Your search keyword '"Månsson, Robert"' showing total 10 results

1. Aging is associated with functional and molecular changes in distinct hematopoietic stem cell subsets

Author

Su, Tsu Yi, Hauenstein, Julia, Somuncular, Ece, Dumral, Özge, Leonard, Elory, Gustafsson, Charlotte, Tzortzis, Efthymios, Forlani, Aurora, Johansson, Anne Sofie, Qian, Hong, Månsson, Robert, Luc, Sidinh, Su, Tsu Yi, Hauenstein, Julia, Somuncular, Ece, Dumral, Özge, Leonard, Elory, Gustafsson, Charlotte, Tzortzis, Efthymios, Forlani, Aurora, Johansson, Anne Sofie, Qian, Hong, Månsson, Robert, and Luc, Sidinh

Abstract

Age is a risk factor for hematologic malignancies. Attributes of the aging hematopoietic system include increased myelopoiesis, impaired adaptive immunity, and a functional decline of the hematopoietic stem cells (HSCs) that maintain hematopoiesis. Changes in the composition of diverse HSC subsets have been suggested to be responsible for age-related alterations, however, the underlying regulatory mechanisms are incompletely understood in the context of HSC heterogeneity. In this study, we investigated how distinct HSC subsets, separated by CD49b, functionally and molecularly change their behavior with age. We demonstrate that the lineage differentiation of both lymphoid-biased and myeloid-biased HSC subsets progressively shifts to a higher myeloid cellular output during aging. In parallel, we show that HSCs selectively undergo age-dependent gene expression and gene regulatory changes in a progressive manner, which is initiated already in the juvenile stage. Overall, our studies suggest that aging intrinsically alters both cellular and molecular properties of HSCs., QC 20240924

Published

2024

2. Aging is associated with functional and molecular changes in distinct hematopoietic stem cell subsets.

Author

Su, Tsu-Yi, Hauenstein, Julia, Somuncular, Ece, Dumral, Özge, Leonard, Elory, Gustafsson, Charlotte, Tzortzis, Efthymios, Forlani, Aurora, Johansson, Anne-Sofie, Qian, Hong, Månsson, Robert, and Luc, Sidinh

Subjects

HEMATOPOIETIC stem cells, HEMATOPOIETIC system, CELLULAR aging, REGULATOR genes, HEMATOLOGIC malignancies

Abstract

Age is a risk factor for hematologic malignancies. Attributes of the aging hematopoietic system include increased myelopoiesis, impaired adaptive immunity, and a functional decline of the hematopoietic stem cells (HSCs) that maintain hematopoiesis. Changes in the composition of diverse HSC subsets have been suggested to be responsible for age-related alterations, however, the underlying regulatory mechanisms are incompletely understood in the context of HSC heterogeneity. In this study, we investigated how distinct HSC subsets, separated by CD49b, functionally and molecularly change their behavior with age. We demonstrate that the lineage differentiation of both lymphoid-biased and myeloid-biased HSC subsets progressively shifts to a higher myeloid cellular output during aging. In parallel, we show that HSCs selectively undergo age-dependent gene expression and gene regulatory changes in a progressive manner, which is initiated already in the juvenile stage. Overall, our studies suggest that aging intrinsically alters both cellular and molecular properties of HSCs. Aging is a risk factor for blood malignancies, leading to increased myelopoiesis and impaired immunity. Here, the authors show that aging alters cellular and molecular properties of HSC subsets, with changes starting as early as the juvenile stage. [ABSTRACT FROM AUTHOR]

Published

2024

3. Three Adult Cases of STAT1 Gain-of-Function with Chronic Mucocutaneous Candidiasis Treated with JAK Inhibitors.

Author

Borgström, Emilie W., Edvinsson, Marie, Pérez, Lucía P., Norlin, Anna C., Enoksson, Sara L., Hansen, Susanne, Fasth, Anders, Friman, Vanda, Kämpe, Olle, Månsson, Robert, Estupiñán, Hernando Y., Wang, Qing, Ziyang, Tan, Lakshmikanth, Tadepally, Smith, Carl Inge E., Brodin, Petter, and Bergman, Peter

Subjects

MONONUCLEAR leukocytes, KILLER cells, CELL analysis, CANDIDIASIS, STAT proteins, THRUSH (Mouth disease), GRANZYMES

Abstract

Purpose: The aim of this study was to characterize clinical effects and biomarkers in three patients with chronic mucocutaneous candidiasis (CMC) caused by gain-of-function (GOF) mutations in the STAT1 gene during treatment with Janus kinase (JAK) inhibitors. Methods: Mass cytometry (CyTOF) was used to characterize mononuclear leukocyte populations and Olink assay to quantify 265 plasma proteins. Flow-cytometric Assay for Specific Cell-mediated Immune-response in Activated whole blood (FASCIA) was used to quantify the reactivity against Candida albicans. Results: Overall, JAK inhibitors improved clinical symptoms of CMC, but caused side effects in two patients. Absolute numbers of neutrophils, T cells, B cells, and NK cells were sustained during baricitinib treatment. Detailed analysis of cellular subsets, using CyTOF, revealed increased expression of CD45, CD52, and CD99 in NK cells, reflecting a more functional phenotype. Conversely, monocytes and eosinophils downregulated CD16, consistent with reduced inflammation. Moreover, T and B cells showed increased expression of activation markers during treatment. In one patient with a remarkable clinical effect of baricitinib treatment, the immune response to C. albicans increased after 7 weeks of treatment. Alterations in plasma biomarkers involved downregulation of cellular markers CXCL10, annexin A1, granzyme B, granzyme H, and oncostatin M, whereas FGF21 was the only upregulated marker after 7 weeks. After 3 months, IFN-ɣ and CXCL10 were downregulated. Conclusions: The clinical effect of JAK inhibitor treatment of CMC is promising. Several biological variables were altered during baricitinib treatment demonstrating that lymphocytes, NK cells, monocytes, and eosinophils were affected. In parallel, cellular reactivity against C. albicans was enhanced. [ABSTRACT FROM AUTHOR]

Published

2023

4. Postmitotic differentiation of human monocytes requires cohesin-structured chromatin.

Author

Minderjahn, Julia, Fischer, Alexander, Maier, Konstantin, Mendes, Karina, Nuetzel, Margit, Raithel, Johanna, Stanewsky, Hanna, Ackermann, Ute, Månsson, Robert, Gebhard, Claudia, and Rehli, Michael

Subjects

GENE enhancers, COHESINS, CHROMATIN, GENETIC regulation, MONOCYTES, DENDRITIC cells, GENE expression, MITOSIS

Abstract

Cohesin is a major structural component of mammalian genomes and is required to maintain loop structures. While acute depletion in short-term culture models suggests a limited importance of cohesin for steady-state transcriptional circuits, long-term studies are hampered by essential functions of cohesin during replication. Here, we study genome architecture in a postmitotic differentiation setting, the differentiation of human blood monocytes (MO). We profile and compare epigenetic, transcriptome and 3D conformation landscapes during MO differentiation (either into dendritic cells or macrophages) across the genome and detect numerous architectural changes, ranging from higher level compartments down to chromatin loops. Changes in loop structures correlate with cohesin-binding, as well as epigenetic and transcriptional changes during differentiation. Functional studies show that the siRNA-mediated depletion of cohesin (and to a lesser extent also CTCF) markedly disturbs loop structures and dysregulates genes and enhancers that are primarily regulated during normal MO differentiation. In addition, gene activation programs in cohesin-depleted MO-derived macrophages are disturbed. Our findings implicate an essential function of cohesin in controlling long-term, differentiation- and activation-associated gene expression programs. How chromatin structure and gene accessibility changes during monocyte differentiation is not clearly defined. Here the authors characterize the chromatin changes during macrophage or dendritic cell maturation from monocytes and the dependence of this upon cohesin and CTCF. [ABSTRACT FROM AUTHOR]

Published

2022

5. Splice-Correction Strategies for Treatment of X-Linked Agammaglobulinemia.

Author

Bestas, Burcu, Turunen, Janne, Blomberg, K., Wang, Qing, Månsson, Robert, Andaloussi, Samir, Berglöf, Anna, and Smith, C.

Abstract

X-linked agammaglobulinemia (XLA) is a primary immunodeficiency disease caused by mutations in the gene coding for Bruton's tyrosine kinase (BTK). Deficiency of BTK leads to a developmental block in B cell differentiation; hence, the patients essentially lack antibody-producing plasma cells and are susceptible to various infections. A substantial portion of the mutations in BTK results in splicing defects, consequently preventing the formation of protein-coding mRNA. Antisense oligonucleotides (ASOs) are therapeutic compounds that have the ability to modulate pre-mRNA splicing and alter gene expression. The potential of ASOs has been exploited for a few severe diseases, both in pre-clinical and clinical studies. Recently, advances have also been made in using ASOs as a personalized therapy for XLA. Splice-correction of BTK has been shown to be feasible for different mutations in vitro, and a recent proof-of-concept study demonstrated the feasibility of correcting splicing and restoring BTK both ex vivo and in vivo in a humanized bacterial artificial chromosome (BAC)-transgenic mouse model. This review summarizes the advances in splice correction, as a personalized medicine for XLA, and outlines the promises and challenges of using this technology as a curative long-term treatment option. [ABSTRACT FROM AUTHOR]

Published

2015

6. Activation of neuronal genes via LINE-1 elements upon global DNA demethylation in human neural progenitors.

Author

Jönsson, Marie E, Ludvik Brattås, Per, Gustafsson, Charlotte, Petri, Rebecca, Yudovich, David, Pircs, Karolina, Verschuere, Shana, Madsen, Sofia, Hansson, Jenny, Larsson, Jonas, Månsson, Robert, Meissner, Alexander, and Jakobsson, Johan

Abstract

DNA methylation contributes to the maintenance of genomic integrity in somatic cells, in part through the silencing of transposable elements. In this study, we use CRISPR-Cas9 technology to delete DNMT1, the DNA methyltransferase key for DNA methylation maintenance, in human neural progenitor cells (hNPCs). We observe that inactivation of DNMT1 in hNPCs results in viable, proliferating cells despite a global loss of DNA CpG-methylation. DNA demethylation leads to specific transcriptional activation and chromatin remodeling of evolutionarily young, hominoid-specific LINE-1 elements (L1s), while older L1s and other classes of transposable elements remain silent. The activated L1s act as alternative promoters for many protein-coding genes involved in neuronal functions, revealing a hominoid-specific L1-based transcriptional network controlled by DNA methylation that influences neuronal protein-coding genes. Our results provide mechanistic insight into the role of DNA methylation in silencing transposable elements in somatic human cells, as well as further implicating L1s in human brain development and disease. DNA methylation plays an important role in silencing transposable elements. Here the authors find that loss of DNMT1 and DNA methylation leads to transcriptional activation and chromatin remodelling of evolutionarily young—hominoid-specific —LINE-1 elements which then act as alternative promoters for neuronal genes. [ABSTRACT FROM AUTHOR]

Published

2019

7. The histone chaperone NAP1L3 is required for haematopoietic stem cell maintenance and differentiation.

Author

Heshmati, Yaser, Kharazi, Shabnam, Türköz, Gözde, Chang, David, Kamali Dolatabadi, Esmat, Boström, Johan, Krstic, Aleksandra, Boukoura, Theodora, Wagner, Emma, Kadri, Nadir, Månsson, Robert, Altun, Mikael, Qian, Hong, and Walfridsson, Julian

Abstract

Nucleosome assembly proteins (NAPs) are histone chaperones with an important role in chromatin structure and epigenetic regulation of gene expression. We find that high gene expression levels of mouse Nap1l3 are restricted to haematopoietic stem cells (HSCs) in mice. Importantly, with shRNA or CRISPR-Cas9 mediated loss of function of mouse Nap1l3 and with overexpression of the gene, the number of colony-forming cells and myeloid progenitor cells in vitro are reduced. This manifests as a striking decrease in the number of HSCs, which reduces their reconstituting activities in vivo. Downregulation of human NAP1L3 in umbilical cord blood (UCB) HSCs impairs the maintenance and proliferation of HSCs both in vitro and in vivo. NAP1L3 downregulation in UCB HSCs causes an arrest in the G0 phase of cell cycle progression and induces gene expression signatures that significantly correlate with downregulation of gene sets involved in cell cycle regulation, including E2F and MYC target genes. Moreover, we demonstrate that HOXA3 and HOXA5 genes are markedly upregulated when NAP1L3 is suppressed in UCB HSCs. Taken together, our findings establish an important role for NAP1L3 in HSC homeostasis and haematopoietic differentiation. [ABSTRACT FROM AUTHOR]

Published

2018

8. Corrigendum: Characterization and target genes of nine human PRD-like homeobox domain genes expressed exclusively in early embryos.

Author

Madissoon, Elo, Jouhilahti, Eeva-Mari, Vesterlund, Liselotte, Töhönen, Virpi, Krjutškov, Kaarel, Petropoulos, Sophie, Einarsdottir, Elisabet, Linnarsson, Sten, Lanner, Fredrik, Månsson, Robert, Hovatta, Outi, Bürglin, Thomas R., Katayama, Shintaro, and Kere, Juha

Published

2016

9. Characterization and target genes of nine human PRD-like homeobox domain genes expressed exclusively in early embryos.

Author

Madissoon, Elo, Jouhilahti, Eeva-Mari, Vesterlund, Liselotte, Töhönen, Virpi, Krjutškov, Kaarel, Petropoulous, Sophie, Einarsdottir, Elisabet, Linnarsson, Sten, Lanner, Fredrik, Månsson, Robert, Hovatta, Outi, Bürglin, Thomas R., Katayama, Shintaro, and Kere, Juha

Published

2016

10. Variants in ELL2 influencing immunoglobulin levels associate with multiple myeloma.

Author

Swaminathan, Bhairavi, Thorleifsson, Guðmar, Jöud, Magnus, Ali, Mina, Johnsson, Ellinor, Ajore, Ram, Sulem, Patrick, Halvarsson, Britt-Marie, Eyjolfsson, Guðmundur, Haraldsdottir, Vilhelmina, Hultman, Christina, Ingelsson, Erik, Kristinsson, Sigurður Y., Kähler, Anna K., Lenhoff, Stig, Masson, Gisli, Mellqvist, Ulf-Henrik, Månsson, Robert, Nelander, Sven, and Olafsson, Isleifur

Published

2015