognize

Purcell, Jamie, Purcell, Jamie

January 2012

Muscleblind-like 1 (MBNL1) is a ubiquitously expressed RNA binding protein that regulates the alternative splicing of a variety of transcripts. In Myotonic Dystrophy (DM) aberrant cellular localization of MBNL1 results in disease-associated mis-splicing of several MBNL1 target pre-mRNAs. Due to its role in DM pathogenesis, MBNL1 has been a topic of intense study for the last decade, however many open mechanistic questions remain regarding how MBNL1 recognizes RNA substrates to mediate splicing. The RNA recognition motif for MBNL1, 5'-YGCY-3', was defined herein. This motif was used to identify novel MBNL1 binding sites within regulated transcripts and create synthetic MBNL1-regulated splicing reporters. MBNL1 contains four zinc finger (ZF) RNA binding domains arranged into two pairs of two ZFs. A comprehensive, combinatorial mutagenic study of MBNL1 was conducted to determine the role of each ZF in RNA binding and splicing activity. Functional analysis of the mutant proteins in cellular splicing assays and assessment of RNA binding activity demonstrated that the ZF pairs (i.e. ZF1-2 or ZF3-4) do not have equivalent activity. The ZF1-2 pair is responsible for MBNL1's high affinity RNA binding and splicing activity, whereas the ZF3-4 pair has reduced affinity for RNA and impaired ability to regulate splicing of some transcripts. Hierarchical clustering analysis revealed that two distinct classes of MBNL1-regulated splicing events exist within the small set of splicing events examined. For Class II splicing events the binding and splicing activity for the ZF mutants correlated well. However, for Class I events there was no significant correlation between RNA binding and splicing activity. For pre-mRNAs in the latter class it appears that MBNL1 exerts surprisingly robust splicing activity in the absence of strong RNA binding, suggesting that MBNL1 may be recruited to some pre-mRNA substrates through protein-protein interactions. This study provides the first demonstration that functionally distinct classes of MBNL1-mediated splicing events exist in terms of requirements for different ZFs and the importance of RNA binding. This dissertation includes previously published and unpublished co-authored material as well as recently co-authored material that has been submitted for publication.

Alternative splicing

Muscleblind (MBNL1)

Myotonic dystrophy

RNA-binding proteins

Splicing factors

Zinc fingers