Kristina Thamm scite author profile

It is emerging that CD4+Foxp3+ regulatory T (Treg) cells can produce the proinflammatory cytokine IFN-γ when stimulated in a Th1 cytokine environment. In this study, we report that Foxp3+ Treg cells readily produced IFN-γ in vivo in a highly inflammatory model of graft-versus-host disease (GVHD) and during a Th1-dominated immune response to intracellular bacteria. Moreover, stimulation in vitro via TCR in the presence of IL-12 alone was sufficient to induce IFN-γ production by Treg cells in a dose-dependent manner. Transfer of donor Treg cells can prevent lethal GVHD; therefore, we used this model as a robust readout for in vivo Treg function. Interestingly, >50% of allogeneic donor, but not residual recipient Foxp3+ Treg cells produced IFN-γ after transplantation, suggesting that this cytokine production was alloantigen specific. These IFN-γ producers were stable Foxp3+ Treg cells because methylation analysis of the Foxp3 gene locus of transferred and reisolated Treg cells during GVHD showed a fully demethylated Treg-specific–demethylated region. Next, we addressed whether IFN-γ production was supporting or rather impairing the immunosuppressive function of Treg cells during GVHD. Blocking of IFN-γ with specific mAb completely abolished the beneficial effect of donor Treg cells. We could further show that only wild-type Treg cells, but not Treg cells from IFN-γ–deficient donor mice, prevented GVHD. This indicated that Treg cell-intrinsic IFN-γ production was required for their protective function. In conclusion, our data show that IFN-γ produced by Foxp3+ Treg cells has essential immune-regulatory functions that are required for prevention of experimental GVHD.

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Prominin‐1 controls stem cell activation by orchestrating ciliary dynamics

Singer

Thamm

Zhuang

et al. 2018

The EMBO Journal

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Proper temporal and spatial activation of stem cells relies on highly coordinated cell signaling. The primary cilium is the sensory organelle that is responsible for transmitting extracellular signals into a cell. Primary cilium size, architecture, and assembly–disassembly dynamics are under rigid cell cycle‐dependent control. Using mouse incisor tooth epithelia as a model, we show that ciliary dynamics in stem cells require the proper functions of a cholesterol‐binding membrane glycoprotein, Prominin‐1 (Prom1/CD133), which controls sequential recruitment of ciliary membrane components, histone deacetylase, and transcription factors. Nuclear translocation of Prom1 and these molecules is particularly evident in transit amplifying cells, the immediate derivatives of stem cells. The absence of Prom1 impairs ciliary dynamics and abolishes the growth stimulation effects of sonic hedgehog (SHH) treatment, resulting in the disruption of stem cell quiescence maintenance and activation. We propose that Prom1 is a key regulator ensuring appropriate response of stem cells to extracellular signals, with important implications for development, regeneration, and diseases.

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Prominin‐1 (CD133) modulates the architecture and dynamics of microvilli

Thamm

Šimaitė

Karbanová

et al. 2018

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Prominin‐1 is a cell surface biomarker that allows the identification of stem and cancer stem cells from different organs. It is also expressed in several differentiated epithelial and non‐epithelial cells. Irrespective of the cell type, prominin‐1 is associated with plasma membrane protrusions. Here, we investigate its impact on the architecture of membrane protrusions using microvilli of Madin‐Darby canine kidney cells as the main model. Our high‐resolution analysis revealed that upon the overexpression of prominin‐1 the number of microvilli and clusters of them increased. Microvilli with branched and/or knob‐like morphologies were observed and stimulated by mutations in the ganglioside‐binding site of prominin‐1. The altered phenotypes were caused by the interaction of prominin‐1 with phosphoinositide 3‐kinase and Arp2/3 complex. Mutation of tyrosine 828 of prominin‐1 impaired its phosphorylation and thereby inhibited the aforementioned interactions abolishing altered microvilli. This suggests that the interplay of prominin‐1‐ganglioside membrane complexes, phosphoinositide 3‐kinase and cytoskeleton components regulates microvillar architecture. Lastly, the expression of prominin‐1 and its mutants modified the structure of filopodia emerging from fibroblast‐like cells and silencing human prominin‐1 in primary hematopoietic stem cells resulted in the loss of uropod‐associated microvilli. Altogether, these findings strengthen the role of prominin‐1 as an organizer of cellular protrusions.

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Lung-Targeted RNA Interference Against Angiopoietin-2 Ameliorates Multiple Organ Dysfunction and Death in Sepsis

Stiehl

Thamm

Kaufmann

et al. 2014

Critical Care Medicine

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Kristina Thamm

IFN-γ Production by Allogeneic Foxp3+ Regulatory T Cells Is Essential for Preventing Experimental Graft-versus-Host Disease

Prominin‐1 controls stem cell activation by orchestrating ciliary dynamics

Prominin‐1 (CD133) modulates the architecture and dynamics of microvilli

Lung-Targeted RNA Interference Against Angiopoietin-2 Ameliorates Multiple Organ Dysfunction and Death in Sepsis

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