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2. Modules, networks and systems medicine for understanding disease and aiding diagnosis

Author

Gustafsson, Mika, Nestor, Colm E, Zhang, Huan, Barabási, Albert-László, Baranzini, Sergio, Brunak, Sören, Chung, Kian Fan, Federoff, Howard J, Gavin, Anne-Claude, Meehan, Richard R, Picotti, Paola, Pujana, Miguel Ángel, Rajewsky, Nikolaus, Smith, Kenneth GC, Sterk, Peter J, Villoslada, Pablo, and Benson, Mikael

Subjects
Biological Sciences, Genetics, Biotechnology, Lung, Obesity, Aetiology, 2.1 Biological and endogenous factors, Generic health relevance, Good Health and Well Being, Clinical Sciences
Abstract

Many common diseases, such as asthma, diabetes or obesity, involve altered interactions between thousands of genes. High-throughput techniques (omics) allow identification of such genes and their products, but functional understanding is a formidable challenge. Network-based analyses of omics data have identified modules of disease-associated genes that have been used to obtain both a systems level and a molecular understanding of disease mechanisms. For example, in allergy a module was used to find a novel candidate gene that was validated by functional and clinical studies. Such analyses play important roles in systems medicine. This is an emerging discipline that aims to gain a translational understanding of the complex mechanisms underlying common diseases. In this review, we will explain and provide examples of how network-based analyses of omics data, in combination with functional and clinical studies, are aiding our understanding of disease, as well as helping to prioritize diagnostic markers or therapeutic candidate genes. Such analyses involve significant problems and limitations, which will be discussed. We also highlight the steps needed for clinical implementation.

Published
2014

6. Cis-acting modifiers of trinucleotide repeat instability

Author

Nestor, Colm Eamonn

Subjects
616.8, QH345 Biochemistry
Abstract

The dynamic expansion of CAG.CTG repeats in otherwise unrelated genes is responsible for a growing number of late-onset progressive disorders, including Huntington disease, myotonic dystrophy type 1 (DM1) and the spinocerebellar ataxias. As toxicity increases with repeat length, the intergenerational expansion of unstable CAG.CTG repeats leads to anticipation, an earlier age-at-onset in successive generations in these disorders. Crucially, disease associated alleles are also somatically unstable and continue to expand throughout the lifetime of the individual. In addition, evidence suggests that c/s-acting elements may be major modifiers of instability. Here it was found that the toxicity of expanded polyQ-encoding CAG.CTG tracts correlates with both the expandability of the underlying CAG.CTG repeat and the GC content of the genomic DNA flanking sequences. PolyQ toxicity does not correlate with properties of mRNA or protein sequences, or with polyQ location within the gene or protein. These data thus strongly suggest that the observed inter-locus differences in polyQ. toxicity are not mediated by protein context effects, but that the rate at which somatic expansion of the DNA delivers proteins to their cytotoxic state is a critical factor in expanded polyQ-disease age-at-onset. Using human and mouse cell lines transgenic for an expanded human DM1 locus, it was found that an expanded CTGhz repeat alone is not sufficient for instability. Moreover, by generating mouse cell lines stably transfected with both a stable and unstable expanded CTG[142] repeat, it was possible to assay the effect of cis-elements on these two loci in the same cell line over time. The sequences flanking the unstable repeat were hypermethylated, whereas the sequences flanking the stable transgenic repeat were unmethylated, suggesting an association between CpG methylation and repeat instability. However, methylation of the stable transgenic repeat failed to induce instability. In addition, it was revealed that transcription of an expanded repeat was not sufficient to induce instability. Analysis of genome-wide CAG.CTG microsatellite instability revealed a significant correlation between flanking sequence GC content and microsatellite mutability. This association was most significant for short (< 7 repeats) microsatellites and for those microsatellites located within exons. However, comparison of microsatellite lengths in the human and chimpanzee genomes revealed a complex association between flanking GC content and misalignment mutations at microsatellite loci, suggesting that the modifying effect of flanking GC content on expanded repeat instability may be specific to the expanded repeat disease loci In conclusion, this work suggests that the rate of somatic repeat expansion is a major modifier of disease progression, and that cis-acting elements in turn, modify repeat instability.

Published
2008
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8. Correction to: A validated single-cell-based strategy to identify diagnostic and therapeutic targets in complex diseases

Author

Gawel, Danuta R., Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengnér, Malin, Björkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Karlsson, Jan-Erik, Köpsen, Mattias, Lee, Eun Jung, Lentini, Antonio, Li, Xinxiu, Magnusson, Mattias, Martínez-Enguita, David, Matussek, Andreas, Nestor, Colm E., Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alex K., Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, and Benson, Mikael

Published
2020
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10. A validated single-cell-based strategy to identify diagnostic and therapeutic targets in complex diseases

Author

Gawel, Danuta R., Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengnér, Malin, Björkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Karlsson, Jan-Erik, Köpsen, Mattias, Lee, Eun Jung, Lentini, Antonio, Li, Xinxiu, Magnusson, Mattias, Martínez-Enguita, David, Matussek, Andreas, Nestor, Colm E., Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alex K., Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, and Benson, Mikael

Published
2019
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12. RNA-sequencing and mass-spectrometry proteomic time-series analysis of T-cell differentiation identified multiple splice variants models that predicted validated protein biomarkers in inflammatory diseases

Author

Magnusson, Rasmus, primary, Rundquist, Olof, additional, Kim, Min Jung, additional, Hellberg, Sandra, additional, Na, Chan Hyun, additional, Benson, Mikael, additional, Gomez-Cabrero, David, additional, Kockum, Ingrid, additional, Tegnér, Jesper N., additional, Piehl, Fredrik, additional, Jagodic, Maja, additional, Mellergård, Johan, additional, Altafini, Claudio, additional, Ernerudh, Jan, additional, Jenmalm, Maria C., additional, Nestor, Colm E., additional, Kim, Min-Sik, additional, and Gustafsson, Mika, additional

Published
2022
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13. Progesterone Inhibits the Establishment of Activation-Associated Chromatin During T(H)1 Differentiation

Author

Rundquist, Olof, Nestor, Colm, Jenmalm, Maria, Hellberg, Sandra, Gustafsson, Mika, Rundquist, Olof, Nestor, Colm, Jenmalm, Maria, Hellberg, Sandra, and Gustafsson, Mika

Abstract

T(H)1-mediated diseases such as multiple sclerosis (MS) and rheumatoid arthritis (RA) improve during pregnancy, coinciding with increasing levels of the pregnancy hormone progesterone (P4), highlighting P4 as a potential mediator of this immunomodulation. Here, we performed detailed characterization of how P4 affects the chromatin and transcriptomic landscape during early human T(H)1 differentiation, utilizing both ATAC-seq and RNA-seq. Time series analysis of the earlier events (0.5-24 hrs) during T(H)1 differentiation revealed that P4 counteracted many of the changes induced during normal differentiation, mainly by downregulating key regulatory genes and their upstream transcription factors (TFs) involved in the initial T-cell activation. Members of the AP-1 complex such as FOSL1, FOSL2, JUN and JUNB were particularly affected, in both in promoters and in distal regulatory elements. Moreover, the changes induced by P4 were significantly enriched for disease-associated changes related to both MS and RA, revealing several shared upstream TFs, where again JUN was highlighted to be of central importance. Our findings support an immune regulatory role for P4 during pregnancy by impeding T-cell activation, a crucial checkpoint during pregnancy and in T-cell mediated diseases, and a central event prior to T-cell lineage commitment. Indeed, P4 is emerging as a likely candidate involved in disease modulation during pregnancy and further studies evaluating P4 as a potential treatment option are needed., Funding Agencies|Swedish Foundation for Strategic ResearchSwedish Foundation for Strategic Research [SB16-0011]

Published
2022
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14. CD4(+) T-cell DNA methylation changes during pregnancy significantly correlate with disease-associated methylation changes in autoimmune diseases

Author

Badam, Tejaswi, Hellberg, Sandra, Bhai Mehta, Ratnesh, Lechner-Scott, Jeannette, Lea, Rodney A., Tost, Jorg, Mariette, Xavier, Svensson-Arvelund, Judit, Nestor, Colm, Benson, Mikael, Berg, Göran, Jenmalm, Maria, Gustafsson, Mika, Ernerudh, Jan, Badam, Tejaswi, Hellberg, Sandra, Bhai Mehta, Ratnesh, Lechner-Scott, Jeannette, Lea, Rodney A., Tost, Jorg, Mariette, Xavier, Svensson-Arvelund, Judit, Nestor, Colm, Benson, Mikael, Berg, Göran, Jenmalm, Maria, Gustafsson, Mika, and Ernerudh, Jan

Abstract

Epigenetics may play a central, yet unexplored, role in the profound changes that the maternal immune system undergoes during pregnancy and could be involved in the pregnancy-induced modulation of several autoimmune diseases. We investigated changes in the methylome in isolated circulating CD4(+) T-cells in non-pregnant and pregnant women, during the 1(st) and 2(nd) trimester, using the Illumina Infinium Human Methylation 450K array, and explored how these changes were related to autoimmune diseases that are known to be affected during pregnancy. Pregnancy was associated with several hundreds of methylation differences, particularly during the 2(nd) trimester. A network-based modular approach identified several genes, e.g., CD28, FYN, VAV1 and pathways related to T-cell signalling and activation, highlighting T-cell regulation as a central component of the observed methylation alterations. The identified pregnancy module was significantly enriched for disease-associated methylation changes related to multiple sclerosis, rheumatoid arthritis and systemic lupus erythematosus. A negative correlation between pregnancy-associated methylation changes and disease-associated changes was found for multiple sclerosis and rheumatoid arthritis, diseases that are known to improve during pregnancy whereas a positive correlation was found for systemic lupus erythematosus, a disease that instead worsens during pregnancy. Thus, the directionality of the observed changes is in line with the previously observed effect of pregnancy on disease activity. Our systems medicine approach supports the importance of the methylome in immune regulation of T-cells during pregnancy. Our findings highlight the relevance of using pregnancy as a model for understanding and identifying disease-related mechanisms involved in the modulation of autoimmune diseases., Funding Agencies|Swedish Foundation for Strategic ResearchSwedish Foundation for Strategic Research [SB16-0011]; Swedish Research CouncilSwedish Research CouncilEuropean Commission [K2013-61X-22310-01-4, 2015-030807, 2018-02776]; Lions research grant [Liu-2012-01948]

Published
2022
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15. RNA-sequencing and mass-spectrometry proteomic time-series analysis of T-cell differentiation identified multiple splice variants models that predicted validated protein biomarkers in inflammatory diseases

Author

Magnusson, Rasmus, Rundquist, Olof, Kim, Min Jung, Hellberg, Sandra, Na, Chan Hyun, Benson, Mikael, Gomez-Cabrero, David, Kockum, Ingrid, Tegner, Jesper N., Piehl, Fredrik, Jagodic, Maja, Mellergård, Johan, Altafini, Claudio, Ernerudh, Jan, Jenmalm, Maria, Nestor, Colm, Kim, Min-Sik, Gustafsson, Mika, Magnusson, Rasmus, Rundquist, Olof, Kim, Min Jung, Hellberg, Sandra, Na, Chan Hyun, Benson, Mikael, Gomez-Cabrero, David, Kockum, Ingrid, Tegner, Jesper N., Piehl, Fredrik, Jagodic, Maja, Mellergård, Johan, Altafini, Claudio, Ernerudh, Jan, Jenmalm, Maria, Nestor, Colm, Kim, Min-Sik, and Gustafsson, Mika

Abstract

Profiling of mRNA expression is an important method to identify biomarkers but complicated by limited correlations between mRNA expression and protein abundance. We hypothesised that these correlations could be improved by mathematical models based on measuring splice variants and time delay in protein translation. We characterised time-series of primary human naive CD4(+) T cells during early T helper type 1 differentiation with RNA-sequencing and mass-spectrometry proteomics. We performed computational time-series analysis in this system and in two other key human and murine immune cell types. Linear mathematical mixed time delayed splice variant models were used to predict protein abundances, and the models were validated using out-of-sample predictions. Lastly, we re-analysed RNA-seq datasets to evaluate biomarker discovery in five T-cell associated diseases, further validating the findings for multiple sclerosis (MS) and asthma. The new models significantly out-performing models not including the usage of multiple splice variants and time delays, as shown in cross-validation tests. Our mathematical models provided more differentially expressed proteins between patients and controls in all five diseases. Moreover, analysis of these proteins in asthma and MS supported their relevance. One marker, sCD27, was validated in MS using two independent cohorts for evaluating response to treatment and disease prognosis. In summary, our splice variant and time delay models substantially improved the prediction of protein abundance from mRNA expression in three different immune cell types. The models provided valuable biomarker candidates, which were further validated in MS and asthma., Funding Agencies|Swedish foundation for strategic research; Swedish Cancer Society [SB16-0011]; East Gothia Regional Funding [CAN 2017/625]; ake Wiberg foundation; Neuro Sweden; Swedish Research Council; National Research Foundation of Korea [2015-02575, 2015-03495, 2015-03807, 2016-07108, 2018-02776]; [NRF-2016K1A3A1A47921601]; [2017M3C7A1027472]

Published
2022
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19. CD4+T-cell DNA methylation changes during pregnancy significantly correlate with disease-associated methylation changes in autoimmune diseases

Author

Badam, Tejaswi V., primary, Hellberg, Sandra, additional, Mehta, Ratnesh B., additional, Lechner-Scott, Jeannette, additional, Lea, Rodney A., additional, Tost, Jorg, additional, Mariette, Xavier, additional, Svensson-Arvelund, Judit, additional, Nestor, Colm E., additional, Benson, Mikael, additional, Berg, Göran, additional, Jenmalm, Maria C., additional, Gustafsson, Mika, additional, and Ernerudh, Jan, additional

Published
2021
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20. RNA-Sequencing And Mass-Spectrometry Proteomic Time-Series Analysis of T-Cell Differentiation Identified Multiple Splice Variants Models That Predicted Validated Protein Biomarkers In Inflammatory Diseases

Author

Magnusson, Rasmus, primary, Rundquist, Olof, additional, Kim, Min Jung, additional, Hellberg, Sandra, additional, Na, Chan Hyun, additional, Benson, Mikael, additional, Gomez-Cabrero, David, additional, Kockum, Ingrid, additional, Tegnér, Jesper, additional, Piehl, Fredrik, additional, Jagodic, Maja, additional, Mellergård, Johan, additional, Altafini, Claudio, additional, Ernerudh, Jan, additional, Jenmalm, Maria C., additional, Nestor, Colm E., additional, Kim, Min-Sik, additional, and Gustafsson, Mika, additional

Published
2021
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21. CD4+ T-cell DNA methylation changes during pregnancy significantly correlate with disease-associated methylation changes in autoimmune diseases

Author

Badam, Tejaswi V., Hellberg, Sandra, Mehta, Ratnesh B., Lechner-Scott, Jeannette, Lea, Rodney A., Tost, Jorg, Mariette, Xavier, Svensson-Arvelund, Judit, Nestor, Colm E., Benson, Mikael, Berg, Göran, Jenmalm, Maria C., Gustafsson, Mika, Ernerudh, Jan, Badam, Tejaswi V., Hellberg, Sandra, Mehta, Ratnesh B., Lechner-Scott, Jeannette, Lea, Rodney A., Tost, Jorg, Mariette, Xavier, Svensson-Arvelund, Judit, Nestor, Colm E., Benson, Mikael, Berg, Göran, Jenmalm, Maria C., Gustafsson, Mika, and Ernerudh, Jan

Abstract

Epigenetics may play a central, yet unexplored, role in the profound changes that the maternal immune system undergoes during pregnancy and could be involved in the pregnancy-induced modulation of several autoimmune diseases. We investigated changes in the methylome in isolated circulating CD4+ T-cells in non-pregnant and pregnant women, during the 1st and 2nd trimester, using the Illumina Infinium Human Methylation 450K array, and explored how these changes were related to autoimmune diseases that are known to be affected during pregnancy. Pregnancy was associated with several hundreds of methylation differences, particularly during the 2nd trimester. A network-based modular approach identified several genes, e.g., CD28, FYN, VAV1 and pathways related to T-cell signalling and activation, highlighting T-cell regulation as a central component of the observed methylation alterations. The identified pregnancy module was significantly enriched for disease-associated methylation changes related to multiple sclerosis, rheumatoid arthritis and systemic lupus erythematosus. A negative correlation between pregnancy-associated methylation changes and disease-associated changes was found for multiple sclerosis and rheumatoid arthritis, diseases that are known to improve during pregnancy whereas a positive correlation was found for systemic lupus erythematosus, a disease that instead worsens during pregnancy. Thus, the directionality of the observed changes is in line with the previously observed effect of pregnancy on disease activity. Our systems medicine approach supports the importance of the methylome in immune regulation of T-cells during pregnancy. Our findings highlight the relevance of using pregnancy as a model for understanding and identifying disease-related mechanisms involved in the modulation of autoimmune diseases. Abbreviations: BMIQ: beta-mixture quantile dilation; DMGs: differentially methylated genes

Published
2021

22. Mapping DNA Methylation in Mammals: The State of the Art

Author

Lentini, Antonio, Nestor, Colm, Lentini, Antonio, and Nestor, Colm

Abstract

A complete understanding of the dynamics and function of cytosine modifications in mammalian biology is lacking. Central to achieving this understanding is the availability of techniques that permit sensitive and specific genome-wide mapping of DNA modifications in mammalian DNA. The last decade has seen the development of a vast arsenal of novel profiling approaches enabling epigeneticists to tackle research questions that were previously out of reach. Here, we review the techniques currently available for profiling DNA modifications in mammals, discuss their strengths and weaknesses, and speculate on the future direction of DNA modification profiling technologies.

Published
2021
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23. Analyzing DNA-Immunoprecipitation Sequencing Data

Author

Lentini, Antonio, Nestor, Colm, Lentini, Antonio, and Nestor, Colm

Abstract

Genome-wide profiling of DNA modifications has advanced our understanding of epigenetics in mammalian biology. Whereas several different methods for profiling DNA modifications have been developed over the last decade, DNA-immunoprecipitation coupled with high-throughput sequencing (DIP-seq) has proven a particularly adaptable and cost-effective approach. DIP-seq was especially valuable in initial studies of the more recently discovered DNA modifications, 5-hydroxymethylcytosine, 5-formylcytosine, and 5-carboxylcytosine. As an enrichment-based profiling method, analysis of DIP-seq data poses several unique, and often unappreciated bioinformatics challenges, which if unmet, can profoundly affect the results and conclusions drawn from the data. Here, we outline key considerations in both the design of DIP-seq assays and analysis of DIP-seq data to ensure the accuracy and reproducibility of DIP-seq based studies.

Published
2021
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24. CD4+ T-cell DNA methylation changes during pregnancy significantly correlate with disease-associated methylation changes in autoimmune diseases.

Author

Badam, Tejaswi V., Hellberg, Sandra, Mehta, Ratnesh B., Lechner-Scott, Jeannette, Lea, Rodney A., Tost, Jorg, Mariette, Xavier, Svensson-Arvelund, Judit, Nestor, Colm E., Benson, Mikael, Berg, Göran, Jenmalm, Maria C., Gustafsson, Mika, and Ernerudh, Jan

Subjects
AUTOIMMUNE diseases, DNA methylation, MONONUCLEAR leukocytes, T helper cells, SYSTEMIC lupus erythematosus, T cells
Abstract

Epigenetics may play a central, yet unexplored, role in the profound changes that the maternal immune system undergoes during pregnancy and could be involved in the pregnancy-induced modulation of several autoimmune diseases. We investigated changes in the methylome in isolated circulating CD4+ T-cells in non-pregnant and pregnant women, during the 1st and 2nd trimester, using the Illumina Infinium Human Methylation 450K array, and explored how these changes were related to autoimmune diseases that are known to be affected during pregnancy. Pregnancy was associated with several hundreds of methylation differences, particularly during the 2nd trimester. A network-based modular approach identified several genes, e.g., CD28, FYN, VAV1 and pathways related to T-cell signalling and activation, highlighting T-cell regulation as a central component of the observed methylation alterations. The identified pregnancy module was significantly enriched for disease-associated methylation changes related to multiple sclerosis, rheumatoid arthritis and systemic lupus erythematosus. A negative correlation between pregnancy-associated methylation changes and disease-associated changes was found for multiple sclerosis and rheumatoid arthritis, diseases that are known to improve during pregnancy whereas a positive correlation was found for systemic lupus erythematosus, a disease that instead worsens during pregnancy. Thus, the directionality of the observed changes is in line with the previously observed effect of pregnancy on disease activity. Our systems medicine approach supports the importance of the methylome in immune regulation of T-cells during pregnancy. Our findings highlight the relevance of using pregnancy as a model for understanding and identifying disease-related mechanisms involved in the modulation of autoimmune diseases. Abbreviations: BMIQ: beta-mixture quantile dilation; DMGs: differentially methylated genes; DMPs: differentially methylated probes; FE: fold enrichment; FDR: false discovery rate; GO: gene ontology; GWAS: genome-wide association studies; MDS: multidimensional scaling; MS: multiple sclerosis; PBMC: peripheral blood mononuclear cells; PBS: phosphate buffered saline; PPI; protein-protein interaction; RA: rheumatoid arthritis; SD: standard deviation; SLE: systemic lupus erythematosus; SNP: single nucleotide polymorphism; TH: CD4+ T helper cell; VIStA: diVIsive Shuffling Approach. [ABSTRACT FROM AUTHOR]

Published
2022
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25. Correction: A validated single-cell-based strategy to identify diagnostic and therapeutic targets in complex diseases (vol 11, 47, 2019)

Author

Gawel, Danuta, Serra I Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengner, Malin, Bjorkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Karlsson, Jan-Erik, Köpsen, Mattias, Jung Lee, Eun Jung, Lentini, Antonio, Li, Xinxiu, Magnusson, Mattias, Martinez, David, Matussek, Andreas, Nestor, Colm, Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alex K., Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, and Benson, Mikael

Subjects
Biologiska vetenskaper, Biological Sciences
Abstract

An amendment to this paper has been published and can be accessed via the original article. Funding Agencies|Nordforsk; Swedish Cancer Foundation [17 0542, 15 0532]; European CommissionEuropean Commission Joint Research Centre [305033]; Swedish Research CouncilSwedish Research Council [2015-02575, 2015-03495, 2015-03807]; Clinical Cancer Research, Jonkoping, Sweden; Torsten Soderberg Foundation; East Gothia Regional Fund

Published
2020

26. No evidence for DNA N-6-methyladenine in mammals

Author

Douvlataniotis, Karolos, Bensberg, Maike, Lentini, Antonio, Gylemo, Björn, and Nestor, Colm

Subjects
Cell- och molekylärbiologi, Cell and Molecular Biology
Abstract

N-6-methyladenine (6mdA) is a widespread DNA modification in bacteria. More recently, 6mdA has also been characterized in mammalian DNA. However, measurements of 6mdA abundance and profiles are often very dissimilar between studies, even when performed on DNA from identical mammalian cell types. Using comprehensive bioinformatics analyses of published data and novel experimental approaches, we reveal that efforts to assay 6mdA in mammals have been severely compromised by bacterial contamination, RNA contamination, technological limitations, and antibody nonspecificity. These complications render 6mdA an exceptionally problematic DNA modification to study and have resulted in erroneous detection of 6mdA in several mammalian systems. Together, our results strongly imply that the evidence published to date is not sufficient to support the presence of 6mdA in mammals. Funding Agencies|Swedish Research CouncilSwedish Research Council [2015-03495]; LiU-Cancer Network [2016-007]; Swedish Cancer SocietySwedish Cancer Society [CAN 2017/625]

Published
2020

27. Additional file 1 of DNA methylation in infants with low and high body fatness

Author

Henriksson, Pontus, Lentini, Antonio, Altmäe, Signe, Brodin, David, Müller, Patrick, Forsum, Elisabet, Nestor, Colm E., and Löf, Marie

Abstract

Additional file 1: Supplementary Figure 1. DNA methylation quality control and pre-processing. (A) Density plot showing expected bi-modal distribution of DNA methylation values in all samples except one (dashed line) (top) and fraction of failed probe positions per sample based on detection P-values (P > 0.01) (bottom). (B) Plot showing the variability cutoff below which probes were excluded from linear regression studies of association (see methods). Supplementary Figure 2. No association between parental phenotype and infant DNA methylation levels. (A) Manhattan plot showing lack of association (FDRADJUSTED = 0.05) between infant DNA methylation levels and maternal homeostatic model assessment insulin resistance (HOMA-IR) score. (B) Manhattan plots showing lack of association (FDRADJUSTED = 0.05) between DNA methylation levels and infant body mass index, infant fat mass index and infant fat-free mass index. (C) Manhattan plots showing lack of association (FDRADJUSTED = 0.05) between DNA methylation levels and paternal body mass index, paternal fat mass index and paternal fat-free mass index.

Published
2020
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30. A validated single-cell-based strategy to identify diagnostic and therapeutic targets in complex diseases

Author

Massachusetts Institute of Technology. Institute for Medical Engineering and Science, Massachusetts Institute of Technology. Department of Chemistry, David H. Koch Institute for Integrative Cancer Research at MIT, Broad Institute of MIT and Harvard, Gawel, Danuta R., Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengnér, Malin, Björkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Karlsson, Jan-Erik, Köpsen, Mattias, Lee, Eun Jung, Lentini, Antonio, Li, Xinxiu, Magnusson, Mattias, Martínez-Enguita, David, Matussek, Andreas, Nestor, Colm E., Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alexander K, Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, Benson, Mikael, Massachusetts Institute of Technology. Institute for Medical Engineering and Science, Massachusetts Institute of Technology. Department of Chemistry, David H. Koch Institute for Integrative Cancer Research at MIT, Broad Institute of MIT and Harvard, Gawel, Danuta R., Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengnér, Malin, Björkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Karlsson, Jan-Erik, Köpsen, Mattias, Lee, Eun Jung, Lentini, Antonio, Li, Xinxiu, Magnusson, Mattias, Martínez-Enguita, David, Matussek, Andreas, Nestor, Colm E., Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alexander K, Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, and Benson, Mikael

Abstract

Background: Genomic medicine has paved the way for identifying biomarkers and therapeutically actionable targets for complex diseases, but is complicated by the involvement of thousands of variably expressed genes across multiple cell types. Single-cell RNA-sequencing study (scRNA-seq) allows the characterization of such complex changes in whole organs. Methods: The study is based on applying network tools to organize and analyze scRNA-seq data from a mouse model of arthritis and human rheumatoid arthritis, in order to find diagnostic biomarkers and therapeutic targets. Diagnostic validation studies were performed using expression profiling data and potential protein biomarkers from prospective clinical studies of 13 diseases. A candidate drug was examined by a treatment study of a mouse model of arthritis, using phenotypic, immunohistochemical, and cellular analyses as read-outs. Results: We performed the first systematic analysis of pathways, potential biomarkers, and drug targets in scRNA-seq data from a complex disease, starting with inflamed joints and lymph nodes from a mouse model of arthritis. We found the involvement of hundreds of pathways, biomarkers, and drug targets that differed greatly between cell types. Analyses of scRNA-seq and GWAS data from human rheumatoid arthritis (RA) supported a similar dispersion of pathogenic mechanisms in different cell types. Thus, systems-level approaches to prioritize biomarkers and drugs are needed. Here, we present a prioritization strategy that is based on constructing network models of disease-associated cell types and interactions using scRNA-seq data from our mouse model of arthritis, as well as human RA, which we term multicellular disease models (MCDMs). We find that the network centrality of MCDM cell types correlates with the enrichment of genes harboring genetic variants associated with RA and thus could potentially be used to prioritize cell types and genes for diagnostics and therapeutics. We validated thi

Published
2020

31. A validated single-cell-based strategy to identify diagnostic and therapeutic targets in complex diseases

Author

Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Chemistry, Broad Institute of MIT and Harvard, Koch Institute for Integrative Cancer Research at MIT, Gawel, Danuta R., Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengnér, Malin, Björkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Karlsson, Jan-Erik, Köpsen, Mattias, Lee, Eun Jung, Lentini, Antonio, Li, Xinxiu, Magnusson, Mattias, Martínez-Enguita, David, Matussek, Andreas, Nestor, Colm E., Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alexander K, Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, Benson, Mikael, Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Chemistry, Broad Institute of MIT and Harvard, Koch Institute for Integrative Cancer Research at MIT, Gawel, Danuta R., Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengnér, Malin, Björkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Karlsson, Jan-Erik, Köpsen, Mattias, Lee, Eun Jung, Lentini, Antonio, Li, Xinxiu, Magnusson, Mattias, Martínez-Enguita, David, Matussek, Andreas, Nestor, Colm E., Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alexander K, Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, and Benson, Mikael

Abstract

Background: Genomic medicine has paved the way for identifying biomarkers and therapeutically actionable targets for complex diseases, but is complicated by the involvement of thousands of variably expressed genes across multiple cell types. Single-cell RNA-sequencing study (scRNA-seq) allows the characterization of such complex changes in whole organs. Methods: The study is based on applying network tools to organize and analyze scRNA-seq data from a mouse model of arthritis and human rheumatoid arthritis, in order to find diagnostic biomarkers and therapeutic targets. Diagnostic validation studies were performed using expression profiling data and potential protein biomarkers from prospective clinical studies of 13 diseases. A candidate drug was examined by a treatment study of a mouse model of arthritis, using phenotypic, immunohistochemical, and cellular analyses as read-outs. Results: We performed the first systematic analysis of pathways, potential biomarkers, and drug targets in scRNA-seq data from a complex disease, starting with inflamed joints and lymph nodes from a mouse model of arthritis. We found the involvement of hundreds of pathways, biomarkers, and drug targets that differed greatly between cell types. Analyses of scRNA-seq and GWAS data from human rheumatoid arthritis (RA) supported a similar dispersion of pathogenic mechanisms in different cell types. Thus, systems-level approaches to prioritize biomarkers and drugs are needed. Here, we present a prioritization strategy that is based on constructing network models of disease-associated cell types and interactions using scRNA-seq data from our mouse model of arthritis, as well as human RA, which we term multicellular disease models (MCDMs). We find that the network centrality of MCDM cell types correlates with the enrichment of genes harboring genetic variants associated with RA and thus could potentially be used to prioritize cell types and genes for diagnostics and therapeutics. We validated thi

Published
2020

35. Progesterone Inhibits the Establishment of Activation-Associated Chromatin During TH1 Differentiation.

Author

Rundquist, Olof, Nestor, Colm E., Jenmalm, Maria C., Hellberg, Sandra, and Gustafsson, Mika

Subjects
PROGESTERONE, CHROMATIN, TIME series analysis, REGULATOR genes, TRANSCRIPTION factors, RHEUMATOID arthritis
Abstract

TH1-mediated diseases such as multiple sclerosis (MS) and rheumatoid arthritis (RA) improve during pregnancy, coinciding with increasing levels of the pregnancy hormone progesterone (P4), highlighting P4 as a potential mediator of this immunomodulation. Here, we performed detailed characterization of how P4 affects the chromatin and transcriptomic landscape during early human TH1 differentiation, utilizing both ATAC-seq and RNA-seq. Time series analysis of the earlier events (0.5-24 hrs) during TH1 differentiation revealed that P4 counteracted many of the changes induced during normal differentiation, mainly by downregulating key regulatory genes and their upstream transcription factors (TFs) involved in the initial T-cell activation. Members of the AP-1 complex such as FOSL1, FOSL2, JUN and JUNB were particularly affected, in both in promoters and in distal regulatory elements. Moreover, the changes induced by P4 were significantly enriched for disease-associated changes related to both MS and RA, revealing several shared upstream TFs, where again JUN was highlighted to be of central importance. Our findings support an immune regulatory role for P4 during pregnancy by impeding T-cell activation, a crucial checkpoint during pregnancy and in T-cell mediated diseases, and a central event prior to T-cell lineage commitment. Indeed, P4 is emerging as a likely candidate involved in disease modulation during pregnancy and further studies evaluating P4 as a potential treatment option are needed. [ABSTRACT FROM AUTHOR]

Published
2022
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36. CD4+T-cell DNA methylation changes during pregnancy significantly correlate with disease-associated methylation changes in autoimmune diseases

Author

Badam, Tejaswi V., Hellberg, Sandra, Mehta, Ratnesh B., Lechner-Scott, Jeannette, Lea, Rodney A., Tost, Jorg, Mariette, Xavier, Svensson-Arvelund, Judit, Nestor, Colm E., Benson, Mikael, Berg, Göran, Jenmalm, Maria C., Gustafsson, Mika, and Ernerudh, Jan

Abstract

ABSTRACTEpigenetics may play a central, yet unexplored, role in the profound changes that the maternal immune system undergoes during pregnancy and could be involved in the pregnancy-induced modulation of several autoimmune diseases. We investigated changes in the methylome in isolated circulating CD4+ T-cells in non-pregnant and pregnant women, during the 1st and 2nd trimester, using the Illumina Infinium Human Methylation 450K array, and explored how these changes were related to autoimmune diseases that are known to be affected during pregnancy. Pregnancy was associated with several hundreds of methylation differences, particularly during the 2nd trimester. A network-based modular approach identified several genes, e.g., CD28, FYN, VAV1 and pathways related to T-cell signalling and activation, highlighting T-cell regulation as a central component of the observed methylation alterations. The identified pregnancy module was significantly enriched for disease-associated methylation changes related to multiple sclerosis, rheumatoid arthritis and systemic lupus erythematosus. A negative correlation between pregnancy-associated methylation changes and disease-associated changes was found for multiple sclerosis and rheumatoid arthritis, diseases that are known to improve during pregnancy whereas a positive correlation was found for systemic lupus erythematosus, a disease that instead worsens during pregnancy. Thus, the directionality of the observed changes is in line with the previously observed effect of pregnancy on disease activity. Our systems medicine approach supports the importance of the methylome in immune regulation of T-cells during pregnancy. Our findings highlight the relevance of using pregnancy as a model for understanding and identifying disease-related mechanisms involved in the modulation of autoimmune diseases.Abbreviations: BMIQ: beta-mixture quantile dilation; DMGs: differentially methylated genes; DMPs: differentially methylated probes; FE: fold enrichment; FDR: false discovery rate; GO: gene ontology; GWAS: genome-wide association studies; MDS: multidimensional scaling; MS: multiple sclerosis; PBMC: peripheral blood mononuclear cells; PBS: phosphate buffered saline; PPI; protein-protein interaction; RA: rheumatoid arthritis; SD: standard deviation; SLE: systemic lupus erythematosus; SNP: single nucleotide polymorphism; TH: CD4+T helper cell; VIStA: diVIsive Shuffling Approach.

Published
2022
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37. MOESM3 of Reduced levels of two modifiers of epigenetic gene silencing, Dnmt3a and Trim28, cause increased phenotypic noise

Author

Whitelaw, Nadia, Suyinn Chong, Morgan, Daniel, Nestor, Colm, Bruxner, Timothy, Ashe, Alyson, Lambley, Eleanore, Meehan, Richard, and Whitelaw, Emma

Abstract

Additional file 3: Figure S1. Promoter characteristics of aberrantly expressed genes in Trim28MommeD9/+ mice. Genome-wide expression analysis (Illumina MouseRef-8 v2.0 Expression BeadChip) was performed using RNA from the livers of 4-week-old male Trim28MommeD9/+ individuals (n = 4) and their wild-type littermates (n = 4). Promoter classification analysis was performed on genes classed as upregulated (n = 59) and downregulated (n = 225) by the GenomeStudio Gene Expression Module (Illumina). (a) Promoters were classified as low (LCP), intermediate (ICP) or high (HCP) CpG density. (b) Promoters were classified as having histone 3 lysine 4 trimethylation (K4), histone 3 lysine 27 trimethylation (K27), both marks (K4 + K27) or neither mark. (PDF 47 KB)

Published
2019
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38. Additional file 3: of A validated single-cell-based strategy to identify diagnostic and therapeutic targets in complex diseases

Author

Gawel, Danuta, Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengnér, Malin, Björkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Jan-Erik Karlsson, Köpsen, Mattias, Lee, Eun, Lentini, Antonio, Xinxiu Li, Magnusson, Mattias, Martínez-Enguita, David, Matussek, Andreas, Nestor, Colm, Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alex, Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, and Benson, Mikael

Abstract

Contains Tables S1–S4. (PDF 79 kb)

Published
2019
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39. Additional file 5: of A validated single-cell-based strategy to identify diagnostic and therapeutic targets in complex diseases

Author

Gawel, Danuta, Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengnér, Malin, Björkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Jan-Erik Karlsson, Köpsen, Mattias, Lee, Eun, Lentini, Antonio, Xinxiu Li, Magnusson, Mattias, Martínez-Enguita, David, Matussek, Andreas, Nestor, Colm, Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alex, Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, and Benson, Mikael

Subjects
musculoskeletal diseases, endocrine system diseases, fungi, population characteristics, human activities
Abstract

Models of 174 diseases based on epigenetic marker enrichments in GWAS genes (excluding rheumatoid arthritis presented in the main text). Compressed folder (ZIP), which can be found as DataS2.zip at: https://figshare.com/articles/DataS2_zip/7976552. (DOCX 14 kb)

Published
2019
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41. Additional file 4: of A validated single-cell-based strategy to identify diagnostic and therapeutic targets in complex diseases

Author

Gawel, Danuta, Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengnér, Malin, Björkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Jan-Erik Karlsson, Köpsen, Mattias, Lee, Eun, Lentini, Antonio, Xinxiu Li, Magnusson, Mattias, Martínez-Enguita, David, Matussek, Andreas, Nestor, Colm, Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alex, Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, and Benson, Mikael

Abstract

Random walk betweenness centrality of cell types for validation of MCDM in joint tissue. Contains supplementary table describing ligand-receptor based centrality analyses. (PDF 115 kb)

Published
2019
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42. Additional file 1: of A validated single-cell-based strategy to identify diagnostic and therapeutic targets in complex diseases

Author

Gawel, Danuta, Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengnér, Malin, Björkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Jan-Erik Karlsson, Köpsen, Mattias, Lee, Eun, Lentini, Antonio, Xinxiu Li, Magnusson, Mattias, Martínez-Enguita, David, Matussek, Andreas, Nestor, Colm, Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alex, Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, and Benson, Mikael

Abstract

Contains Figures S1–S14. (PDF 2063 kb)

Published
2019
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43. A validated single-cell-based strategy to identify diagnostic and therapeutic targets in complex diseases

Author

Gawel, Danuta, Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengner, Malin, Bjorkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Karlsson, Jan-Erik, Köpsén, Mattias, Jung Lee, Eun Jung, Lentini, Antonio, Li, Xinxiu, Magnusson, Mattias, Martinez, David, Matussek, Andreas, Nestor, Colm, Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alex K., Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, Benson, Mikael, Gawel, Danuta, Serra-Musach, Jordi, Lilja, Sandra, Aagesen, Jesper, Arenas, Alex, Asking, Bengt, Bengner, Malin, Bjorkander, Janne, Biggs, Sophie, Ernerudh, Jan, Hjortswang, Henrik, Karlsson, Jan-Erik, Köpsén, Mattias, Jung Lee, Eun Jung, Lentini, Antonio, Li, Xinxiu, Magnusson, Mattias, Martinez, David, Matussek, Andreas, Nestor, Colm, Schäfer, Samuel, Seifert, Oliver, Sonmez, Ceylan, Stjernman, Henrik, Tjärnberg, Andreas, Wu, Simon, Åkesson, Karin, Shalek, Alex K., Stenmarker, Margaretha, Zhang, Huan, Gustafsson, Mika, and Benson, Mikael

Abstract

Background Genomic medicine has paved the way for identifying biomarkers and therapeutically actionable targets for complex diseases, but is complicated by the involvement of thousands of variably expressed genes across multiple cell types. Single-cell RNA-sequencing study (scRNA-seq) allows the characterization of such complex changes in whole organs. Methods The study is based on applying network tools to organize and analyze scRNA-seq data from a mouse model of arthritis and human rheumatoid arthritis, in order to find diagnostic biomarkers and therapeutic targets. Diagnostic validation studies were performed using expression profiling data and potential protein biomarkers from prospective clinical studies of 13 diseases. A candidate drug was examined by a treatment study of a mouse model of arthritis, using phenotypic, immunohistochemical, and cellular analyses as read-outs. Results We performed the first systematic analysis of pathways, potential biomarkers, and drug targets in scRNA-seq data from a complex disease, starting with inflamed joints and lymph nodes from a mouse model of arthritis. We found the involvement of hundreds of pathways, biomarkers, and drug targets that differed greatly between cell types. Analyses of scRNA-seq and GWAS data from human rheumatoid arthritis (RA) supported a similar dispersion of pathogenic mechanisms in different cell types. Thus, systems-level approaches to prioritize biomarkers and drugs are needed. Here, we present a prioritization strategy that is based on constructing network models of disease-associated cell types and interactions using scRNA-seq data from our mouse model of arthritis, as well as human RA, which we term multicellular disease models (MCDMs). We find that the network centrality of MCDM cell types correlates with the enrichment of genes harboring genetic variants associated with RA and thus could potentially be used to prioritize cell types and genes for diagnostics and therapeutics. We validated this h, Funding Agencies|Swedish Cancer Foundation [17 0542, 15 0532]; European Commission [305033]; Swedish Research Council [2015-02575, 2015-03495, 2015-03807]; Clinical Cancer Research, Jonkoping, Sweden; Torsten Soderberg Foundation; East Gothia Regional Funding

Published
2019
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45. A validated strategy to infer protein biomarkers from RNA-Seq by combining multiple mRNA splice variants and time-delay

Author

Magnusson, Rasmus, primary, Rundquist, Olof, additional, Kim, Min Jung, additional, Hellberg, Sandra, additional, Na, Chan Hyun, additional, Benson, Mikael, additional, Gomez-Cabrero, David, additional, Kockum, Ingrid, additional, Tegnér, Jesper, additional, Piehl, Fredrik, additional, Jagodic, Maja, additional, Mellergård, Johan, additional, Altafini, Claudio, additional, Ernerudh, Jan, additional, Jenmalm, Maria C., additional, Nestor, Colm E., additional, Kim, Min-Sik, additional, and Gustafsson, Mika, additional

Published
2019
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46. DNA methylation as a genomic marker of exposure to chemical and environmental agents

Author

Meehan, Richard R., Thomson, John P., Lentini, Antonio, Nestor, Colm, Pennings, Sari, Meehan, Richard R., Thomson, John P., Lentini, Antonio, Nestor, Colm, and Pennings, Sari

Abstract

Recent progress in interpreting comprehensive genetic and epigenetic profiles for human cellular states has contributed new insights into the developmental origins of disease, elucidated novel signalling pathways and enhanced drug discovery programs. A similar comprehensive approach to decoding the epigenetic readouts from chemical challenges in vivo would yield new paradigms for monitoring and assessing environmental exposure in model systems and humans., Funding Agencies|LRI grant from CEFIC; Medical Research Council [MC_PC_U127574433]; Swedish Research Council; Swedish Cancer Society; BBSRC; BHF

Published
2018
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48. LASSIM-A network inference toolbox for genome-wide mechanistic modeling

Author

Magnusson, Rasmus, Mariotti, Guido, Köpsén, Mattias, Lövfors, William, Gawel, Danuta, Jornsten, Rebecka, Linde, Joerg, Nordling, Torbjorn, Nyman, Elin, Schulze, Sylvie, Nestor, Colm, Zhang, Hanmin, Cedersund, Gunnar, Benson, Mikael, Tjärnberg, Andreas, Gustafsson, Mika, Magnusson, Rasmus, Mariotti, Guido, Köpsén, Mattias, Lövfors, William, Gawel, Danuta, Jornsten, Rebecka, Linde, Joerg, Nordling, Torbjorn, Nyman, Elin, Schulze, Sylvie, Nestor, Colm, Zhang, Hanmin, Cedersund, Gunnar, Benson, Mikael, Tjärnberg, Andreas, and Gustafsson, Mika

Abstract

Recent technological advancements have made time-resolved, quantitative, multi-omics data available for many model systems, which could be integrated for systems pharmacokinetic use. Here, we present large-scale simulation modeling (LASSIM), which is a novel mathematical tool for performing large-scale inference using mechanistically defined ordinary differential equations (ODE) for gene regulatory networks (GRNs). LASSIM integrates structural knowledge about regulatory interactions and non-linear equations with multiple steady state and dynamic response expression datasets. The rationale behind LASSIM is that biological GRNs can be simplified using a limited subset of core genes that are assumed to regulate all other gene transcription events in the network. The LASSIM method is implemented as a general-purpose toolbox using the PyGMO Python package to make the most of multicore computers and high performance clusters, and is available at https://gitlab.com/Gustafsson-lab/lassim. As a method, LASSIM works in two steps, where it first infers a non-linear ODE system of the pre-specified core gene expression. Second, LASSIM in parallel optimizes the parameters that model the regulation of peripheral genes by core system genes. We showed the usefulness of this method by applying LASSIM to infer a large-scale non-linear model of naive Th2 cell differentiation, made possible by integrating Th2 specific bindings, time-series together with six public and six novel siRNA-mediated knock-down experiments. ChIP-seq showed significant overlap for all tested transcription factors. Next, we performed novel time-series measurements of total T-cells during differentiation towards Th2 and verified that our LASSIM model could monitor those data significantly better than comparable models that used the same Th2 bindings. In summary, the LASSIM toolbox opens the door to a new type of model-based data analysis that combines the strengths of reliable mechanistic models with truly systems, Funding Agencies|Swedish research council [VR 2015-03807, VR2016-07108]; center for Industrial Information Technology; Free State of Thuringia; European Regional Development Fund; Deutsche Forschungsgemeinschaft CRC/Transregio

Published
2017
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49. 5-Hydroxymethylcytosine Profiling in Human DNA

Author

Thomson, John P., Nestor, Colm, Meehan, Richard R., Thomson, John P., Nestor, Colm, and Meehan, Richard R.

Abstract

Since its "re-discovery" in 2009, there has been significant interest in defining the genome-wide distribution of DNA marked by 5-hydroxymethylation at cytosine bases (5hmC). In recent years, technological advances have resulted in a multitude of unique strategies to map 5hmC across the human genome. Here we discuss the wide range of approaches available to map this modification and describe in detail the affinity based methods which result in the enrichment of 5hmC marked DNA for downstream analysis.

Published
2017
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50. GAB2 regulates type 2 T helper cell differentiation in humans

Author

Wang, Hui, Nestor, Colm, Benson, Mikael, Zhang, Huan, Wang, Hui, Nestor, Colm, Benson, Mikael, and Zhang, Huan

Abstract

Th2 cell differentiation involves complex changes in expression of multiple genes, many of which have poorly characterized roles. In a gene expression microarray analysis of human primary CD4(+) effector T subsets, we identified that an adaptor protein, GAB2, was preferentially expressed in human Th2 cells. The role of GAB2 in human Th2 cells is unknown. Through analysis of primary and in vitro differentiated human T effector subsets, we confirmed that human Th2 cells preferentially expressed GAB2. Further analysis of public gene expression microarray data of STAT6-knockdowned Th2 cells indicated that GAB2 expression was regulated by IL-4 and STAT6. Both siRNA knockdown and ectopic expression of GAB2 in activated T cells showed that GAB2 positively regulated IL-4 and IL-13 expression in human Th2 cells. We hence identified the adaptor protein, GAB2, as an important novel regulator of the human Th2 immune response., Funding Agencies|Swedish Research Council [2015-02575, 2013-00324]

Published
2017
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