Your search keyword '"Klein, Matthias"' showing total 12 results

1. Interleukin-1 promotes autoimmune neuroinflammation by suppressing endothelial heme oxygenase-1 at the blood-brain barrier.

Author

Hauptmann J, Johann L, Marini F, Kitic M, Colombo E, Mufazalov IA, Krueger M, Karram K, Moos S, Wanke F, Kurschus FC, Klein M, Cardoso S, Strauß J, Bolisetty S, Lühder F, Schwaninger M, Binder H, Bechman I, Bopp T, Agarwal A, Soares MP, Regen T, and Waisman A

Subjects

Animals, Blood-Brain Barrier immunology, Encephalomyelitis, Autoimmune, Experimental enzymology, Gene Expression Regulation immunology, Mice, Mice, Inbred C57BL, Signal Transduction immunology, Blood-Brain Barrier enzymology, Encephalomyelitis, Autoimmune, Experimental immunology, Endothelial Cells enzymology, Heme Oxygenase-1 metabolism, Inflammation immunology, Interleukin-1 immunology

Abstract

The proinflammatory cytokine interleukin 1 (IL-1) is crucially involved in the pathogenesis of multiple sclerosis (MS) and its animal model experimental autoimmune encephalomyelitis (EAE). Herein, we studied the role of IL-1 signaling in blood-brain barrier (BBB) endothelial cells (ECs), astrocytes and microglia for EAE development, using mice with the conditional deletion of its signaling receptor IL-1R1. We found that IL-1 signaling in microglia and astrocytes is redundant for the development of EAE, whereas the IL-1R1 deletion in BBB-ECs markedly ameliorated disease severity. IL-1 signaling in BBB-ECs upregulated the expression of the adhesion molecules Vcam-1, Icam-1 and the chemokine receptor Darc, all of which have been previously shown to promote CNS-specific inflammation. In contrast, IL-1R1 signaling suppressed the expression of the stress-responsive heme catabolizing enzyme heme oxygenase-1 (HO-1) in BBB-ECs, promoting disease progression via a mechanism associated with deregulated expression of the IL-1-responsive genes Vcam1, Icam1 and Ackr1 (Darc). Mechanistically, our data emphasize a functional crosstalk of BBB-EC IL-1 signaling and HO-1, controlling the transcription of downstream proinflammatory genes promoting the pathogenesis of autoimmune neuroinflammation.

Published

2020

2. Depletion of regulatory T cells increases T cell brain infiltration, reactive astrogliosis, and interferon-γ gene expression in acute experimental traumatic brain injury

Author

Krämer, Tobias J., Hack, Nathalia, Brühl, Till J., Menzel, Lutz, Hummel, Regina, Griemert, Eva-Verena, Klein, Matthias, Thal, Serge C., Bopp, Tobias, and Schäfer, Michael K. E.

Published

2019

3. MyD88-Dependent Immune Response Contributes to Hearing Loss in Experimental Pneumococcal Meningitis

Author

Klein, Matthias, Schmidt, Caroline, Kastenbauer, Stefan, Paul, Robert, Kirschning, Carsten J., Wagner, Hermann, Popp, Bernadette, Pfister, Hans-Walter, and Koedel, Uwe

Published

2007

4. Proinflammatory CD20+ T cells contribute to CNS-directed autoimmunity.

Author

Ochs, Jasmin, Nissimov, Nitzan, Torke, Sebastian, Freier, Marie, Grondey, Katja, Koch, Julian, Klein, Matthias, Feldmann, Linda, Gudd, Cathrin, Bopp, Tobias, Häusser-Kinzel, Silke, and Weber, Martin S.

Subjects

T cells, AUTOIMMUNITY, MONOCLONAL antibodies, CD20 antigen, AUTOIMMUNE diseases, INFLAMMATION, B cells

Abstract

The origin and function of CD20+ T cells are poorly understood. Here, we characterized CD20+ T cells in mice and humans and investigated how they are affected by anti-CD20 antibody treatment. We report that murine CD20+ T cells are unable to endogenously express the B cell lineage marker CD20; the development of CD20+ T cells in rodents requires the presence of CD20-expressing B cells. Our results demonstrated that both murine and human T cells acquire CD20 from B cells via trogocytosis while being activated by an antigen-presenting B cell. In patients with multiple sclerosis (MS) and mice with experimental autoimmune encephalomyelitis (EAE), expression of CD20 on T cells is associated with an up-regulation of activation markers, proinflammatory cytokines, and adhesion molecules, suggesting high pathogenic potential. Supporting this hypothesis, CD20+ T cells expand during active EAE in rodents; furthermore, adoptive transfer of CD20+ T cells into EAE-diseased mice worsened histological and clinical severity. Of direct therapeutic relevance, we demonstrate that the exclusive therapeutic elimination of CD20+ T cells effectively ameliorates EAE, independent of B cells. The results support the hypothesis that CD20+ T cells arise upon B cell–T cell interaction and that depletion of CD20+ T cells might contribute to the success of anti-CD20 antibody therapies in MS and other inflammatory disorders. Understanding CD20+ T cells in MS: Anti-CD20 monoclonal antibodies have shown some efficacy in patients with multiple sclerosis (MS). Although CD20 is mostly expressed by B cells, a subpopulation of CD20+ T cells has been identified. The origin of CD20+ T cells and their role in autoimmune diseases are not fully elucidated. Now, Ochs et al. found that T cells can acquire CD20 directly from B cells via tragocytosis. In mice with experimental autoimmune encephalomyelitis (EAE) and in patients with MS, expansion of this population contributes to the ongoing pathological inflammatory process. Selective depletion of CD20+ T cells in EAE mice had therapeutic effects, suggesting that elimination of this population might contribute to the efficacy of anti-CD20 therapies in MS. [ABSTRACT FROM AUTHOR]

Published

2022

5. Inhibition of DAMP signaling as an effective adjunctive treatment strategy in pneumococcal meningitis.

Author

Masouris, Ilias, Klein, Matthias, Dyckhoff, Susanne, Angele, Barbara, Pfister, H. W., and Koedel, Uwe

Subjects

*PNEUMOCOCCAL meningitis, *INFLAMMATION, *BRAIN damage, *DEXAMETHASONE, *IMMUNOSUPPRESSION, *THERAPEUTICS, *PROTEIN metabolism, *ANIMAL experimentation, *COMBINATION drug therapy, *IMMUNOSUPPRESSIVE agents, *MICE, *MONOCLONAL antibodies, *PROTEINS, *TREATMENT effectiveness, *CHEMICAL inhibitors, *DRUG therapy

Abstract

Background: Pneumococcal meningitis remains a potentially lethal and debilitating disease, mainly due to brain damage from sustained inflammation. The release of danger-associated molecular patterns (DAMPs), like myeloid-related protein 14 (MRP14) and high mobility group box 1 protein (HMGB1), plays a major role in persistence of inflammation. In this study, we evaluated if paquinimod, an MRP14-inhibitor, and an anti-HMGB1 antibody can improve clinical outcome as adjunctive therapeutics in pneumococcal meningitis.Methods: We tested the adjuvant administration of paquinimod and the anti-HMGB1 antibody in our pneumococcal meningitis mouse model assessing clinical (clinical score, open-field-test, temperature) and pathophysiological parameters (intracranial pressure, white blood cell count in CSF, bleeding area) as well as bacterial titers in blood and brain 24 h after administration and 48 h after infection. Furthermore, we explored the interactions of these two agents with dexamethasone, the standard adjuvant treatment in pneumococcal meningitis (PM), and daptomycin, a non-bacteriolytic antibiotic preventing pathogen-associated molecular pattern (PAMP) release.Results: Adjunctive inhibition of MRP14 or HMGB1 reduced mortality in mice with PM. This effect was lost when the two anti-DAMP agents were given simultaneously, possibly due to excessive immunosuppression. Combining anti-PAMP (daptomycin) and anti-DAMP treatments did not produce synergistic results; instead, the anti-DAMP treatment alone was sufficient and superior. The combination of anti-HMGB1 with dexamethasone did not diminish the effect of the former.Conclusions: DAMP inhibition possesses good potential as an adjuvant treatment approach in PM, as it improves clinical outcome and can be given together with the standard adjuvant dexamethasone without drug effect loss in experimental PM. [ABSTRACT FROM AUTHOR]

Published

2017

6. Myeloid-Related Protein 14 Promotes Inflammation and Injury in Meningitis.

Author

Wache, Christina, Klein, Matthias, Ostergaard, Christian, Angele, Barbara, Häcker, Hans, Pfister, Hans-Walter, Pruenster, Monika, Sperandio, Markus, Leanderson, Tomas, Roth, Johannes, Vogl, Thomas, and Koedel, Uwe

Subjects

*MYELOID leukemia, *INFLAMMATION, *MENINGITIS, *DRUG therapy, *BRAIN damage, *THERAPEUTICS

Abstract

Background: Neutrophilic inflammation often persists for days despite effective antibiotic treatment and contributes to brain damage in bacterial meningitis. We propose here that myeloid-related protein 14 (MRP14), an abundant cytosolic protein in myeloid cells, acts as an endogenous danger signal, driving inflammation and aggravating tissue injury. Methods: The release pattern of MRP14 was analyzed in human and murine cerebrospinal fluid (CSF), as well as in isolated neutrophils. Its functional role was assessed in a mouse meningitis model, using MRP14-deficient mice. Results: We detected large quantities of MRP14 in CSF specimens from patients and mice with pneumococcal meningitis. Immunohistochemical analyses and a cell-depletion approach indicated neutrophils as the major source of MRP14. In a meningitis model, MRP14-deficient mice showed a better resolution of inflammation during antibiotic therapy, which was accompanied by reduced disease severity. Intrathecal administration of MRP14 before infection reverted the phenotype of MRP14-deficient mice back to wild type. Moreover, intrathecal injection of MRP14 alone was sufficient to induce meningitis in a Toll-like receptor 4 (TLR4)-CXCL2-dependent manner. Finally, treatment with the MRP14 antagonist paquinimod reduced inflammation and disease severity significantly, reaching levels comparable to those achieved after genetic depletion of MRP14. Conclusions: The present study implicates MRP14 as an essential propagator of inflammation and potential therapeutic target in pneumococcal meningitis. [ABSTRACT FROM AUTHOR]

Published

2015

7. Leukocyte Attraction by CCL20 and Its Receptor CCR6 in Humans and Mice with Pneumococcal Meningitis.

Author

Klein, Matthias, Brouwer, Matthijs C., Angele, Barbara, Geldhoff, Madelijn, Marquez, Gabriel, Varona, Rosa, Häcker, Georg, Schmetzer, Helga, Häcker, Hans, Hammerschmidt, Sven, van der Ende, Arie, Pfister, Hans-Walter, van de Beek, Diederik, and Koedel, Uwe

Subjects

*PNEUMOCOCCAL meningitis, *LEUCOCYTES, *CHEMOKINES, *CEREBROSPINAL fluid, *LABORATORY mice, *IMMUNE system

Abstract

We previously identified CCL20 as an early chemokine in the cerebrospinal fluid (CSF) of patients with pneumococcal meningitis but its functional relevance was unknown. Here we studied the role of CCL20 and its receptor CCR6 in pneumococcal meningitis. In a prospective nationwide study, CCL20 levels were significantly elevated in the CSF of patients with pneumococcal meningitis and correlated with CSF leukocyte counts. CCR6-deficient mice with pneumococcal meningitis and WT mice with pneumococcal meningitis treated with anti-CCL20 antibodies both had reduced CSF white blood cell counts. The reduction in CSF pleocytosis was also accompanied by an increase in brain bacterial titers. Additional in vitro experiments showed direct chemoattractant activity of CCL20 for granulocytes. In summary, our results identify the CCL20-CCR6 axis as an essential component of the innate immune defense against pneumococcal meningitis, controlling granulocyte recruitment. [ABSTRACT FROM AUTHOR]

Published

2014

8. Mast cell-derived mediators promote murine neutrophil effector functions.

Author

Doener, Fatma, Michel, Anastasija, Reuter, Sebastian, Friedrich, Pamela, Böhm, Livia, Relle, Manfred, Codarri, Laura, Tenzer, Stefan, Klein, Matthias, Bopp, Tobias, Schmitt, Edgar, Schild, Hansjörg, Radsak, Markus Philipp, Taube, Christian, Stassen, Michael, and Becker, Marc

Subjects

NEUTROPHILS, IMMUNE response, INFLAMMATORY mediators, MAST cells, NATURAL immunity, GENE expression, PHAGOCYTOSIS, REACTIVE oxygen species

Abstract

Mast cells are able to trigger life-saving immune responses in murine models for acute inflammation. In such settings, several lines of evidence indicate that the rapid and protective recruitment of neutrophils initiated by the release of mast cell-derived pro-inflammatory mediators is a key element of innate immunity. Herein, we investigate the impact of mast cells on critical parameters of neutrophil effector function. In the presence of activated murine bone marrow-derived mast cells, neutrophils freshly isolated from bone marrow rapidly lose expression of CD62L and up-regulate CD11b, the latter being partly driven by mast cell-derived TNF and GM-CSF. Mast cells also strongly enhance neutrophil phagocytosis and generation of reactive oxygen species. All these phenomena partly depend on mast cell-derived TNF and to a greater extend on GM-CSF. Furthermore, spontaneous apoptosis of neutrophils is greatly diminished due to the ability of mast cells to deliver antiapoptotic GM-CSF. Finally, we show in a murine model for acute lung inflammation that neutrophil phagocytosis is impaired in mast cell-deficient Kit W-sh/Kit W-sh mice but can be restored upon mast cell engraftment. Thus, a previously underrated feature of mast cells is their ability to boost neutrophil effector functions in immune responses. [ABSTRACT FROM PUBLISHER]

Published

2013

9. Stabbing Headache as a Sign of Relapses in Multiple Sclerosis.

Author

Klein, Matthias, Woehrl, Bianca, Zeller, Grete, and Straube, Andreas

Subjects

*MULTIPLE sclerosis diagnosis, *ADRENOCORTICAL hormones, *HEADACHE, *INTERFERONS, *LEUCOCYTE disorders, *MAGNETIC resonance imaging, *MULTIPLE sclerosis, *PAIN, *DISEASE relapse, *METHYLPREDNISOLONE, *DIAGNOSIS

Abstract

The article presents a case study of a 43-year old Caucasian female who was admitted to a hospital due to repeated short-lasting right and left parietal paroxysms. It states that the patient complained of suffering from paroxysmal stabbing pain for 6 weeks which occurs to 100 times per day. It cites that the patient started interferon beta-lalpha in Spring 2012. It also mentions that the patient no longer suffer episodes of headache.

Published

2013

10. Early posttraumatic CSF1R inhibition via PLX3397 leads to time- and sex-dependent effects on inflammation and neuronal maintenance after traumatic brain injury in mice.

Author

Wang, Yong, Wernersbach, Isa, Strehle, Jenny, Li, Shuailong, Appel, Dominik, Klein, Matthias, Ritter, Katharina, Hummel, Regina, Tegeder, Irmgard, and Schäfer, Michael K.E.

Subjects

*SYNAPSES, *PHAGOCYTOSIS, *BRAIN injuries, *MACROPHAGE colony-stimulating factor, *RIBOSOMAL proteins, *BRAIN damage, *ENCEPHALITIS, *MICE

Abstract

[Display omitted] • M/M attenuation does not affect early structural brain damage. • Early hematoma clearance is impaired by M/M attenuation. • IL-1β expression predominates in astrocytes irrespectively of M/M attenuation. • Early M/M attenuation improves long-term neuronal maintenance and recovery. • Evidence that male mice benefit more than female mice after early M/M attenuation. There is a need for early therapeutic interventions after traumatic brain injury (TBI) to prevent neurodegeneration. Microglia/macrophage (M/M) depletion and repopulation after treatment with colony stimulating factor 1 receptor (CSF1R) inhibitors reduces neurodegeneration. The present study investigates short- and long-term consequences after CSF1R inhibition during the early phase after TBI. Sex-matched mice were subjected to TBI and CSF1R inhibition by PLX3397 for 5 days and sacrificed at 5 or 30 days post injury (dpi). Neurological deficits were monitored and brain tissues were examined for histo- and molecular pathological markers. RNAseq was performed with 30 dpi TBI samples. At 5 dpi, CSF1R inhibition attenuated the TBI-induced perilesional M/M increase and associated gene expressions by up to 50%. M/M attenuation did not affect structural brain damage at this time-point, impaired hematoma clearance, and had no effect on IL-1β expression. At 30 dpi, following drug discontinuation at 5 dpi and M/M repopulation, CSF1R inhibition attenuated brain tissue loss regardless of sex, as well as hippocampal atrophy and thalamic neuronal loss in male mice. Selected gene markers of brain inflammation and apoptosis were reduced in males but increased in females after early CSF1R inhibition as compared to corresponding TBI vehicle groups. Neurological outcome in behaving mice was almost not affected. RNAseq and gene set enrichment analysis (GSEA) of injured brains at 30 dpi revealed more genes associated with dendritic spines and synapse function after early CSF1R inhibition as compared to vehicle, suggesting improved neuronal maintenance and recovery. In TBI vehicle mice, GSEA showed high oxidative phosphorylation, oxidoreductase activity and ribosomal biogenesis suggesting oxidative stress and increased abundance of metabolically highly active cells. More genes associated with immune processes and phagocytosis in PLX3397 treated females vs males, suggesting sex-specific differences in response to early CSF1R inhibition after TBI. M/M attenuation after CSF1R inhibition via PLX3397 during the early phase of TBI reduces long-term brain tissue loss, improves neuronal maintenance and fosters synapse recovery. Overall effects were not sex-specific but there is evidence that male mice benefit more than female mice. [ABSTRACT FROM AUTHOR]

Published

2022

11. IL-10 and Regulatory T Cells Cooperate in Allergen-Specific Immunotherapy To Ameliorate Allergic Asthma.

Author

Bohm, Livia, Maxeiner, Joachim, Meyer-Martin, Helen, Reuter, Sebastian, Finotto, Susetta, Klein, Matthias, Schild, Hansjorg, Schmitt, Edgar, Bopp, Tobias, and Taube, Christian

Subjects

*INTERLEUKIN-10, *T cells, *ALLERGENS, *IMMUNOTHERAPY, *ASTHMA treatment, *ALLERGIES, *INFLAMMATION

Abstract

Human studies demonstrated that allergen-specific immunotherapy (IT) represents an effective treatment for allergic diseases. IT involves repeated administration of the sensitizing allergen, indicating a crucial contribution of T cells to its medicinal benefit. However, the underlying mechanisms of IT, especially in a chronic disease, are far from being definitive. In the current study, we sought to elucidate the suppressive mechanisms of IT in a mouse model of chronic allergic asthma. OVA-sensitized mice were challenged with OVA or PBS for 4 wk. After development of chronic airway inflammation, mice received OVA-specific IT or placebo alternately to airway challenge for 3 wk. To analyze the T cell-mediated mechanisms underlying IT in vivo, we elaborated the role of T-bet-expressing Thl cells, T cell-derived IL-10, and Ag-specific thymic as well as peripherally induced Foxp3+ regulatory T (Treg) cells. IT ameliorated airway hyperresponsiveness and airway inflammation in a chronic asthma model. Of note, IT even resulted in a regression of structural changes in the airways following chronic inhaled allergen exposure. Concomitantly, IT induced Thl cells, Foxp3+, and IL-10-producing Treg cells. Detailed analyses revealed that thymic Treg cells crucially contribute to the effectiveness of IT by promoting IL-10 production in Foxp3-negative T cells. Together with the peripherally induced Agspecific Foxp3+ Treg cells, thymic Foxp3+ Treg cells orchestrate the curative mechanisms of IT. Taken together, we demonstrate that IT is effective in a chronic allergic disease and dependent on IL-10 and thymic as well as peripherally induced Ag-specific Treg cells. [ABSTRACT FROM AUTHOR]

Published

2015

12. Regulatory T Cells More Effectively Suppress Th1-Induced Airway Inflammation Compared with Th2.

Author

Dehzad, Nina, Bopp, Tobias, Reuter, Sebastian, Klein, Matthias, Martin, Helen, Ulges, Alexander, Stassen, Michael, Schild, Hansjörg, Buhl, Roland, Schmitt, Edgar, and Taube, Christian

Subjects

*ASTHMA, *T cells, *ALLERGENS, *INFLAMMATION, *LUNG diseases

Abstract

Asthma is a syndrome with different inflammatory phenotypes. Animal models have shown that, after sensitization and allergen challenge, Th2 and Th1 cells contribute to the development of allergic airway disease. We have previously demonstrated that naturally occurring regulatory T cells (nTregs) can only marginally suppress Th2-induced airway inflammation and airway hyperresponsiveness. In this study, we investigated nTreg-mediated suppression of Th2-induced and Th1-induced acute allergic airway disease. We demonstrate in vivo that nTregs exert their suppressive potency via cAMP transfer on Th2- and Th1-induced airway disease. A comparison of both phenotypes revealed that, despite similar cAMP transfers, Th1-driven airway hyperresponsiveness and inflammation are more susceptible to nTreg-dependent suppression, suggesting that potential nTreg-based therapeutic strategies might be more effective in patients with predominantly neutrophilic airway inflammation based on deregulated Th1 response. [ABSTRACT FROM AUTHOR]

Published

2011