Your search keyword '"Mattson, Lina"' showing total 6 results

1. 5-Hydroxymethylcytosine Remodeling Precedes Lineage Specification during Differentiation of Human CD4(+) T Cells

Author

Nestor, Colm, Lentini, Antonio, Hägg Nilsson, Cathrine, Gawel, Danuta, Gustafsson, Mika, Mattson, Lina, Wang, Hui, Rundquist, Olof, Meehan, Richard R., Klocke, Bernward, Seifert, Martin, Hauck, Stefanie M., Laumen, Helmut, Zhang, Huan, Benson, Mikael, Nestor, Colm, Lentini, Antonio, Hägg Nilsson, Cathrine, Gawel, Danuta, Gustafsson, Mika, Mattson, Lina, Wang, Hui, Rundquist, Olof, Meehan, Richard R., Klocke, Bernward, Seifert, Martin, Hauck, Stefanie M., Laumen, Helmut, Zhang, Huan, and Benson, Mikael

Abstract

5-methylcytosine (5mC) is converted to 5-hydroxymethylcytosine (5hmC) by the TET family of enzymes as part of a recently discovered active DNA de-methylation pathway. 5hmC plays important roles in regulation of gene expression and differentiation and has been implicated in T cell malignancies and autoimmunity. Here, we report early and widespread 5mC/5hmC remodeling during human CD4(+) T cell differentiation ex vivo at genes and cell-specific enhancers with known T cell function. We observe similar DNA de-methylation in CD4(+) memory T cells in vivo, indicating that early remodeling events persist long term in differentiated cells. Underscoring their important function, 5hmC loci were highly enriched for genetic variants associated with T cell diseases and T-cell-specific chromosomal interactions. Extensive functional validation of 22 risk variants revealed potentially pathogenic mechanisms in diabetes and multiple sclerosis. Our results support 5hmC-mediated DNA de-methylation as a key component of CD4(+) T cell biology in humans, with important implications for gene regulation and lineage commitment., Funding Agencies|Swedish Research Council; Ake Wibergs Foundation; Cancerfonden; Helmholtz Zentrum Munchen; Technische Universitat Munchen; Biotechnology and Biological Sciences Research Council (BBSRC); CEFIC; Medical Research Council (MRC)

Published

2016

2. Potential Involvement of Type I Interferon Signaling in Immunotherapy in Seasonal Allergic Rhinitis

Author

Mattson, Lina, Lentini, Antonio, Gawel, Danuta, Badam, Tejaswi, Benson, Mikael, Ledin, Torbjörn, Nestor, Colm, Gustafsson, Mika, Serra I Musach, Jordi, Björkander, Janne, Xiang, Zou, Zhang, Huan, Mattson, Lina, Lentini, Antonio, Gawel, Danuta, Badam, Tejaswi, Benson, Mikael, Ledin, Torbjörn, Nestor, Colm, Gustafsson, Mika, Serra I Musach, Jordi, Björkander, Janne, Xiang, Zou, and Zhang, Huan

Abstract

Specific immunotherapy (SIT) reverses the symptoms of seasonal allergic rhinitis (SAR) in most patients. Recent studies report type I interferons shifting the balance between type I T helper cell (Th1) and type II T helper cells (Th2) towards Th2 dominance by inhibiting the differentiation of naive Tcells into Th1 cells. As SIT is thought to cause a shift towardsTh1 dominance, we hypothesized that SIT would alter interferon type I signaling. To test this, allergen and diluent challenged CD4(+) T cells from healthy controls and patients from different time points were analyzed. The initial experiments focused on signature genes of the pathway and found complex changes following immunotherapy, which were consistent with our hypothesis. As interferon signaling involves multiple genes, expression profiling studies were performed, showing altered expression of the pathway. These findings require validation in a larger group of patients in further studies., Funding Agencies|Swedish Research Council [2015-02575]

Published

2016

3. 5-Hydroxymethylcytosine Remodeling Precedes Lineage Specification during Differentiation of Human CD4+ T Cells

Author

Nestor, Colm E., primary, Lentini, Antonio, additional, Hägg Nilsson, Cathrine, additional, Gawel, Danuta R., additional, Gustafsson, Mika, additional, Mattson, Lina, additional, Wang, Hui, additional, Rundquist, Olof, additional, Meehan, Richard R., additional, Klocke, Bernward, additional, Seifert, Martin, additional, Hauck, Stefanie M., additional, Laumen, Helmut, additional, Zhang, Huan, additional, and Benson, Mikael, additional

Published

2016

4. Potential Involvement of Type I Interferon Signaling in Immunotherapy in Seasonal Allergic Rhinitis

Author

Mattson, Lina, primary, Lentini, Antonio, additional, Gawel, Danuta R., additional, Badam, Tejaswi V. S., additional, Benson, Mikael, additional, Ledin, Torbjorn, additional, Nestor, Colm E., additional, Gustafsson, Mika, additional, Serra-Musach, Jordi, additional, Bjorkander, Janne, additional, Xiang, Zou, additional, and Zhang, Huan, additional

Published

2016

5. A validated gene regulatory network and GWAS identifies early regulators of T cell-associated diseases

Author

Gustafsson, Mika, Gawel, Danuta, Alfredsson, Lars, Baranzini, Sergio, Bjorkander, Janne, Blomgran, Robert, Hellberg, Sandra, Eklund, Daniel, Ernerudh, Jan, Kockum, Ingrid, Konstantinell, Aelita, Lahesmaa, Riita, Lentini, Antonio, Liljenström, H. Robert I., Mattson, Lina, Matussek, Andreas, Mellergård, Johan, Mendez, Melissa, Olsson, Tomas, Pujana, Miguel A., Rasool, Omid, Serra-Musach, Jordi, Stenmarker, Margaretha, Tripathi, Subhash, Viitala, Miro, Wang, Hui, Zhang, Huan, Nestor, Colm, Benson, Mikael, Gustafsson, Mika, Gawel, Danuta, Alfredsson, Lars, Baranzini, Sergio, Bjorkander, Janne, Blomgran, Robert, Hellberg, Sandra, Eklund, Daniel, Ernerudh, Jan, Kockum, Ingrid, Konstantinell, Aelita, Lahesmaa, Riita, Lentini, Antonio, Liljenström, H. Robert I., Mattson, Lina, Matussek, Andreas, Mellergård, Johan, Mendez, Melissa, Olsson, Tomas, Pujana, Miguel A., Rasool, Omid, Serra-Musach, Jordi, Stenmarker, Margaretha, Tripathi, Subhash, Viitala, Miro, Wang, Hui, Zhang, Huan, Nestor, Colm, and Benson, Mikael

Abstract

Early regulators of disease may increase understanding of disease mechanisms and serve as markers for presymptomatic diagnosis and treatment. However, early regulators are difficult to identify because patients generally present after they are symptomatic. We hypothesized that early regulators of T cell-associated diseases could be found by identifying upstream transcription factors (TFs) in T cell differentiation and by prioritizing hub TFs that were enriched for disease-associated polymorphisms. A gene regulatory network (GRN) was constructed by time series profiling of the transcriptomes and methylomes of human CD4(+) T cells during in vitro differentiation into four helper T cell lineages, in combination with sequence-based TF binding predictions. The TFs GATA3, MAF, and MYB were identified as early regulators and validated by ChIP-seq (chromatin immunoprecipitation sequencing) and small interfering RNA knockdowns. Differential mRNA expression of the TFs and their targets in T cell-associated diseases supports their clinical relevance. To directly test if the TFs were altered early in disease, T cells from patients with two T cell-mediated diseases, multiple sclerosis and seasonal allergic rhinitis, were analyzed. Strikingly, the TFs were differentially expressed during asymptomatic stages of both diseases, whereas their targets showed altered expression during symptomatic stages. This analytical strategy to identify early regulators of disease by combining GRNs with genome-wide association studies may be generally applicable for functional and clinical studies of early disease development., Funding Agencies|Cancer fund, Swedish Medical Research Council [K2013-61X-22310-01-04, 2012-3168]; Academy of Finland Centre of Excellence in Molecular Systems Immunology and Physiology Research [250114]; Sigrid Juselius Foundation; Generalitat de Catalunya AGAUR [2014-SGR364]; Spanish Association Against Cancer; Spanish Ministry of Health ISCIII FIS [PI12/01528]; RTICC [RD12/0036/0008]

Published

2015

6. 5-Hydroxymethylcytosine Remodeling Precedes Lineage Specification during Differentiation of Human CD4+T Cells

Author

Nestor, Colm E., Lentini, Antonio, Hägg Nilsson, Cathrine, Gawel, Danuta R., Gustafsson, Mika, Mattson, Lina, Wang, Hui, Rundquist, Olof, Meehan, Richard R., Klocke, Bernward, Seifert, Martin, Hauck, Stefanie M., Laumen, Helmut, Zhang, Huan, and Benson, Mikael

Abstract

5-methylcytosine (5mC) is converted to 5-hydroxymethylcytosine (5hmC) by the TET family of enzymes as part of a recently discovered active DNA de-methylation pathway. 5hmC plays important roles in regulation of gene expression and differentiation and has been implicated in T cell malignancies and autoimmunity. Here, we report early and widespread 5mC/5hmC remodeling during human CD4+T cell differentiation ex vivo at genes and cell-specific enhancers with known T cell function. We observe similar DNA de-methylation in CD4+memory T cells in vivo, indicating that early remodeling events persist long term in differentiated cells. Underscoring their important function, 5hmC loci were highly enriched for genetic variants associated with T cell diseases and T-cell-specific chromosomal interactions. Extensive functional validation of 22 risk variants revealed potentially pathogenic mechanisms in diabetes and multiple sclerosis. Our results support 5hmC-mediated DNA de-methylation as a key component of CD4+T cell biology in humans, with important implications for gene regulation and lineage commitment.

Published

2016