Jessica Mittelstädt scite author profile

SKOR and GORK are outward-rectifying plant potassium channels from Arabidopsis thaliana. They belong to the Shaker superfamily of voltage-dependent K(+) channels. Channels of this class are composed of four alpha-subunits and subunit assembly is a prerequisite for channel function. In this study the assembly mechanism of SKOR was investigated using the yeast two-hybrid system and functional assays in Xenopus oocytes and in yeast. We demonstrate that SKOR and GORK physically interact and assemble into heteromeric K(out) channels. Deletion mutants and chimeric proteins generated from SKOR and the K(in) channel alpha-subunit KAT1 revealed that the cytoplasmic C-terminus of SKOR determines channel assembly. Two domains that are crucial for channel assembly were identified: i), a proximal interacting region comprising a putative cyclic nucleotide-binding domain together with 33 amino acids just upstream of this domain, and ii), a distal interacting region showing some resemblance to the K(T) domain of KAT1. Both regions contributed differently to channel assembly. Whereas the proximal interacting region was found to be active on its own, the distal interacting region required an intact proximal interacting region to be active. K(out) alpha-subunits did not assemble with K(in) alpha-subunits because of the absence of interaction between their assembly sites.

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Mycobacteria Induce IFN-γ Production in Human Dendritic Cells via Triggering of TLR2

Fricke¹,

Mitchell²,

Mittelstädt³

et al. 2006

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IFN-γ is of central importance for the induction of robust cell-mediated immunity and for the activation of APC. Recent studies using experimental murine systems have now suggested a fundamental role for APC-derived IFN-γ during infection with intracellular pathogens. It is currently unknown whether human dendritic cells (DC) can respond to bacterial stimulation with production of IFN-γ. To test this question, we used human monocyte-derived DC stimulated by Mycobacterium bovis bacillus Calmette-Guérin as a model system. We demonstrate production of IFN-γ mRNA and protein on the single cell level. IFN-γ in DC cultures was not simply produced by contaminating lymphocytes because production of DC-IFN-γ could also be demonstrated in highly purified DC cultures containing virtually no T, B, and NK cells. TLR2 was identified as a key receptor involved in triggering production of DC-IFN-γ. Interestingly, DC-IFN-γ seems to participate in an autocrine DC activation loop, and production of DC-IFN-γ could be enhanced by costimulation of DC with IL-12/IL-15/IL-18. In conclusion, we have demonstrated production of IFN-γ by human DC on the single cell level, identified TLR2 as a pattern recognition receptor involved in this process, and elucidated some of the functional consequences of autocrine IFN-γ production by human DC.

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Animal shed Bacillus licheniformis spores possess allergy-protective as well as inflammatory properties

Vogel

Blümer

Korthals

et al. 2008

Journal of Allergy and Clinical Immunology

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Platelet factor 4/CXCL4-stimulated human monocytes induce apoptosis in endothelial cells by the release of oxygen radicals

Woller

Brandt

Mittelstädt

et al. 2008

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The generation of reactive oxygen species (ROS) represents a pivotal element of phagocyte defense against microbial invaders. However, oxidative stress also participates in pathophysiological processes of vascular damage leading to cell death of endothelial cells (EC). Currently, ROS-producing cells involved in this process as well as the corresponding extracellular signals required for their activation are ill-defined. In this study, we investigate the impact of the platelet-derived CXC chemokine platelet factor 4 (PF4/CXCL4) on the interaction of human monocytes and EC. We can show for the first time that PF4-activated monocytes become cytotoxic for EC but not epithelial cells. Cytotoxicity was time- and dose-dependent, and earliest effects were seen after 15 h of culture and at a concentration from 0.125 microM PF4 up. By performing transwell experiments and by using specific inhibitory antibodies, we could show that direct cell contact between effector and target cells, mediated by beta(2)integrins as well as their corresponding ligand ICAM-1, is essential for the cytotoxic effect. Investigations of the cellular mechanisms of cytotoxicity revealed that in the presence of EC, PF4-activated monocytes are capable of releasing high amounts of ROS for more than 2 h following stimulation. This causes programmed cell death in EC, as inhibitors of the NADPH oxidase (diphenyleneiodonium and apocynin) effectively blocked PF4-induced monocyte oxidative burst and protected EC from undergoing apoptosis. Taken together, our data suggest a role for platelet-derived PF4 in oxidative stress-mediated vascular disorders, as observed during atherosclerosis or ischemia/reperfusion injury.

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The Cathelicidin LL-37 Activates Human Mast Cells and Is Degraded by Mast Cell Tryptase: Counter-Regulation by CXCL4

Schiemann¹,

Brandt²,

Groß³

et al. 2009

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The cathelicidin LL-37 represents a potent antimicrobial and cell-stimulating agent, most abundantly expressed in peripheral organs such as lung and skin during inflammation. Because mast cells (MC) overtake prominent immunomodulatory roles in these organs, we wondered whether interactions exist between MC and LL-37. In this study, we show for the first time to our knowledge that physiological concentrations of LL-37 induce degranulation in purified human lung MC. Intriguingly, as a consequence LL-37 rapidly undergoes limited cleavage by a released protease. The enzyme was identified as β-tryptase by inhibitor studies and by comparison to the recombinant protease. Examining the resulting LL-37 fragments for their functional activity, we found that none of the typical capacities of intact LL-37, i.e., MC degranulation, bactericidal activity, and neutralization of LPS, were retained. Conversely, we found that another inflammatory protein, the platelet-derived chemokine CXCL4, protects LL-37 from cleavage by β-tryptase. Interestingly, CXCL4 did not act as a direct enzyme inhibitor, but destabilized active tetrameric β-tryptase by antagonizing the heparin component required for the integrity of the tetramer. Altogether our results suggest that interaction of LL-37 and MC initiates an effective feedback loop to limit cathelicidin activity during inflammation, whereas CXCL4 may represent a physiological counter-regulator of β-tryptase activity.

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