Ulrike Träger scite author profile

Regulatory T cells (Treg) perform two distinct functions: they maintain self-tolerance and support organ homeostasis by differentiation into specialized tissue Treg cells. We now report that epigenetic modifications define molecular characteristics of tissue Treg cells. Tagmentation-based whole-genome bisulfite sequencing of tissue and lymphoid T cells revealed more than 11,000 differentially methylated regions. Similarities of the epigenetic landscape led to the identification of a common tissue Treg population, present in many organs and characterized by gain and loss of DNA methylation, including many TH2-associated sites such as the IL-33 receptor ST2, and the production of tissue-regenerative factors. Furthermore, this ST2-expressing population (which we term here tisTregST2) was dependent on the transcriptional regulator BATF and could be expanded by IL-33. Thus, tissue Treg cells integrate different waves of epigenetic reprogramming which define their tissue-restricted specializations.

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HTT-lowering reverses Huntington’s disease immune dysfunction caused by NFκB pathway dysregulation

Träger¹,

André²,

Lahiri³

et al. 2014

159

169

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Huntington's disease is an inherited neurodegenerative disorder caused by a CAG repeat expansion in the huntingtin gene. The peripheral innate immune system contributes to Huntington's disease pathogenesis and has been targeted successfully to modulate disease progression, but mechanistic understanding relating this to mutant huntingtin expression in immune cells has been lacking. Here we demonstrate that human Huntington's disease myeloid cells produce excessive inflammatory cytokines as a result of the cell-intrinsic effects of mutant huntingtin expression. A direct effect of mutant huntingtin on the NFκB pathway, whereby it interacts with IKKγ, leads to increased degradation of IκB and subsequent nuclear translocation of RelA. Transcriptional alterations in intracellular immune signalling pathways are also observed. Using a novel method of small interfering RNA delivery to lower huntingtin expression, we show reversal of disease-associated alterations in cellular function-the first time this has been demonstrated in primary human cells. Glucan-encapsulated small interfering RNA particles were used to lower huntingtin levels in human Huntington's disease monocytes/macrophages, resulting in a reversal of huntingtin-induced elevated cytokine production and transcriptional changes. These findings improve our understanding of the role of innate immunity in neurodegeneration, introduce glucan-encapsulated small interfering RNA particles as tool for studying cellular pathogenesis ex vivo in human cells and raise the prospect of immune cell-directed HTT-lowering as a therapeutic in Huntington's disease.

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Mutant huntingtin fragmentation in immune cells tracks Huntington’s disease progression

Weiss

Träger²,

Wild³

et al. 2012

J. Clin. Invest.

126

121

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Mutant huntingtin impairs immune cell migration in Huntington disease

Kwan¹,

et al. 2012

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In Huntington disease (HD), immune cells are activated before symptoms arise; however, it is unclear how the expression of mutant huntingtin (htt) compromises the normal functions of immune cells. Here we report that primary microglia from early postnatal HD mice were profoundly impaired in their migration to chemotactic stimuli, and expression of a mutant htt fragment in microglial cell lines was sufficient to reproduce these deficits. Microglia expressing mutant htt had a retarded response to a laser-induced brain injury in vivo. Leukocyte recruitment was defective upon induction of peritonitis in HD mice at early disease stages and was normalized upon genetic deletion of mutant htt in immune cells. Migration was also strongly impaired in peripheral immune cells from pre-manifest human HD patients. Defective actin remodeling in immune cells expressing mutant htt likely contributed to their migration deficit. Our results suggest that these functional changes may contribute to immune dysfunction and neurodegeneration in HD, and may have implications for other polyglutamine expansion diseases in which mutant proteins are ubiquitously expressed.

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Ulrike Träger

Genome-wide DNA-methylation landscape defines specialization of regulatory T cells in tissues

HTT-lowering reverses Huntington’s disease immune dysfunction caused by NFκB pathway dysregulation

Mutant huntingtin fragmentation in immune cells tracks Huntington’s disease progression

Mutant huntingtin impairs immune cell migration in Huntington disease

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