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1. Interactive data link from Identification of Alternative Splicing Markers for Breast Cancer

Author

Sherif Abou Elela, Claudine Rancourt, Benoit Chabot, Raymund J. Wellinger, Panagiotis Prinos, Karine Tremblay, Jean-Francois Lucier, Philippe Thibault, Jean-Philippe Brosseau, Daniel Gendron, Mathieu Durand, Ulrike Froehlich, Elvy Lapointe, Julien Gervais-Bird, ChuShin Koh, Geneviève Dufresne-Martin, Lyna Inkel, Anne Bramard, Roscoe Klinck, and Julian P. Venables

Abstract

Interactive data link from Identification of Alternative Splicing Markers for Breast Cancer

Published
2023

2. Supplementary Figure 9 from Identification of Alternative Splicing Markers for Breast Cancer

Author

Sherif Abou Elela, Claudine Rancourt, Benoit Chabot, Raymund J. Wellinger, Panagiotis Prinos, Karine Tremblay, Jean-Francois Lucier, Philippe Thibault, Jean-Philippe Brosseau, Daniel Gendron, Mathieu Durand, Ulrike Froehlich, Elvy Lapointe, Julien Gervais-Bird, ChuShin Koh, Geneviève Dufresne-Martin, Lyna Inkel, Anne Bramard, Roscoe Klinck, and Julian P. Venables

Abstract

Supplementary Figure 9 from Identification of Alternative Splicing Markers for Breast Cancer

Published
2023

3. Supplementary Figures 1-5 from Identification of Alternative Splicing Markers for Breast Cancer

Author

Sherif Abou Elela, Claudine Rancourt, Benoit Chabot, Raymund J. Wellinger, Panagiotis Prinos, Karine Tremblay, Jean-Francois Lucier, Philippe Thibault, Jean-Philippe Brosseau, Daniel Gendron, Mathieu Durand, Ulrike Froehlich, Elvy Lapointe, Julien Gervais-Bird, ChuShin Koh, Geneviève Dufresne-Martin, Lyna Inkel, Anne Bramard, Roscoe Klinck, and Julian P. Venables

Abstract

Supplementary Figures 1-5 from Identification of Alternative Splicing Markers for Breast Cancer

Published
2023

4. Supplementary Figure 6 from Identification of Alternative Splicing Markers for Breast Cancer

Author

Sherif Abou Elela, Claudine Rancourt, Benoit Chabot, Raymund J. Wellinger, Panagiotis Prinos, Karine Tremblay, Jean-Francois Lucier, Philippe Thibault, Jean-Philippe Brosseau, Daniel Gendron, Mathieu Durand, Ulrike Froehlich, Elvy Lapointe, Julien Gervais-Bird, ChuShin Koh, Geneviève Dufresne-Martin, Lyna Inkel, Anne Bramard, Roscoe Klinck, and Julian P. Venables

Abstract

Supplementary Figure 6 from Identification of Alternative Splicing Markers for Breast Cancer

Published
2023

5. Supplementary Figure 7 from Identification of Alternative Splicing Markers for Breast Cancer

Author

Sherif Abou Elela, Claudine Rancourt, Benoit Chabot, Raymund J. Wellinger, Panagiotis Prinos, Karine Tremblay, Jean-Francois Lucier, Philippe Thibault, Jean-Philippe Brosseau, Daniel Gendron, Mathieu Durand, Ulrike Froehlich, Elvy Lapointe, Julien Gervais-Bird, ChuShin Koh, Geneviève Dufresne-Martin, Lyna Inkel, Anne Bramard, Roscoe Klinck, and Julian P. Venables

Abstract

Supplementary Figure 7 from Identification of Alternative Splicing Markers for Breast Cancer

Published
2023

6. Supplementary Table 2 from Identification of Alternative Splicing Markers for Breast Cancer

Author

Sherif Abou Elela, Claudine Rancourt, Benoit Chabot, Raymund J. Wellinger, Panagiotis Prinos, Karine Tremblay, Jean-Francois Lucier, Philippe Thibault, Jean-Philippe Brosseau, Daniel Gendron, Mathieu Durand, Ulrike Froehlich, Elvy Lapointe, Julien Gervais-Bird, ChuShin Koh, Geneviève Dufresne-Martin, Lyna Inkel, Anne Bramard, Roscoe Klinck, and Julian P. Venables

Abstract

Supplementary Table 2 from Identification of Alternative Splicing Markers for Breast Cancer

Published
2023

7. Supplementary Table 1 from Identification of Alternative Splicing Markers for Breast Cancer

Author

Sherif Abou Elela, Claudine Rancourt, Benoit Chabot, Raymund J. Wellinger, Panagiotis Prinos, Karine Tremblay, Jean-Francois Lucier, Philippe Thibault, Jean-Philippe Brosseau, Daniel Gendron, Mathieu Durand, Ulrike Froehlich, Elvy Lapointe, Julien Gervais-Bird, ChuShin Koh, Geneviève Dufresne-Martin, Lyna Inkel, Anne Bramard, Roscoe Klinck, and Julian P. Venables

Abstract

Supplementary Table 1 from Identification of Alternative Splicing Markers for Breast Cancer

Published
2023

8. Supplementary Figure 8 from Identification of Alternative Splicing Markers for Breast Cancer

Author

Sherif Abou Elela, Claudine Rancourt, Benoit Chabot, Raymund J. Wellinger, Panagiotis Prinos, Karine Tremblay, Jean-Francois Lucier, Philippe Thibault, Jean-Philippe Brosseau, Daniel Gendron, Mathieu Durand, Ulrike Froehlich, Elvy Lapointe, Julien Gervais-Bird, ChuShin Koh, Geneviève Dufresne-Martin, Lyna Inkel, Anne Bramard, Roscoe Klinck, and Julian P. Venables

Abstract

Supplementary Figure 8 from Identification of Alternative Splicing Markers for Breast Cancer

Published
2023

9. Splicing arrays reveal novel RBM10 targets, including SMN2 pre-mRNA

Author

Justin G. Roy, Jose M. Knee, Benoit Chabot, Roscoe Klinck, Gustavo Ybazeta, Philippe Thibault, Lincoln Stein, Sarah C. Hunt, Mathieu Durand, Ariane Beauvais, Elvy Lapointe, Julie J. Loiselle, Sarah J. Tessier, Irina Kalatskaya, Rashmi Kothary, and Leslie C. Sutherland

Subjects
0301 basic medicine, RBM10, lcsh:QH426-470, RNA Splicing, Exonic splicing enhancer, RNA-binding protein, SMN1, Biology, Cell Line, 03 medical and health sciences, Exon, Splicing array, RNA Precursors, Cluster Analysis, Humans, lcsh:QH573-671, Molecular Biology, Cancer, Gene knockdown, lcsh:Cytology, Gene Expression Profiling, Alternative splicing, Computational Biology, RNA-Binding Proteins, Reproducibility of Results, Survival of motor neuron, Exons, Fibroblasts, Spinal muscular atrophy, Molecular biology, nervous system diseases, Survival of Motor Neuron 2 Protein, lcsh:Genetics, 030104 developmental biology, RNA splicing, ras Proteins, Research Article, Signal Transduction, SMN2
Abstract

Background RBM10 is an RNA binding protein involved in message stabilization and alternative splicing regulation. The objective of the research described herein was to identify novel targets of RBM10-regulated splicing. To accomplish this, we downregulated RBM10 in human cell lines, using small interfering RNAs, then monitored alternative splicing, using a reverse transcription-PCR screening platform. Results RBM10 knockdown (KD) provoked alterations in splicing events in 10–20% of the pre-mRNAs, most of which had not been previously identified as RBM10 targets. Hierarchical clustering of the genes affected by RBM10 KD revealed good conservation of alternative exon inclusion or exclusion across cell lines. Pathway annotation showed RAS signaling to be most affected by RBM10 KD. Of particular interest was the finding that splicing of SMN pre-mRNA, encoding the survival of motor neuron (SMN) protein, was influenced by RBM10 KD. Inhibition of RBM10 resulted in preferential expression of the full-length, exon 7 retaining, SMN transcript in four cancer cell lines and one normal skin fibroblast cell line. SMN protein is expressed from two genes, SMN1 and SMN2, but the SMN1 gene is homozygously disrupted in people with spinal muscular atrophy; as a consequence, all of the SMN that is expressed in people with this disease is from the SMN2 gene. Expression analyses using primary fibroblasts from control, carrier and spinal muscle atrophy donors demonstrated that RBM10 KD resulted in preferential expression of the full-length, exon 7 retaining, SMN2 transcript. At the protein level, upregulation of the full-length SMN2 was also observed. Re-expression of RBM10, in a stable RBM10 KD cancer cell line, correlated with a reversion of the KD effect, demonstrating specificity. Conclusion Our work has not only expanded the number of pre-mRNA targets for RBM10, but identified RBM10 as a novel regulator of SMN2 alternative inclusion. Electronic supplementary material The online version of this article (doi:10.1186/s12867-017-0096-x) contains supplementary material, which is available to authorized users.

Published
2017

10. Molecular diagnosis of muscular diseases in outpatient clinics

Author

Serge Gravel, Elaine Gravel, Pierre-Étienne Jacques, Paula J. Waters, Marianne Doyon, Sandrine Larue, Caroline Buote, Lydia Marcoux, Sébastien Chénier, Amelie Nadeau, Sébastien Lévesque, Fanny Thuriot, and Elvy Lapointe

Subjects
RYR1, medicine.medical_specialty, business.industry, Muscle weakness, Muscle disorder, Internal medicine, Gene panel, medicine, Outpatient clinic, Neurology (clinical), Medical diagnosis, Family history, medicine.symptom, business, Genetics (clinical), Exome sequencing
Abstract

ObjectiveTo evaluate the diagnostic yield of an 89-gene panel in a large cohort of patients with suspected muscle disorders and to compare the diagnostic yield of gene panel and exome sequencing approaches.MethodsWe tested 1,236 patients from outpatient clinics across Canada using a gene panel and performed exome sequencing for 46 other patients with sequential analysis of 89 genes followed by all mendelian genes. Sequencing and analysis were performed in patients with muscle weakness or symptoms suggestive of a muscle disorder and showing at least 1 supporting clinical laboratory.ResultsWe identified a molecular diagnosis in 187 (15.1%) of the 1,236 patients tested with the 89-gene panel. Diagnoses were distributed across 40 different genes, but 6 (DMD, RYR1, CAPN3, PYGM, DYSF, and FKRP) explained about half of all cases. Cardiac anomalies, positive family history, age 1,000 IU/L were all associated with increased diagnostic yield. Exome sequencing identified a diagnosis in 10 (21.7%) of the 46 patients tested. Among these, 3 were attributed to genes not included in the 89-gene panel. Despite differences in median coverage, only 1 of the 187 diagnoses that were identified on gene panel in the 1,236 patients could have been potentially missed if exome sequencing had been performed instead.ConclusionsOur study supports the use of gene panel testing in patients with suspected muscle disorders from outpatient clinics. It also shows that exome sequencing has a low risk of missing diagnoses compared with gene panel, while potentially increasing the diagnostic yield of patients with muscle disorders.

Published
2020

11. Transiently depleting RNPS1 leads to perdurable changes in alternative splicing

Author

Mathieu Durand, Alexandre Cloutier, Johanne Toutant, Benoit Chabot, Barbier J, Philippe Thibault, and Elvy Lapointe

Subjects
0303 health sciences, Mutation, Alternative splicing, Regulator, Biology, medicine.disease_cause, Exon skipping, Cell biology, 03 medical and health sciences, Splicing factor, Exon, 0302 clinical medicine, RNA splicing, medicine, sense organs, Gene, 030217 neurology & neurosurgery, 030304 developmental biology
Abstract

While robust regulatory mechanisms are expected to control the production of splice variants that confer distinct functions, a low level of stochasticity may be tolerated. To investigate stringency of regulation, we followed changes in the splicing of 192 alternative cassette exons after growth of cancer-derived HCT116 cells and embryonic colonocytes. In both cell lines approximately 15% of alternative splicing events changed by more than 10 percentage points over a 42-day period. We then carried out a cycle of transient depletions targeting RNPS1, a splicing regulator implicated in genomic stability. For alternative splicing units not regulated by RNPS1, the level of splicing changes was similar to the stochastic value obtained after normal growth. However, the frequency of perdurable changes was at least twice that value for splicing events regulated by RNPS1. A swap allele assay performed on four RNPS1-responsive units that underwent splicing changes indicated the presence of mutations mediating this effect. Specifically, a T to C mutation in a RNPS1-responsive exon of ADARB1 confered exon skipping. Our results suggest that fluctuations in the level of a splicing regulator preferentially impact the integrity of genes encoding transcripts that are regulated by this splicing factor to produce perdurable changes in alternative splicing. We discuss the potential implication of this process in human evolution.

Published
2018

12. Hypoxia leads to significant changes in alternative splicing and elevated expression of CLK splice factor kinases in PC3 prostate cancer cells

Author

Ian D. Wilson, Elvy Lapointe, Kasper M.A. Rouschop, Elizabeth Bowler, Sean Porazinski, Mathieu Durand, Michael Ladomery, Philippe Thibault, John T. Hancock, Simon Uzor, Radiotherapie, and RS: GROW - R2 - Basic and Translational Cancer Biology

Subjects
0301 basic medicine, Male, Cancer Research, PROTEINS, Apoptosis, CLK1, CARCINOMA-CELLS, Splice factors, Biology, SRPK1, Protein Serine-Threonine Kinases, CLK3, lcsh:RC254-282, 03 medical and health sciences, Exon, 0302 clinical medicine, DU145, Cell Line, Tumor, MULTIPLE, BINDING, Genetics, Humans, BREAST-CANCER, splice, TG003, Promoter Regions, Genetic, Hypoxia, GENE-EXPRESSION, Prostate cancer, Kinase, Splice factor kinases, Alternative splicing, Prostatic Neoplasms, RNA-Binding Proteins, Protein-Tyrosine Kinases, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Cell biology, Gene Expression Regulation, Neoplastic, 030104 developmental biology, TARGET, Oncology, 030220 oncology & carcinogenesis, Multigene Family, RNA splicing, INHIBITORS, RESISTANCE, Research Article
Abstract

Background Mounting evidence suggests that one of the ways that cells adapt to hypoxia is through alternative splicing. The aim of this study was firstly to examine the effect of hypoxia on the alternative splicing of cancer associated genes using the prostate cancer cell line PC3 as a model. Secondly, the effect of hypoxia on the expression of several regulators of splicing was examined. Methods PC3 cells were grown in 1% oxygen in a hypoxic chamber for 48 h, RNA extracted and sent for high throughput PCR analysis at the RNomics platform at the University of Sherbrooke, Canada. Genes whose exon inclusion rate PSI (ψ) changed significantly were identified, and their altered exon inclusion rates verified by RT-PCR in three cell lines. The expression of splice factors and splice factor kinases in response to hypoxia was examined by qPCR and western blotting. The splice factor kinase CLK1 was inhibited with the benzothiazole TG003. Results In PC3 cells the exon inclusion rate PSI (ψ) was seen to change by > 25% in 12 cancer-associated genes; MBP, APAF1, PUF60, SYNE2, CDC42BPA, FGFR10P, BTN2A2, UTRN, RAP1GDS1, PTPN13, TTC23 and CASP9 (caspase 9). The expression of the splice factors SRSF1, SRSF2, SRSF3, SAM68, HuR, hnRNPA1, and of the splice factor kinases SRPK1 and CLK1 increased significantly in hypoxia. We also observed that the splice factor kinase CLK3, but not CLK2 and CLK4, was also induced in hypoxic DU145 prostate, HT29 colon and MCF7 breast cancer cell lines. Lastly, we show that the inhibition of CLK1 in PC3 cells with the benzothiazole TG003 increased expression of the anti-apoptotic isoform caspase 9b. Conclusions Significant changes in alternative splicing of cancer associated genes occur in prostate cancer cells in hypoxic conditions. The expression of several splice factors and splice factor kinases increases during hypoxia, in particular the Cdc-like splice factor kinases CLK1 and CLK3. We suggest that in hypoxia the elevated expression of these regulators of splicing helps cells adapt through alternative splicing of key cancer-associated genes. We suggest that the CLK splice factor kinases could be targeted in cancers in which hypoxia contributes to resistance to therapy. Electronic supplementary material The online version of this article (10.1186/s12885-018-4227-7) contains supplementary material, which is available to authorized users.

Published
2018

13. Tumor microenvironment–associated modifications of alternative splicing

Author

Roscoe Klinck, Panagiotis Prinos, Jean-François Lucier, Daniel Garneau, Hanad Nwilati, Philippe Thibault, Mathieu Durand, Daniel Gendron, Jean-Philippe Brosseau, Sonia Couture, Jean-Pierre Perreault, Elvy Lapointe, Benoit Chabot, and Sherif Abou-Elela

Subjects
Gene Expression, RNA-binding protein, Laser Capture Microdissection, Biology, Cell Line, Tumor, Gene expression, Tumor Microenvironment, medicine, Humans, Protein Isoforms, RNA, Messenger, Molecular Biology, Ovarian Neoplasms, Tumor microenvironment, Alternative splicing, RNA-Binding Proteins, Cancer, Epithelial Cells, Articles, medicine.disease, Repressor Proteins, Alternative Splicing, Organ Specificity, RNA splicing, Cancer research, Female, RNA Splice Sites, RNA Splicing Factors, Stromal Cells, Ovarian cancer, Minigene
Abstract

Pre-mRNA alternative splicing is modified in cancer, but the origin and specificity of these changes remain unclear. Here, we probed ovarian tumors to identify cancer-associated splicing isoforms and define the mechanism by which splicing is modified in cancer cells. Using high-throughput quantitative PCR, we monitored the expression of splice variants in laser-dissected tissues from ovarian tumors. Surprisingly, changes in alternative splicing were not limited to the tumor tissues but were also found in the tumor microenvironment. Changes in the tumor-associated splicing events were found to be regulated by splicing factors that are differentially expressed in cancer tissues. Overall, ∼20% of the alternative splicing events affected by the down-regulation of the splicing factors QKI and RBFOX2 were altered in the microenvironment of ovarian tumors. Together, our results indicate that the tumor microenvironment undergoes specific changes in alternative splicing orchestrated by a limited number of splicing factors.

Published
2013

14. Global profiling of alternative RNA splicing events provides insights into molecular differences between various types of hepatocellular carcinoma

Author

Victoria E. S. Armero, Martin Bisaillon, Jean-Pierre Perreault, Marie-Pier Tremblay, Elvy Lapointe, Maude Tremblay-Létourneau, Andréa Allaire, Camille Martenon-Brodeur, Simon Boudreault, Mathieu Durand, Michelle S. Scott, and Philippe Thibault

Subjects
0301 basic medicine, RNA Splicing Factors, Hepatitis B virus, Carcinoma, Hepatocellular, RNA splicing, Computational biology, Biology, Transcriptome, 03 medical and health sciences, RNA interference, Genetics, Cluster Analysis, Humans, Viral Regulatory and Accessory Proteins, RNA, Messenger, Gene, Hepatitis C virus, Gene Expression Profiling, Alternative splicing, Liver Neoplasms, RNA, High-Throughput Nucleotide Sequencing, Reproducibility of Results, Gene dysregulation, Hepatitis B, Hepatitis C, digestive system diseases, Gene expression profiling, Gene Expression Regulation, Neoplastic, Alternative Splicing, 030104 developmental biology, Trans-Activators, Liver cancer, Biotechnology, Research Article
Abstract

Background Dysregulations in alternative splicing (AS) patterns have been associated with many human diseases including cancer. In the present study, alterations to the global RNA splicing landscape of cellular genes were investigated in a large-scale screen from 377 liver tissue samples using high-throughput RNA sequencing data. Results Our study identifies modifications in the AS patterns of transcripts encoded by more than 2500 genes such as tumor suppressor genes, transcription factors, and kinases. These findings provide insights into the molecular differences between various types of hepatocellular carcinoma (HCC). Our analysis allowed the identification of 761 unique transcripts for which AS is misregulated in HBV-associated HCC, while 68 are unique to HCV-associated HCC, 54 to HBV&HCV-associated HCC, and 299 to virus-free HCC. Moreover, we demonstrate that the expression pattern of the RNA splicing factor hnRNPC in HCC tissues significantly correlates with patient survival. We also show that the expression of the HBx protein from HBV leads to modifications in the AS profiles of cellular genes. Finally, using RNA interference and a reverse transcription-PCR screening platform, we examined the implications of cellular proteins involved in the splicing of transcripts involved in apoptosis and demonstrate the potential contribution of these proteins in AS control. Conclusions This study provides the first comprehensive portrait of global changes in the RNA splicing signatures that occur in hepatocellular carcinoma. Moreover, these data allowed us to identify unique signatures of genes for which AS is misregulated in the different types of HCC. Electronic supplementary material The online version of this article (doi:10.1186/s12864-016-3029-z) contains supplementary material, which is available to authorized users.

Published
2016

15. Global Profiling of the Cellular Alternative RNA Splicing Landscape during Virus-Host Interactions

Author

Victoria E. S. Armero, Martin Bisaillon, Maude Tremblay-Létourneau, Mathieu Durand, Simon Boudreault, Elvy Lapointe, Camille Martenon-Brodeur, Guy Lemay, Jean-Michel Garant, Marie-Pier Tremblay, Marie Caron, Jean-Pierre Perreault, Michelle S. Scott, and Philippe Thibault

Subjects
0301 basic medicine, Proteomics, RNA splicing, Exonic splicing enhancer, lcsh:Medicine, RNA-binding protein, Biochemistry, Exon, Mice, 0302 clinical medicine, lcsh:Science, Mammalian orthoreovirus 3, Genetics, Multidisciplinary, Genome, Messenger RNA, RNA sequencing, Exons, Post-transcriptional modification, Nucleic acids, RNA editing, 030220 oncology & carcinogenesis, Host-Pathogen Interactions, Sequence Analysis, Research Article, Biology, Research and Analysis Methods, Microbiology, 03 medical and health sciences, Sequence Motif Analysis, Virology, DNA-binding proteins, Animals, Humans, Gene Regulation, Amino Acid Sequence, RNA, Messenger, Molecular Biology Techniques, Sequencing Techniques, Molecular Biology, Sequence Analysis, RNA, Alternative splicing, lcsh:R, Intron, Biology and Life Sciences, Proteins, Molecular Sequence Annotation, Fibroblasts, Regulatory Proteins, Alternative Splicing, 030104 developmental biology, Gene Ontology, RNA processing, RNA, lcsh:Q, Gene expression, Viral Transmission and Infection, Transcription Factors
Abstract

Alternative splicing (AS) is a central mechanism of genetic regulation which modifies the sequence of RNA transcripts in higher eukaryotes. AS has been shown to increase both the variability and diversity of the cellular proteome by changing the composition of resulting proteins through differential choice of exons to be included in mature mRNAs. In the present study, alterations to the global RNA splicing landscape of cellular genes upon viral infection were investigated using mammalian reovirus as a model. Our study provides the first comprehensive portrait of global changes in the RNA splicing signatures that occur in eukaryotic cells following infection with a human virus. We identify 240 modified alternative splicing events upon infection which belong to transcripts frequently involved in the regulation of gene expression and RNA metabolism. Using mass spectrometry, we also confirm modifications to transcript-specific peptides resulting from AS in virus-infected cells. These findings provide additional insights into the complexity of virus-host interactions as these splice variants expand proteome diversity and function during viral infection.

Published
2016

16. Proteins Associated with the Exon Junction Complex Also Control the Alternative Splicing of Apoptotic Regulators

Author

Sonia Couture, Mathieu Durand, Johanne Toutant, Elvy Lapointe, Benoit Chabot, Lulzim Shkreta, Hervé Le Hir, Roscoe Klinck, Philippe Thibault, Sherif Abou Elela, Laetitia Michelle, Daniel Garneau, Panagiotis Prinos, Alexandre Cloutier, and Daniel Gendron

Subjects
bcl-X Protein, Exonic splicing enhancer, Apoptosis, Biology, DEAD-box RNA Helicases, RNA interference, Humans, RNA, Messenger, Molecular Biology, Messenger RNA, Alternative splicing, Nuclear Proteins, RNA-Binding Proteins, RNA, EIF4A3, Exons, Articles, Cell Biology, Molecular biology, Cell biology, Alternative Splicing, HEK293 Cells, Ribonucleoproteins, Eukaryotic Initiation Factor-4A, RNA splicing, Spliceosomes, Exon junction complex, RNA Interference, Apoptosis Regulatory Proteins, Carrier Proteins, Co-Repressor Proteins, HeLa Cells
Abstract

Several apoptotic regulators, including Bcl-x, are alternatively spliced to produce isoforms with opposite functions. We have used an RNA interference strategy to map the regulatory landscape controlling the expression of the Bcl-x splice variants in human cells. Depleting proteins known as core (Y14 and eIF4A3) or auxiliary (RNPS1, Acinus, and SAP18) components of the exon junction complex (EJC) improved the production of the proapoptotic Bcl-x(S) splice variant. This effect was not seen when we depleted EJC proteins that typically participate in mRNA export (UAP56, Aly/Ref, and TAP) or that associate with the EJC to enforce nonsense-mediated RNA decay (MNL51, Upf1, Upf2, and Upf3b). Core and auxiliary EJC components modulated Bcl-x splicing through different cis-acting elements, further suggesting that this activity is distinct from the established EJC function. In support of a direct role in splicing control, recombinant eIF4A3, Y14, and Magoh proteins associated preferentially with the endogenous Bcl-x pre-mRNA, interacted with a model Bcl-x pre-mRNA in early splicing complexes, and specifically shifted Bcl-x alternative splicing in nuclear extracts. Finally, the depletion of Y14, eIF4A3, RNPS1, SAP18, and Acinus also encouraged the production of other proapoptotic splice variants, suggesting that EJC-associated components are important regulators of apoptosis acting at the alternative splicing level.

Published
2012

17. Alternative splicing of SYK regulates mitosis and cell survival

Author

Elvy Lapointe, Karine Tremblay, Jean-Philippe Brosseau, Marianne Boivin, Jean-Pierre Perreault, Daniel Gendron, Benoit Chabot, Julien Gervais-Bird, Raymund J. Wellinger, Philippe Thibault, Sonia Couture, Hanad Nwilati, Panagiotis Prinos, Daniel Garneau, Mathieu Durand, Roscoe Klinck, Sherif Abou Elela, and Jean-François Lucier

Subjects
Epidermal Growth Factor, Cell Survival, Cell growth, Alternative splicing, Intracellular Signaling Peptides and Proteins, Mitosis, Syk, Apoptosis, Protein-Tyrosine Kinases, Biology, Cell biology, Alternative Splicing, Gene Expression Regulation, Structural Biology, Cell Line, Tumor, Cancer cell, RNA splicing, biology.protein, Cancer research, Humans, Syk Kinase, Molecular Biology, Gene, Platelet-derived growth factor receptor
Abstract

Most human genes produce multiple mRNA isoforms through alternative splicing. However, the biological relevance of most splice variants remains unclear. In this study, we evaluated the functional impact of alternative splicing in cancer cells. We modulated the splicing pattern of 41 cancer-associated splicing events and scored the effects on cell growth, viability and apoptosis, identifying three isoforms essential for cell survival. Specifically, changing the splicing pattern of the spleen tyrosine kinase gene (SYK) impaired cell-cycle progression and anchorage-independent growth. Notably, exposure of cancer cells to epithelial growth factor modulated the SYK splicing pattern to promote the pro-survival isoform that is associated with cancer tissues in vivo. The data suggest that splicing of selected genes is specifically modified during tumor development to allow the expression of isoforms that promote cancer cell survival.

Published
2011

18. High-throughput quantification of splicing isoforms

Author

Jean-François Lucier, Jean-Pierre Perreault, Julien Gervais-Bird, Elvy Lapointe, Karine Tremblay, Mathieu Durand, Daniel Gendron, Jean-Philippe Brosseau, and Sherif Abou Elela

Subjects
Genetics, Base Sequence, Alternative splicing, Intron, Exonic splicing enhancer, Method, RNA, Biology, Polymerase Chain Reaction, Deep sequencing, Gene expression profiling, Alternative Splicing, Exon, RNA splicing, Humans, RNA Splice Sites, RNA, Messenger, Molecular Biology, DNA Primers
Abstract

Most human messenger RNAs (mRNAs) are alternatively spliced and many exhibit disease-specific splicing patterns. However, the contribution of most splicing events to the development and maintenance of human diseases remains unclear. As the contribution of alternative splicing events to diagnosis and prognosis is becoming increasingly recognized, it becomes important to develop precise methods to quantify the abundance of these isoforms in clinical samples. Here we present a pipeline for real-time PCR annotation of splicing events (RASE) that allows accurate identification of a large number of splicing isoforms in human tissues. The RASE automatically designed specific primer pairs for 81% of all alternative splicing events in the NCBI build 36 database. Experimentally, the majority of the RASE designed primers resulted in isoform-specific amplification suitable for quantification in human cell lines or in formalin-fixed, paraffin-embedded (FFPE) RNA extract. Using this pipeline it is now possible to rapidly identify splicing isoform signatures in different types of human tissues or to validate complete sets of data generated by microarray expression profiling and deep sequencing techniques.

Published
2009

19. Cancer-associated regulation of alternative splicing

Author

Karine Tremblay, Ulrike Froehlich, Lyna Inkel, Elvy Lapointe, Sherif Abou Elela, Sonia Couture, ChuShin Koh, Panagiotis Prinos, Claudine Rancourt, Anne Bramard, Julian P. Venables, Jean-François Lucier, Benoit Chabot, Philippe Thibault, Roscoe Klinck, Mathieu Durand, and Julien Gervais-Bird

Subjects
Amino Acid Motifs, Breast Neoplasms, RNA-binding protein, Protein degradation, Biology, Exon, Structural Biology, Cell Line, Tumor, Neoplasms, Gene expression, Humans, Molecular Biology, Cell Proliferation, Ovarian Neoplasms, Regulation of gene expression, Binding Sites, Gene Expression Profiling, Alternative splicing, RNA-Binding Proteins, Exons, Sequence Analysis, DNA, Cell biology, Gene Expression Regulation, Neoplastic, Gene expression profiling, Alternative Splicing, RNA splicing, Female
Abstract

Alternative splicing of pre-mRNA increases the diversity of protein functions. Here we show that about half of all active alternative splicing events in ovarian and breast tissues are changed in tumors, and many seem to be regulated by a single factor; sequence analysis revealed binding sites for the RNA binding protein FOX2 downstream of one-third of the exons skipped in cancer. High-resolution analysis of FOX2 binding sites defined the precise positions relative to alternative exons at which the protein may function as either a silencer or an enhancer. Most of the identified targets were shifted in the same direction by FOX2 depletion in cell lines as they were in breast and ovarian cancer tissues. Notably, we found expression of FOX2 itself is downregulated in ovarian cancer and its splicing is altered in breast cancer samples. These results suggest that the decreased expression of FOX2 in cancer tissues modulates splicing and controls proliferation.

Published
2009

20. Multiple and Specific mRNA Processing Targets for the Major Human hnRNP Proteins

Author

Sonia Couture, Sherif Abou Elela, Julian P. Venables, Benoit Chabot, Anne Bramard, Elvy Lapointe, Eric Paquet, Panagiotis Prinos, Valérie Watier, Lyna Inkel, ChuShin Koh, Jean-François Lucier, Mathieu Durand, Ulrike Froehlich, Julien Gervais-Bird, Karine Tremblay, and Roscoe Klinck

Subjects
viruses, Amino Acid Motifs, genetic processes, Exonic splicing enhancer, Down-Regulation, Biology, Heterogeneous ribonucleoprotein particle, Polymerase Chain Reaction, environment and public health, Heterogeneous-Nuclear Ribonucleoproteins, RNA interference, Cell Line, Tumor, Gene expression, RNA Precursors, Humans, Molecular Biology, Gene, Ribonucleoprotein, Genetics, Alternative splicing, Articles, Cell Biology, Cell biology, Alternative Splicing, RNA splicing, health occupations
Abstract

Alternative splicing is a key mechanism regulating gene expression, and it is often used to produce antagonistic activities particularly in apoptotic genes. Heterogeneous nuclear ribonucleoparticle (hnRNP) proteins form a family of RNA-binding proteins that coat nascent pre-mRNAs. Many but not all major hnRNP proteins have been shown to participate in splicing control. The range and specificity of hnRNP protein action remain poorly documented, even for those affecting splice site selection. We used RNA interference and a reverse transcription-PCR screening platform to examine the implications of 14 of the major hnRNP proteins in the splicing of 56 alternative splicing events in apoptotic genes. Out of this total of 784 alternative splicing reactions tested in three human cell lines, 31 responded similarly to a knockdown in at least two different cell lines. On the other hand, the impact of other hnRNP knockdowns was cell line specific. The broadest effects were obtained with hnRNP K and C, two proteins whose role in alternative splicing had not previously been firmly established. Different hnRNP proteins affected distinct sets of targets with little overlap even between closely related hnRNP proteins. Overall, our study highlights the potential contribution of all of these major hnRNP proteins in alternative splicing control and shows that the targets for individual hnRNP proteins can vary in different cellular contexts.

Published
2008

21. Transcriptome-wide analysis of alternative RNA splicing events in Epstein-Barr virus-associated gastric carcinomas

Author

Maude Tremblay-Létourneau, Cyntia Duval, Simon Boudreault, Elvy Lapointe, Victoria E. S. Armero, Marie-Pier Tremblay, Andréa Allaire, Camille Martenon-Brodeur, Jean-Pierre Perreault, Martin Bisaillon, Mathieu Durand, Michelle S. Scott, and Philippe Thibault

Subjects
0301 basic medicine, Epstein-Barr Virus Infections, Herpesvirus 4, Human, RNA splicing, Molecular biology, lcsh:Medicine, Artificial Gene Amplification and Extension, Biochemistry, Polymerase Chain Reaction, Transcriptome, Sequencing techniques, 0302 clinical medicine, Adenocarcinomas, Medicine and Health Sciences, Small interfering RNAs, RNA, Neoplasm, RNA, Small Interfering, lcsh:Science, Regulation of gene expression, Multidisciplinary, RNA sequencing, Gene Expression Regulation, Neoplastic, Nucleic acids, Oncology, Gene Knockdown Techniques, 030220 oncology & carcinogenesis, RNA Splicing Factors, Protein Binding, Research Article, Computational biology, Adenocarcinoma, Biology, Carcinomas, 03 medical and health sciences, Stomach Neoplasms, Gastrointestinal Tumors, Genetics, Humans, RNA, Messenger, Non-coding RNA, Gene, Transcription factor, Biology and life sciences, Gene Expression Profiling, lcsh:R, Alternative splicing, Reproducibility of Results, Cancers and Neoplasms, RNA, Survival Analysis, Gene regulation, Research and analysis methods, Gene expression profiling, Alternative Splicing, Gastric Cancer, HEK293 Cells, Molecular biology techniques, 030104 developmental biology, Epstein-Barr Virus Nuclear Antigens, RNA processing, lcsh:Q, Gene expression
Abstract

Multiple human diseases including cancer have been associated with a dysregulation in RNA splicing patterns. In the current study, modifications to the global RNA splicing landscape of cellular genes were investigated in the context of Epstein-Barr virus-associated gastric cancer. Global alterations to the RNA splicing landscape of cellular genes was examined in a large-scale screen from 295 primary gastric adenocarcinomas using high-throughput RNA sequencing data. RT-PCR analysis, mass spectrometry, and co-immunoprecipitation studies were also used to experimentally validate and investigate the differential alternative splicing (AS) events that were observed through RNA-seq studies. Our study identifies alterations in the AS patterns of approximately 900 genes such as tumor suppressor genes, transcription factors, splicing factors, and kinases. These findings allowed the identification of unique gene signatures for which AS is misregulated in both Epstein-Barr virus-associated gastric cancer and EBV-negative gastric cancer. Moreover, we show that the expression of Epstein–Barr nuclear antigen 1 (EBNA1) leads to modifications in the AS profile of cellular genes and that the EBNA1 protein interacts with cellular splicing factors. These findings provide insights into the molecular differences between various types of gastric cancer and suggest a role for the EBNA1 protein in the dysregulation of cellular AS.

Published
2017

22. RBFOX1 Cooperates with MBNL1 to Control Splicing in Muscle, Including Events Altered in Myotonic Dystrophy Type 1

Author

Elvy Lapointe, Giovanni Meola, Angélique Fourrier, Mathieu Durand, Johanne Toutant, Nicolas Sergeant, Geneviève Gourdon, Roscoe Klinck, Jack Puymirat, Denis Furling, Benoit Chabot, Marie Laure Caillet-Boudin, Philippe Thibault, Université de Sherbrooke (UdeS), Université Laval [Québec] (ULaval), Institut de médecine predictive et de recherche thérapeutique (IMPRT), Institut Pasteur de Lille, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP)-Centre Régional de Lutte contre le Cancer Oscar Lambret [Lille] (UNICANCER/Lille), Université de Lille-UNICANCER-Université de Lille-UNICANCER-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille, Droit et Santé-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), Imagine - Institut des maladies génétiques (IMAGINE - U1163), Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM), Università degli Studi di Milano = University of Milan (UNIMI), Institut de Myologie, Université Pierre et Marie Curie - Paris 6 (UPMC)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Association française contre les myopathies (AFM-Téléthon)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Université Lille Nord de France (COMUE)-UNICANCER-Université Lille Nord de France (COMUE)-UNICANCER-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille, Droit et Santé-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), Università degli Studi di Milano [Milano] (UNIMI), Université de Sherbrooke [Sherbrooke], Université Laval, Institut de médecine predictive et de recherche thérapeutique ( IMPRT ), Réseau International des Instituts Pasteur ( RIIP ) -Réseau International des Instituts Pasteur ( RIIP ) -CRLCC Oscar Lambret-Institut National de la Santé et de la Recherche Médicale ( INSERM ) -Université de Lille, Droit et Santé-Centre Hospitalier Régional Universitaire [Lille] ( CHRU Lille ), Imagine - Institut des maladies génétiques ( IMAGINE - U1163 ), Centre National de la Recherche Scientifique ( CNRS ) -Institut National de la Santé et de la Recherche Médicale ( INSERM ) -Université Paris Descartes - Paris 5 ( UPD5 ), Università degli studi di Milano [Milano], Université Pierre et Marie Curie - Paris 6 ( UPMC ) -Commissariat à l'énergie atomique et aux énergies alternatives ( CEA ) -Assistance publique - Hôpitaux de Paris (AP-HP)-Association française contre les myopathies ( AFM-Téléthon ) -Institut National de la Santé et de la Recherche Médicale ( INSERM ) -Centre National de la Recherche Scientifique ( CNRS ), and HAL UPMC, Gestionnaire

Subjects
Male, Research Facilities, lcsh:Medicine, Gene Expression, RNA-binding protein, Nervous System, Biochemistry, Myoblasts, chemistry.chemical_compound, Medicine and Health Sciences, Myotonic Dystrophy, MBNL1, Gene Regulatory Networks, lcsh:Science, Genetics, [SDV.MHEP] Life Sciences [q-bio]/Human health and pathology, Multidisciplinary, RNA-Binding Proteins, Genomics, Middle Aged, Phenotypes, Neurology, Molecular Machines, RNA splicing, Female, Biological Cultures, RNA Splicing Factors, Anatomy, Research Article, Adult, Genetically modified mouse, musculoskeletal diseases, congenital, hereditary, and neonatal diseases and abnormalities, Mice, Transgenic, Biology, Research and Analysis Methods, Myotonic dystrophy, Cell Line, Model Organisms, [ SDV.MHEP ] Life Sciences [q-bio]/Human health and pathology, Congenital Disorders, medicine, Animals, Humans, Molecular Biology Techniques, Muscle, Skeletal, Molecular Biology, Gene, lcsh:R, Alternative splicing, Biology and Life Sciences, Computational Biology, medicine.disease, Motor System, Mice, Inbred C57BL, Alternative Splicing, chemistry, Specimen Preparation and Treatment, Animal Studies, RNA, lcsh:Q, Animal Genetics, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology, Neuroscience
Abstract

International audience; With the goal of identifying splicing alterations in myotonic dystrophy 1 (DM1) tissues that may yield insights into targets or mechanisms, we have surveyed mis-splicing events in three systems using a RT-PCR screening and validation platform. First, a transgenic mouse model expressing CUG-repeats identified splicing alterations shared with other mouse models of DM1. Second, using cell cultures from human embryonic muscle, we noted that DM1-associated splicing alterations were significantly enriched in cytoskeleton (e.g. SORBS1, TACC2, TTN, ACTN1 and DMD) and channel (e.g. KCND3 and TRPM4) genes. Third, of the splicing alterations occurring in adult DM1 tissues, one produced a dominant negative variant of the splicing regulator RBFOX1. Notably, half of the splicing events controlled by MBNL1 were co-regulated by RBFOX1, and several events in this category were mis-spliced in DM1 tissues. Our results suggest that reduced RBFOX1 activity in DM1 tissues may amplify several of the splicing alterations caused by the deficiency in MBNL1.

Published
2014

23. Redirecting splicing with bifunctional oligonucleotides

Author

Jean-Pierre Perreault, Lulzim Shkreta, Andrée-Anne Lamarche, Eric Paquet, Elvy Lapointe, Sherif Abou Elela, Philippe Thibault, Daniel Gendron, Jean-François Lucier, Jean-Philippe Brosseau, and Benoit Chabot

Subjects
Genetics, Splice site mutation, Alternative splicing, Exonic splicing enhancer, Oligonucleotides, Computational biology, Exons, Biology, Oligonucleotides, Antisense, Cell Line, Ribonucleoprotein, U1 Small Nuclear, DNA-Binding Proteins, Exon, Alternative Splicing, SnRNP binding, RNA splicing, Humans, Methods Online, splice, RNA Splice Sites, Algorithms, Ribonucleoprotein, HeLa Cells
Abstract

Ectopic modulators of alternative splicing are important tools to study the function of splice variants and for correcting mis-splicing events that cause human diseases. Such modulators can be bifunctional oligonucleotides made of an antisense portion that determines target specificity, and a non-hybridizing tail that recruits proteins or RNA/protein complexes that affect splice site selection (TOSS and TOES, respectively, for targeted oligonucleotide silencer of splicing and targeted oligonucleotide enhancer of splicing). The use of TOSS and TOES has been restricted to a handful of targets. To generalize the applicability and demonstrate the robustness of TOSS, we have tested this approach on more than 50 alternative splicing events. Moreover, we have developed an algorithm that can design active TOSS with a success rate of 80%. To produce bifunctional oligonucleotides capable of stimulating splicing, we built on the observation that binding sites for TDP-43 can stimulate splicing and improve U1 snRNP binding when inserted downstream from 5′ splice sites. A TOES designed to recruit TDP-43 improved exon 7 inclusion in SMN2. Overall, our study shows that bifunctional oligonucleotides can redirect splicing on a variety of genes, justifying their inclusion in the molecular arsenal that aims to alter the production of splice variants.

Published
2013

24. RBFOX2 is an important regulator of mesenchymal tissue-specific splicing in both normal and cancer tissues

Author

Jamal Tazi, François Rousset, Roscoe Klinck, Panagiotis Prinos, Julian P. Venables, Benoit Chabot, Jean-Philippe Brosseau, Mathieu Durand, Sherif Abou Elela, Philippe Thibault, Elvy Lapointe, Gilles Gadea, Karine Tremblay, Jean-François Beaulieu, Institut de Génétique Moléculaire de Montpellier (IGMM), and Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)

Subjects
RNA Splicing Factors, RNA-binding protein, Biology, 03 medical and health sciences, Exon, 0302 clinical medicine, Fetus, Cell Line, Tumor, Humans, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, Molecular Biology, 030304 developmental biology, 0303 health sciences, Reverse Transcriptase Polymerase Chain Reaction, Gene Expression Profiling, Alternative splicing, Mesenchymal stem cell, Computational Biology, RNA-Binding Proteins, Epithelial Cells, Mesenchymal Stem Cells, Cell Biology, Exons, Articles, Molecular biology, Cell biology, Gene expression profiling, Repressor Proteins, Alternative Splicing, Gene Expression Regulation, 030220 oncology & carcinogenesis, RNA splicing, RNA Interference, Tissue-Specific Splicing, HeLa Cells
Abstract

Alternative splicing provides a critical and flexible layer of regulation intervening in many biological processes to regulate the diversity of proteins and impact cell phenotype. To identify alternative splicing differences that distinguish epithelial from mesenchymal tissues, we have investigated hundreds of cassette exons using a high-throughput reverse transcription-PCR (RT-PCR) platform. Extensive changes in splicing were noted between epithelial and mesenchymal tissues in both human colon and ovarian tissues, with many changes from mostly one splice variant to predominantly the other. Remarkably, many of the splicing differences that distinguish normal mesenchymal from normal epithelial tissues matched those that differentiate normal ovarian tissues from ovarian cancer. Furthermore, because splicing profiling could classify cancer cell lines according to their epithelial/mesenchymal characteristics, we used these cancer cell lines to identify regulators for these specific splicing signatures. By knocking down 78 potential splicing factors in five cell lines, we provide an extensive view of the complex regulatory landscape associated with the epithelial and mesenchymal states, thus revealing that RBFOX2 is an important driver of mesenchymal tissue-specific splicing.

Published
2012

25. Identification of alternative splicing markers for breast cancer

Author

Jean-Philippe Brosseau, Anne Bramard, Lyna Inkel, Claudine Rancourt, Daniel Gendron, Sherif Abou Elela, Julien Gervais-Bird, Raymund J. Wellinger, Mathieu Durand, Philippe Thibault, Roscoe Klinck, Julian P. Venables, Geneviève Dufresne-Martin, Elvy Lapointe, Benoit Chabot, Jean-François Lucier, Ulrike Froehlich, Panagiotis Prinos, Karine Tremblay, and ChuShin Koh

Subjects
Adult, Cancer Research, Protein domain, Breast Neoplasms, Disease, Biology, Bioinformatics, Breast cancer, Gene expression, medicine, Biomarkers, Tumor, Humans, Receptor, Gene, Aged, Neoplasm Staging, Aged, 80 and over, Reverse Transcriptase Polymerase Chain Reaction, Alternative splicing, Middle Aged, medicine.disease, Prognosis, Alternative Splicing, Oncology, Receptors, Estrogen, RNA splicing, Female
Abstract

Breast cancer is the most common cause of cancer death among women under age 50 years, so it is imperative to identify molecular markers to improve diagnosis and prognosis of this disease. Here, we present a new approach for the identification of breast cancer markers that does not measure gene expression but instead uses the ratio of alternatively spliced mRNAs as its indicator. Using a high-throughput reverse transcription-PCR–based system for splicing annotation, we monitored the alternative splicing profiles of 600 cancer-associated genes in a panel of 21 normal and 26 cancerous breast tissues. We validated 41 alternative splicing events that significantly differed in breast tumors relative to normal breast tissues. Most cancer-specific changes in splicing that disrupt known protein domains support an increase in cell proliferation or survival consistent with a functional role for alternative splicing in cancer. In a blind screen, a classifier based on the 12 best cancer-associated splicing events correctly identified cancer tissues with 96% accuracy. Moreover, a subset of these alternative splicing events could order tissues according to histopathologic grade, and 5 markers were validated in a further blind set of 19 grade 1 and 19 grade 3 tumor samples. These results provide a simple alternative for the classification of normal and cancerous breast tumor tissues and underscore the putative role of alternative splicing in the biology of cancer. [Cancer Res 2008;68(22):9525–31]

Published
2008

26. ID: 59

Author

Martin Bisaillon, Elvy Lapointe, Simon Boudreault, Guy Lemay, Philippe Thibault, Delphine Lanoie, Mathieu Durand, Véronique Sandekian, and Stéphanie Côté

Subjects
Mutation, viruses, Immunology, Mutagenesis (molecular biology technique), Hematology, Biology, medicine.disease_cause, Biochemistry, Virology, Molecular biology, Reverse genetics, Virus, Oncolytic virus, Interferon, Cancer cell, medicine, Immunology and Allergy, Molecular Biology, Gene, medicine.drug
Abstract

Mammalian reovirus is an oncolytic virus that discriminates between parental and cancer cells. This is due in part to altered interferon-induced antiviral response in cancer cells. However, understanding of viral and cellular determinants involved remains largely incomplete. In our current work, two different approaches were used to identify reovirus variants exhibiting increased interferon sensitivity. (1) Chemical mutagenesis followed by selection of small plaques mutants in the presence of interferon; (2) Selection on interferon-deficient cells in order to relieve the pressure to keep interferon resistance. Virus variants were sequenced and plasmid-based reverse genetics was used to examine the effect of each mutation. A single amino acid substitution in the 2′-O methyltransferase of viral mRNA capping enzyme was responsible for 10–100 fold increased interferon sensitivity for one variant; work is under progress for additional viruses. In parallel, we took advantage of these well genetically-defined viruses to investigate host-cell response using RNA-Seq. A large number of induced genes was observed in wild-type virus-infected cells, to an extent that was not revealed by previously-used approaches. Most induced genes encode sensors or antiviral response determinants (ISG, IFIT, IRF, Mx). They were similarly induced by the wild-type and interferon-sensitive virus. This suggests that altered RNA capping increases virus’ sensitivity to interferon-induced antiviral factors rather than induction of interferon signaling. Similar analysis with other viruses of different interferon sensitivity, in parental and transformed cells, should allow to better comprehend the antiviral response during reovirus infection and could contribute to the design of better oncolytic viruses.

Published
2015

27. Small interfering RNA-mediated reduction in heterogeneous nuclear ribonucleoparticule A1/A2 proteins induces apoptosis in human cancer cells but not in normal mortal cell lines

Author

Caroline, Patry, Louise, Bouchard, Pascale, Labrecque, Daniel, Gendron, Bruno, Lemieux, Johanne, Toutant, Elvy, Lapointe, Raymund, Wellinger, and Benoit, Chabot

Subjects
Cell Line, Tumor, Heterogeneous Nuclear Ribonucleoprotein A1, Neoplasms, Heterogeneous-Nuclear Ribonucleoprotein Group A-B, Molecular Sequence Data, Humans, Apoptosis, Epithelial Cells, Amino Acid Sequence, Fibroblasts, RNA, Small Interfering, Immunohistochemistry, HeLa Cells
Abstract

To prevent their recognition as DNA breaks, the ends of linear chromosomes are organized into telomeres, which are made of proteins bound to telomere-specific, double-stranded repeats and to single-stranded DNA extensions, the G-tails. The mammalian heterogeneous nuclear ribonucleoparticule A1 and A2 proteins can bind with high affinity to such G-tails. Moreover, previous work established that in certain mouse cells a severe reduction in the level of A1 is associated with shortened telomeric repeat tracts, and restoring A1 expression increases telomere length. Here, we document that the expression of A1/A2 proteins is elevated in a variety of human cancers, whereas A1/A2 expression is lower or absent in normal tissues. To determine whether the status of A1/A2 proteins could be improved from cancer markers to cancer targets, we used small interfering RNA-mediated RNA interference to elicit a reduction in A1/A2 proteins in a variety of human cell lines. We show that this treatment provoked specific and rapid cell death by apoptosis in cell lines derived from cervical, colon, breast, ovarian, and brain cancers. Cancer cell lines that lack p53 or express a defective p53 protein were equally sensitive to a small interfering RNA-mediated decrease in A1/A2 expression. The reduction in A1/A2 levels in HeLa cells was associated with a change in the distribution of the lengths of G-tails, an event not observed when apoptosis was induced with staurosporine. Remarkably, comparable decreases in the expression of A1/A2 in several mortal human fibroblastic and epithelial cell lines did not promote cell death. Thus, manipulating the level and activity of A1/A2 proteins may constitute a potent and specific approach in the treatment of human cancers of various origins.

Published
2003

28. [Untitled]

Author

Normand Després, Elvy Lapointe, Tatsuo Senshu, Henri A Ménard, Maximillian Lora, Annemarie van der Heijden, Walther J. van Venrooij, and Erik R. Vossenaar

Subjects
030203 arthritis & rheumatology, 0303 health sciences, biology, business.industry, Autoantibody, Citrullination, Vimentin, 3. Good health, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine.anatomical_structure, Rheumatology, Antigen, chemistry, Immunology, biology.protein, Citrulline, Medicine, Antibody, Mutated citrullinated vimentin, Synovial membrane, business, 030304 developmental biology
Abstract

Antibodies directed to the Sa antigen are highly specific for rheumatoid arthritis (RA) and can be detected in approximately 40% of RA sera. The antigen, a doublet of protein bands of about 50 kDa, is present in placenta and in RA synovial tissue. Although it has been stated that the Sa antigen is citrullinated vimentin, experimental proof for this claim has never been published. In this study, we investigated the precise nature of the antigen. Peptide sequences that were obtained from highly purified Sa antigen were unique to vimentin. Recombinant vimentin, however, was not recognized by anti-Sa reference sera. In vivo, vimentin is subjected to various post-translational modifications, including citrullination. Since antibodies to citrullinated proteins are known to be highly specific for RA, we investigated whether Sa is citrullinated and found that Sa indeed is citrullinated vimentin. Anti-Sa antibodies thus belong to the family of anticitrullinated protein/peptide antibodies. The presence of the Sa antigen in RA synovial tissue, and the recent observation that vimentin is citrullinated in dying human macrophages, make citrullinated vimentin an interesting candidate autoantigen in RA and may provide new insights into the potential role of citrullinated synovial antigens and the antibodies directed to them in the pathophysiology of RA.

Published
2004

29. [Untitled]

Author

A.G. Van Der Heijden, Henri A Ménard, Erik R. Vossenaar, Albert J.W. Zendman, Tatsuo Senshu, N. Depres, Maximillian Lora, Elvy Lapointe, and W. J. Van Venrooij

Subjects
0303 health sciences, medicine.medical_specialty, biology, business.industry, Vimentin, medicine.disease, Rheumatology, 03 medical and health sciences, 0302 clinical medicine, Antigen, 030220 oncology & carcinogenesis, Internal medicine, Rheumatoid arthritis, Immunology, biology.protein, medicine, business, 030304 developmental biology
Published
2004

30. [Untitled]

Author

Elvy Lapointe, Moulay Driss Rochdi, Henri A. Ménard, and Zhi J Zhou

Subjects
biology, business.industry, Citrullination, Vimentin, medicine.disease, chemistry.chemical_compound, Immune system, Rheumatology, chemistry, Antigen, Rheumatoid arthritis, Immunology, medicine, biology.protein, Citrulline, Antibody, business, Hapten
Abstract

The Sa system is a recently described immune system that has a specificity and positive predictive value of nearly 100% for rheumatoid arthritis (RA) in Asia, Europe and the Americas. Its sensitivity of 30-40% suggests that it identifies a subset of RA patients. Anti-Sa antibodies are present from disease onset and are predictive of disease severity. The immune reactants are plentiful in the target tissue: antigen is present in the synovium, IgG antibody in the fluid. Immunologically, Sa is a hapten-carrier antigen in which vimentin is the carrier and citrulline is the hapten. The citrullination of vimentin is closely related to apoptosis, and citrullinated vimentin is extremely sensitive to digestion by the ubiquitous calpains. Nevertheless, Sa is found in only a few cell lines. Calpastatin, the natural specific inhibitor of calpains, is also a RA-associated, albeit non-specific, autoimmune system. Is it possible that calpain-related apoptotic pathways could be prominent in cells containing Sa? The task is to reconcile the specificity of Sa/citrullinated proteins in a multifactorial and polygenic disease such as RA.

Published
2000

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