Your search keyword '"Rasko John EJ"' showing total 3 results

1. Ctcf haploinsufficiency mediates intron retention in a tissue-specific manner.

Author

Alharbi AB, Schmitz U, Marshall AD, Vanichkina D, Nagarajah R, Vellozzi M, Wong JJ, Bailey CG, and Rasko JE

Subjects

Animals, Binding Sites, CCCTC-Binding Factor metabolism, Genotype, Mice, Mice, Knockout, Models, Biological, Organ Specificity, Protein Binding, Transcriptome, Alternative Splicing, CCCTC-Binding Factor genetics, Gene Expression Regulation, Haploinsufficiency, Introns

Abstract

CTCF is a master regulator of gene transcription and chromatin organisation with occupancy at thousands of DNA target sites genome-wide. While CTCF is essential for cell survival, CTCF haploinsufficiency is associated with tumour development and hypermethylation. Increasing evidence demonstrates CTCF as a key player in several mechanisms regulating alternative splicing (AS), however, the genome-wide impact of Ctcf dosage on AS has not been investigated. We examined the effect of Ctcf haploinsufficiency on gene expression and AS in five tissues from Ctcf hemizygous ( Ctcf +/- ) mice. Reduced Ctcf levels caused distinct tissue-specific differences in gene expression and AS in all tissues. An increase in intron retention (IR) was observed in Ctcf +/- liver and kidney. In liver, this specifically impacted genes associated with cytoskeletal organisation, splicing and metabolism. Strikingly, most differentially retained introns were short, with a high GC content and enriched in Ctcf binding sites in their proximal upstream genomic region. This study provides new insights into the effects of CTCF haploinsufficiency on organ transcriptomes and the role of CTCF in AS regulation.

Published

2021

2. DNA methylation/hydroxymethylation regulate gene expression and alternative splicing during terminal granulopoiesis.

Author

Gao D, Pinello N, Nguyen TV, Thoeng A, Nagarajah R, Holst J, Rasko JE, and Wong JJ

Subjects

Animals, Cell Differentiation genetics, Computational Biology methods, CpG Islands, Enhancer Elements, Genetic, Epigenesis, Genetic, Gene Expression Profiling, Gene Expression Regulation, Developmental, Introns, Male, Mice, Alternative Splicing, DNA Methylation, Granulocytes cytology, Granulocytes metabolism, Myelopoiesis genetics

Abstract

Aim: To determine whether epigenetic modifications of DNA regulate gene expression and alternative splicing during terminal granulopoiesis., Materials & Methods: Using whole genome bisulfite sequencing, reduced representation hydroxymethylation profiling and mRNA sequencing, we compare changes in DNA methylation, DNA hydroxymethylation, gene expression and alternative splicing in mouse promyelocytes and granulocytes., Results & Conclusion: We show reduced DNA methylation at the promoters and enhancers of key granulopoiesis genes, indicating a regulatory role in the activation of lineage-specific genes during differentiation. Notably, increased DNA hydroxymethylation in exons is associated with preferential inclusion of specific exons in granulocytes. Overall, DNA methylation and hydroxymethylation changes at particular genomic loci may play specific roles in gene regulation or alternative splicing during terminal granulopoiesis. Data deposition: Whole genome bisulfite sequencing of mouse promyelocytes and granulocytes: Gene Expression Omnibus (GSE85517); mRNA sequencing of mouse promyelocytes and granulocytes: Gene Expression Omnibus (GSE48307); reduced representation 5-hydroxymethylation profiling of mouse promyelocytes and granulocytes: Bioproject (PRJNA495696).

Published

2019

3. Widespread aberrant alternative splicing despite molecular remission in chronic myeloid leukemia patients

Author

Susan J. Clark, Phuc-Loi Luu, Timothy P. Hughes, Shalima S. Nair, Veronika Petrova, Charles G. Bailey, Deborah L. White, Susan Branford, Ulf Schmitz, John E.J. Rasko, Verity A Saunders, Justin J.-L. Wong, Geoffray Monteuuis, Jaynish S. Shah, Bijay Dhungel, Cynthia Metierre, Ali G. Turhan, Schmitz, Ulf, Shah, Jaynish S, Dhungel, Bijay P, Monteuuis, Geoffray, Luu, Phuc Loi, Petrova, Veronika, Metierre, Cynthia, Nair, Shalima S, Bailey, Charles G, Saunders, Verity A, Turhan, Ali G, White, Deborah L, Branford, Susan, Clark, Susan J, Hughes, Timothy P, Wong, Justin JL, and Rasko, John EJ

Subjects

0301 basic medicine, Cancer Research, Bisulfite sequencing, lcsh:RC254-282, intron retention, Article, alternative splicing, 03 medical and health sciences, 0302 clinical medicine, hemic and lymphatic diseases, medicine, cancer, Epigenetics, transcriptomic complexity, CML, Epigenomics, DNA methylation, epigenetics, histone modifications, business.industry, Alternative splicing, Intron, Myeloid leukemia, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, BCR-ABL1, Minimal residual disease, Leukemia, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, RNA splicing, Cancer research, business

Abstract

Simple Summary This study provides new insights into the changing transcriptomic and epigenomic landscapes in chronic myeloid leukaemia (CML) patients who are receiving tyrosine kinase inhibitor (TKI) therapy (often life-long). Alternative splicing, vital for cellular homeostasis, is dysregulated in human cancers. Remarkably, we found abnormal splicing patterns despite molecular remission in peripheral blood cells of chronic-phase CML patients. This phenomenon is independent of the TKI drug used and in striking contrast to the normalisation of gene expression and DNA methylation patterns. Abstract Vast transcriptomics and epigenomics changes are characteristic of human cancers, including leukaemia. At remission, we assume that these changes normalise so that omics-profiles resemble those of healthy individuals. However, an in-depth transcriptomic and epigenomic analysis of cancer remission has not been undertaken. A striking exemplar of targeted remission induction occurs in chronic myeloid leukaemia (CML) following tyrosine kinase inhibitor (TKI) therapy. Using RNA sequencing and whole-genome bisulfite sequencing, we profiled samples from chronic-phase CML patients at diagnosis and remission and compared these to healthy donors. Remarkably, our analyses revealed that abnormal splicing distinguishes remission samples from normal controls. This phenomenon is independent of the TKI drug used and in striking contrast to the normalisation of gene expression and DNA methylation patterns. Most remarkable are the high intron retention (IR) levels that even exceed those observed in the diagnosis samples. Increased IR affects cell cycle regulators at diagnosis and splicing regulators at remission. We show that aberrant splicing in CML is associated with reduced expression of specific splicing factors, histone modifications and reduced DNA methylation. Our results provide novel insights into the changing transcriptomic and epigenomic landscapes of CML patients during remission. The conceptually unanticipated observation of widespread aberrant alternative splicing after remission induction warrants further exploration. These results have broad implications for studying CML relapse and treating minimal residual disease.

Published

2020