Your search keyword '"Kuchler, Laura"' showing total 13 results

1. Activation of the peroxisome proliferator-activated receptor γ counteracts sepsis-induced T cell cytotoxicity toward alloantigenic target cells

Author

von Knethen, Andreas, Sha, Lisa Katharina, Knape, Tilo, Kuchler, Laura, Giegerich, Annika Klara, Schulz, Martin, Hauser, Ingeborg A., and Brüne, Bernhard

Published

2015

2. Macrophage-derived iron-bound lipocalin-2 correlates with renal recovery markers following sepsis-induced kidney damage

Author

Mertens, Christina, Kuchler, Laura, Sola, Anna, Guiteras, Roser, and Grein, Stephan

Subjects

ddc:610

Abstract

During the course of sepsis in critically ill patients, kidney dysfunction and damage are among the first events of a complex scenario toward multi-organ failure and patient death. Acute kidney injury triggers the release of lipocalin-2 (Lcn-2), which is involved in both renal injury and recovery. Taking into account that Lcn-2 binds and transports iron with high affinity, we aimed at clarifying if Lcn-2 fulfills different biological functions according to its iron-loading status and its cellular source during sepsis-induced kidney failure. We assessed Lcn-2 levels both in serum and in the supernatant of short-term cultured renal macrophages (MΦ) as well as renal tubular epithelial cells (TEC) isolated from either Sham-operated or cecal ligation and puncture (CLP)-treated septic mice. Total kidney iron content was analyzed by Perls’ staining, while Lcn-2-bound iron in the supernatants of short-term cultured cells was determined by atomic absorption spectroscopy. Lcn-2 protein in serum was rapidly up-regulated at 6 h after sepsis induction and subsequently increased up to 48 h. Lcn-2-levels in the supernatant of TEC peaked at 24 h and were low at 48 h with no change in its iron-loading. In contrast, in renal MΦ Lcn-2 was low at 24 h, but increased at 48 h, where it mainly appeared in its iron-bound form. Whereas TEC-secreted, iron-free Lcn-2 was associated with renal injury, increased MΦ-released iron-bound Lcn-2 was linked to renal recovery. Therefore, we hypothesized that both the cellular source of Lcn-2 as well as its iron-load crucially adds to its biological function during sepsis-induced renal injury.

Published

2020

3. Macrophage-Derived Iron-Bound Lipocalin-2 Correlates with Renal Recovery Markers Following Sepsis-Induced Kidney Damage

Author

Mertens, Christina, primary, Kuchler, Laura, additional, Sola, Anna, additional, Guiteras, Roser, additional, Grein, Stephan, additional, Brüne, Bernhard, additional, von Knethen, Andreas, additional, and Jung, Michaela, additional

Published

2020

4. Tolerizing CTL by sustained hepatic PD-L1 expression provides a new therapy spproach in mouse sepsis

Author

Knethen, Andreas von, Schäfer, Anne, Kuchler, Laura, Knape, Tilo, Christen, Urs, Hintermann, Edith, Fißlthaler, Beate, Schröder, Katrin, Brandes, Ralf, Genz, Berit, Abshagen, Kerstin, Pützer, Brigitte M., Sha, Lisa K., Weigert, Andreas, Syed, Shahzad Nawaz, Schulz, Martin, Shah, Ajay M., Erns, Andreas, Putyrski, Mateusz, Finkelmeier, Fabian, Pešić, Marina, Greten, Florian, Hogardt, Michael, Kempf, Volkhard A. J., Gunne, Sandra, Parnham, Michael J., Brüne, Bernhard, Knethen, Andreas von, Schäfer, Anne, Kuchler, Laura, Knape, Tilo, Christen, Urs, Hintermann, Edith, Fißlthaler, Beate, Schröder, Katrin, Brandes, Ralf, Genz, Berit, Abshagen, Kerstin, Pützer, Brigitte M., Sha, Lisa K., Weigert, Andreas, Syed, Shahzad Nawaz, Schulz, Martin, Shah, Ajay M., Erns, Andreas, Putyrski, Mateusz, Finkelmeier, Fabian, Pešić, Marina, Greten, Florian, Hogardt, Michael, Kempf, Volkhard A. J., Gunne, Sandra, Parnham, Michael J., and Brüne, Bernhard

Abstract

Cytotoxic T lymphocyte (CTL) activation contributes to liver damage during sepsis, but the mechanisms involved are largely unknown. Understanding the underlying principle will permit interference with CTL activation and thus, provide a new therapeutic option. Methods: To elucidate the mechanism leading to CTL activation we used the Hepa1-6 cell line in vitro and the mouse model of in vivo polymicrobial sepsis, following cecal-ligation and -puncture (CLP) in wildtype, myeloid specific NOX-2, global NOX2 and NOX4 knockout mice, and their survival as a final readout. In this in vivo setting, we also determined hepatic mRNA and protein expression as well as clinical parameters of liver damage - aspartate- and alanine amino-transaminases. Hepatocyte specific overexpression of PD-L1 was achieved in vivo by adenoviral infection and transposon-based gene transfer using hydrodynamic injection. Results: We observed downregulation of PD-L1 on hepatocytes in the murine sepsis model. Adenoviral and transposon-based gene transfer to restore PD-L1 expression, significantly improved survival and reduced the release of liver damage, as PD-L1 is a co-receptor that negatively regulates T cell function. Similar protection was observed during pharmacological intervention using recombinant PD-L1-Fc. N-acetylcysteine blocked the downregulation of PD-L1 suggesting the involvement of reactive oxygen species. This was confirmed in vivo, as we observed significant upregulation of PD-L1 expression in NOX4 knockout mice, following sham operation, whereas its expression in global as well as myeloid lineage NOX2 knockout mice was comparable to that in the wild type animals. PD-L1 expression remained high following CLP only in total NOX2 knockouts, resulting in significantly reduced release of liver damage markers. Conclusion: These results suggest that, contrary to common assumption, maintaining PD-L1 expression on hepatocytes improves liver damage and survival of mice during sepsis. We conclude

Published

2019

5. Apoptotic regress of immature single positive and double positive thymocyte subpopulations contributes to thymus involution during murine polymicrobial sepsis

Author

Netzer, Christoph, Knape, Tilo, Kuchler, Laura, Weigert, Andreas, Zacharowski, Kai, Pfeilschifter, Waltraud, Sempowski, Gregory, Brüne, Bernhard, and von Knethen, Andreas

Subjects

Male, Disease Models, Animal, Mice, Thymocytes, Bcl-2-Like Protein 11, Sepsis, Animals, Apoptosis, Thymus Gland, bacterial infections and mycoses, Article

Abstract

To generate and maintain functional T-cell receptor diversity, thymocyte development is tightly organized. Errors in this process may have dramatic consequences, provoking, for example, autoimmune diseases. Probably for this reason, the thymus reacts to septic stress with involution, decreasing the numbers of thymocytes. Because it is still unclear which thymocyte subpopulation contributes to thymus involution and whether thymocyte emigration is altered, we were interested to clarify this question in detail. Here, we show, using the cecal ligation and puncture (CLP) mouse model of polymicrobial sepsis, that predominantly immature thymocytes are reduced. The number of immature single positive thymocytes was most marked diminished (CLP: 6.54 × 10 ± 3.79 × 10 vs. sham: 4.54 × 10 ± 7.66 × 10 cells/thymus [24 h], CLP: 2.60 × 10 ± 2.14 × 10 vs. sham: 2.17 × 10 ± 1.90 × 10 cells/thymus [48 h]), and was consequently associated with the highest rate of apoptosis (8.4 [CLP] vs. 2.2% [sham]), the reduction in double positive thymocytes being associated with a smaller apoptotic response (number, CLP: 2.33 × 10 ± 1.38 × 10 vs. sham: 1.07 × 10 ± 2.72 × 10 cells/thymus [24 h], CLP: 2.34 × 10 ± 9.08 × 10 vs. sham: 3.5 × 10 ± 9.62 × 10 cells/thymus [48 h]; apoptosis: 2.5% [CLP] vs. 0.7% [sham]). Analysis of T-cell receptor excision circles revealed that the emigration of mature thymocytes was not inhibited. Real-time qPCR analysis revealed upregulation of pro-apoptotic Bim expression and suggested interference between Notch receptor expression on thymocytes and the respective ligands on thymic stromal cells during CLP-dependent sepsis, which might be responsible for the altered thymocyte viability in CLP-dependent sepsis.

Published

2017

6. Flow cytometry-based FRET identifies binding intensities in PPARγ1 protein-protein interactions in living cells

Author

Trümper, Verena, primary, von Knethen, Andreas, additional, Preuß, Annegret, additional, Ermilov, Eugeny, additional, Hackbarth, Steffen, additional, Kuchler, Laura, additional, Gunne, Sandra, additional, Schäfer, Anne, additional, Bornhütter, Tobias, additional, Vereb, György, additional, Ujlaky-Nagy, Lázló, additional, Brüne, Bernhard, additional, Röder, Beate, additional, Schindler, Michael, additional, Parnham, Michael J., additional, and Knape, Tilo, additional

Published

2019

7. Tolerizing CTL by Sustained Hepatic PD-L1 Expression Provides a New Therapy Approach in Mouse Sepsis

Author

von Knethen, Andreas, primary, Schäfer, Anne, additional, Kuchler, Laura, additional, Knape, Tilo, additional, Christen, Urs, additional, Hintermann, Edith, additional, Fißlthaler, Beate, additional, Schröder, Katrin, additional, Brandes, Ralf P., additional, Genz, Berit, additional, Abshagen, Kerstin, additional, Pützer, Brigitte M., additional, Sha, Lisa K., additional, Weigert, Andreas, additional, Syed, Shahzad N., additional, Schulz, Martin, additional, Shah, Ajay M., additional, Ernst, Andreas, additional, Putyrski, Mateusz, additional, Finkelmeier, Fabian, additional, Pesic, Marina, additional, Greten, Florian, additional, Hogardt, Michael, additional, Kempf, Volkhard A. J., additional, Gunne, Sandra, additional, Parnham, Michael J., additional, and Brüne, Bernhard, additional

Published

2019

8. Apoptotic Diminution of Immature Single and Double Positive Thymocyte Subpopulations Contributes to Thymus Involution During Murine Polymicrobial Sepsis

Author

Netzer, Christoph, primary, Knape, Tilo, additional, Kuchler, Laura, additional, Weigert, Andreas, additional, Zacharowski, Kai, additional, Pfeilschifter, Waltraud, additional, Sempowski, Gregory, additional, Parnham, Michael J., additional, Brüne, Bernhard, additional, and von Knethen, Andreas, additional

Published

2017

9. 5-Lipoxygenase contributes to PPAR [gamma] activation in macrophages in response to apoptotic cells

Author

Knethen, Andreas von, Eifler, Lisa, Kuchler, Laura, Heeg, Annika, Heide, Heinrich, Wittig, Ilka, Maier, Thorsten Jürgen, Steinhilber, Dieter, and Brüne, Bernhard

Subjects

ddc:570, lipids (amino acids, peptides, and proteins), ddc:610

Abstract

Background: One hallmark contributing to immune suppression during the late phase of sepsis is macrophage polarization to an anti-inflammatory phenotype upon contact with apoptotic cells (AC). Taking the important role of the nuclear receptor PPARγ for this phenotype switch into consideration, it remains elusive how AC activate PPARγ in macrophages. Therefore, we were interested to characterize the underlying principle. Methods: Apoptosis was induced by treatment of Jurkat T cells for 3 hours with 0.5 μg/ml staurosporine. Necrotic cells (NC) were prepared by heating cells for 20 minutes to 65°C. PPARγ activation was followed by stably transducing RAW264.7 macrophages with a vector encoding the red fluorescent protein mRuby after PPARγ binding to 4 × PPRE sites downstream of the reporter gene sequence. This readout was established by treatment with the PPARγ agonist rosiglitazone (1 μM) and AC (5:1). Twenty-four hours after stimulation, mRuby expression was analysed by fluorescence microscopy. Lipid rafts of AC, NC, as well as living cells (LC) were enriched by sucrose gradient centrifugation. Fractions were analysed for lipid raft-associated marker proteins. Lipid rafts were incubated with transduced RAW264.7 macrophages as described above. 5-Lipoxygenase (5-LO) involvement was verified by pharmacological inhibition (MK-866, 1 μM) and overexpression. Results: Assuming that the molecule responsible for PPARγ activation in macrophages is localized in the cell membrane of AC, most probably associated to lipid rafts, we isolated lipid rafts from AC, NC and LC. Mass spectrometric analysis of lipid rafts of AC showed the expression of 5-LO, whereas lipid rafts of LC did not. Moreover, incubating macrophages with lipid rafts of AC induced mRuby expression. In contrast, lipid rafts of NC and LC did not. To verify the involvement of 5-LO in activating PPARγ in macrophages, Jurkat T cells were incubated for 30 minutes with the 5-LO inhibitor MK-866 (1 μM) before apoptosis induction. In line with our hypothesis, these AC did not induce mRuby expression. Finally, although living Jurkat T cells overexpressing 5-LO did not activate PPARγ in macrophages, mRuby expression was significantly increased when AC were generated from 5-LO overexpressing compared with wild-type Jurkat cells. Conclusion: Our results suggest that induction of apoptosis activates 5-LO, localizing to lipid rafts, necessary for PPARγ activation in macrophages. Therefore, it will be challenging to determine whether 5-LO activity in AC, generated from other cell types, correlates with PPARγ activation, contributing to an immune-suppressed phenotype in macrophages.

Published

2012

10. Autophagy-dependent PELI3 degradation inhibits proinflammatory IL1B expression

Author

Giegerich, Annika Klara, primary, Kuchler, Laura, additional, Sha, Lisa Katharina, additional, Knape, Tilo, additional, Heide, Heinrich, additional, Wittig, Ilka, additional, Behrends, Christian, additional, Brüne, Bernhard, additional, and Knethen, Andreas von, additional

Published

2014

11. LPS-induced Pellino3 degradation is mediated by p62-dependent autophagy

Author

Heeg, Annika, Kuchler, Laura, Eifler, Lisa, Knape, Tilo, Heide, Hermann, Brüne, Bernhard, Knethen, Andreas von, Heeg, Annika, Kuchler, Laura, Eifler, Lisa, Knape, Tilo, Heide, Hermann, Brüne, Bernhard, and Knethen, Andreas von

Abstract

Background: In macrophages Toll-like receptor 4 (TLR4) is activated in response to lipopolysaccharide (LPS) and induces proinflammatory cytokine expression. Therefore, mechanisms terminating proinflammatory gene expression are important. Autophagy plays a central role in controlling innate immune responses by lysosomal degradation of signaling proteins, thus contributing to the resolution of inflammation. Autophagic proteins like p62 directly interact with molecules involved in the TLR4-signaling pathway, but a correlation with the IRAK E3 ligase and scaffold protein Pellino3 remains obscure. Hence, we are interested in elucidating the function of Pellino3 to prove our hypothesis that it is a key regulator in the TLR4-signaling cascade. Methods: We used the cecal ligation and puncture (CLP) mouse model causing polymicrobial sepsis to analyze Pellino3 protein and mRNA expression. Furthermore, we induced endotoxemia in RAW264.7 mouse macrophages by LPS treatment to verify in vivo experiments. Lentiviral Pellino3 knockdown in RAW264.7 macrophages was used for cytokine measurements at mRNA level. To analyze potential Pellino3 binding partners in TLR4-signaling by mass spectrometry (MS), we overexpressed FLAG-tagged Pellino3 in RAW264.7 macrophages, treated cells for 3, 6 and 24 hours with LPS and immunoprecipitated Pellino3 via its FLAG-tag. To consider Pellino3 degradation as a result of p62-mediated autophagy, we transiently knocked down p62 by siRNA in RAW264.7 macrophages and also pharmacologically blocked LPS-induced autophagy by Bafilomycin A1. Results: We demonstrated Pellino3 protein degradation in primary CD11b+ splenocytes after 24 hours following CLP operation and confirmed this in RAW264.7 macrophages after 24-hour LPS stimulation. Knockdown of Pellino3 attenuates proinflammatory cytokines, for example IL-6 mRNA, after 6 hours of LPS. Furthermore, we found by MS and verifying immunoprecipitation experiments that p62 is a Pellino3 binding partner, thus target

Published

2012

12. Attenuated NOX2 expression impairs ROS production during the hypoinflammatory phase of sepsis

Author

Kuchler, Laura, Morbitzer, Virginie, Heeg, Annika, Eifler, Lisa, Knape, Tilo, Brüne, Bernhard, Knethen, Andreas von, Kuchler, Laura, Morbitzer, Virginie, Heeg, Annika, Eifler, Lisa, Knape, Tilo, Brüne, Bernhard, and Knethen, Andreas von

Abstract

Background: The multicomponent phagocytic NADPH oxidase produces reactive oxygen species (ROS) after activation by microorganisms or inflammatory mediators. In the hypoinflammatory phase of sepsis, macrophages are alternatively activated by contact with apoptotic cells or their secretion products. This inhibits NADPH oxidase and leads to attenuated ROS production and furthermore contributes among others to a hyporeactive host defense. Due to this immune paralysis, sepsis patients suffer from recurrent and secondary infections. We focused on the catalytic subunit of NADPH oxidase, the transmembrane protein NOX2. We assume that after induction of sepsis the expression of NOX2 is reduced and hence ROS production is decreased. Methods: We induced polymicrobial sepsis in mice by cecal ligation and puncture. The ability of peritoneal macrophages (PMs) to produce ROS was determined by FACS via hydroethidine assay. NOX2 expression of PMs was determined by western blot and qPCR. To elucidate the mechanism causing mRNA destabilization, we performed in vitro experiments using J774 macrophages. To obtain an alternatively activated phenotype, macrophages were stimulated with conditioned medium from apoptotic T cells (CM). By luciferase assays we figured out a 3'UTR-dependent regulation of NOX2 mRNA stability. Assuming that a protein is involved in the mRNA degradation, we performed a RNA pulldown with biotinylated NOX2-3'UTR constructs followed by mass spectrometry. We verified the role of SYNCRIP by siRNA approach. Additionally, we overexpressed NOX2 in J774 cells and analyzed the ROS production (w/wo CM treatment) by FACS. Results: We found an impaired expression of NOX2 at RNA and protein level along with decreased ROS production after induction of sepsis in mice as well as stimulating J774 macrophages with CM of apoptotic T cells. This is due to a time-dependent NOX2 mRNA degradation depending on SYNCRIP, a RNA-binding protein, which stabilizes NOX2 mRNA through binding to i

Published

2012

13. Activation of the peroxisome proliferator-activated receptor γ counteracts sepsis-induced T cell cytotoxicity toward alloantigenic target cells.

Author

Knethen, Andreas, Sha, Lisa, Knape, Tilo, Kuchler, Laura, Giegerich, Annika, Schulz, Martin, Hauser, Ingeborg, and Brüne, Bernhard

Subjects

PEROXISOME proliferator-activated receptors, SEPSIS, T cell receptors, CYTOTOXIC T lymphocyte-associated molecule-4, MULTIPLE organ failure

Abstract

Sepsis still emerges as a major cause of patient death in intensive care units. Therefore, new therapeutic approaches are mandatory. Because during sepsis progression cytotoxic T lymphocytes (CTLs) can be activated in an autoimmune fashion contributing to multiorgan damage, it remains unclear whether CTLs are activated toward alloantigenic cells. This is important for patients receiving an immunosuppressive therapy to permit organ transplantation and, thus, known to be at high risk for developing sepsis. Therefore, we analyzed whether sepsis activates CTL toward alloantigenic target cells and whether this can be inhibited by PPARγ activation, known to block T helper cell responses. To mimic septic conditions, CTLs were isolated from cecal ligation and puncture-operated mice. CTL cytotoxicity was analyzed following a direct alloantigenic activation regime or following classical ex vivo splenocyte-driven activation in a cytotoxicity assay. With this readout, we found that CTL derived from septic mice enhanced cytotoxicity toward alloantigenic target cells, which was lowered by in vivo and ex vivo PPARγ activation. With CTL derived from T cell-specific PPARγ knockout mice, PPARγ activation was ineffective, pointing to a PPARγ-dependent mechanism. In vivo and ex vivo PPARγ activation reduced Fas and granzyme B expression in activated CTL. Key message: [ABSTRACT FROM AUTHOR]

Published

2015