Genetic and epigenetic factors shaping the transcriptome in multiple sclerosis and its animal model
Author: Bergman, Petra
Date: 2014-12-12
Location: CMM lecture hall, L8:04, Karolinska University Hospital, Solna
Time: 09.00
Department: Inst för klinisk neurovetenskap / Dept of Clinical Neuroscience
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Thesis (1.803Mb)
Abstract
Multiple Sclerosis (MS) is a chronic inflammatory and demyelinating disease of the central nervous system. Susceptibility to develop MS is determined by both genetic and environmental factors. The epigenome resides in the interface of genetic and environmental factors thereby shaping the transcriptome. Furthermore, epigenetic mechanisms have been implicated in the etiology of MS. Epigenetics refers to changes in gene expression that are not a result of alterations in DNA sequence. Epigenetic mechanisms include histone modifications, DNA methylation and non-coding RNAs. MicroRNAs (miRNAs), small non-coding RNAs known to regulate gene expression, have been found dysregulated in most diseases, including MS.
This thesis utilizes an animal model of MS, experimental autoimmune encephalomyelitis (EAE), to investigate epigenetic mechanisms and miRNAs as mediators and modulators of autoimmunity. Through the use of a knockout mouse model we demonstrated that histone demethylase Kdm3a is not a ‘master regulator’ of EAE. However, we demonstrated that a genetic variant in the rat Kdm3a affects nucleotide secondary structure and potentially protein translation. The role of epigenetic mechanisms was demonstrated by the identification of parent-of-origin dependent effects (such as genomic imprinting) in the inheritance of EAE.
Using next generation sequencing we established a miRNA profile that associates with pathogenic immune activation in rat EAE, with potential miRNA-depended regulation of several important functions in the development of autoimmunity. Furthermore, by investigating the potential of circulating miRNAs as biomarkers of MS, we identified miR-150 as a putative novel biomarker for MS in the cerebrospinal fluid.
Collectively, we show that modulation of the transcriptome by epigenetic mechanisms and miRNAs can explain more of the unknown underlying factors regulating susceptibility to autoimmune diseases and that dysregulated miRNAs can serve as markers of ongoing pathogenesis
This thesis utilizes an animal model of MS, experimental autoimmune encephalomyelitis (EAE), to investigate epigenetic mechanisms and miRNAs as mediators and modulators of autoimmunity. Through the use of a knockout mouse model we demonstrated that histone demethylase Kdm3a is not a ‘master regulator’ of EAE. However, we demonstrated that a genetic variant in the rat Kdm3a affects nucleotide secondary structure and potentially protein translation. The role of epigenetic mechanisms was demonstrated by the identification of parent-of-origin dependent effects (such as genomic imprinting) in the inheritance of EAE.
Using next generation sequencing we established a miRNA profile that associates with pathogenic immune activation in rat EAE, with potential miRNA-depended regulation of several important functions in the development of autoimmunity. Furthermore, by investigating the potential of circulating miRNAs as biomarkers of MS, we identified miR-150 as a putative novel biomarker for MS in the cerebrospinal fluid.
Collectively, we show that modulation of the transcriptome by epigenetic mechanisms and miRNAs can explain more of the unknown underlying factors regulating susceptibility to autoimmune diseases and that dysregulated miRNAs can serve as markers of ongoing pathogenesis
List of papers:
I. A silent exonic SNP in Kdm3a affects nucleic acids structure but does not regulate experimental autoimmune encephalomyelitis. Gillett A, Bergman P, Parsa R, Bremges A, Giegerich R, Jagodic M. PLoS One. 2013 Dec 3;8(12).
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II. Parent-of-origin effects implicate epigenetic regulation of experimental autoimmune encephalomyelitis and identify imprinted Dlk1 as a novel risk gene. Stridh P, Ruhrmann S, Bergman P, Thessén Hedreul M, Flytzani S, Beyeen AD, Gillett A, Krivosija N, Öckinger J, Ferguson-Smith AC, Jagodic M. PLoS Genetics. 2014 Mar 27;10(3).
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III. Next-generation sequencing identifies microRNAs that associate with pathogenic autoimmune neuroinflammation in rats. Bergman P, James T, Kular L, Ruhrmann S, Kramarova T, Kvist A, Supic G, Gillett A, Pivarcsi A, Jagodic M. Journal of Immunology. 2013 Apr 15;190(8):4066-75.
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IV. Profiling of circulating microRNAs in cerebrospinal fluid identifies miR-150 as a putative novel biomarker for Multiple Sclerosis. Bergman P, Piket E, Khademi M, James T, Lindén M, Kockum I, Brundin L, Piehl F, Olsson T, Jagodic M. [Manuscript]
I. A silent exonic SNP in Kdm3a affects nucleic acids structure but does not regulate experimental autoimmune encephalomyelitis. Gillett A, Bergman P, Parsa R, Bremges A, Giegerich R, Jagodic M. PLoS One. 2013 Dec 3;8(12).
Fulltext (DOI)
Pubmed
View record in Web of Science®
II. Parent-of-origin effects implicate epigenetic regulation of experimental autoimmune encephalomyelitis and identify imprinted Dlk1 as a novel risk gene. Stridh P, Ruhrmann S, Bergman P, Thessén Hedreul M, Flytzani S, Beyeen AD, Gillett A, Krivosija N, Öckinger J, Ferguson-Smith AC, Jagodic M. PLoS Genetics. 2014 Mar 27;10(3).
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Next-generation sequencing identifies microRNAs that associate with pathogenic autoimmune neuroinflammation in rats. Bergman P, James T, Kular L, Ruhrmann S, Kramarova T, Kvist A, Supic G, Gillett A, Pivarcsi A, Jagodic M. Journal of Immunology. 2013 Apr 15;190(8):4066-75.
Fulltext (DOI)
Pubmed
View record in Web of Science®
IV. Profiling of circulating microRNAs in cerebrospinal fluid identifies miR-150 as a putative novel biomarker for Multiple Sclerosis. Bergman P, Piket E, Khademi M, James T, Lindén M, Kockum I, Brundin L, Piehl F, Olsson T, Jagodic M. [Manuscript]
Institution: Karolinska Institutet
Supervisor: Jagodic, Maja
Issue date: 2014-11-21
Rights:
Publication year: 2014
ISBN: 978-91-7549-721-1
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