Julia Brunner
Medical University of Vienna
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Featured researches published by Julia Brunner.
Journal of Immunology | 2014
Emine Sahin; Stefan Haubenwallner; Mario Kuttke; Isabella Kollmann; Angela Halfmann; Alexander B. Dohnal; Li Chen; Paul C. Cheng; Bastian Hoesel; Elisa Einwallner; Julia Brunner; Julia B. Kral; Waltraud C. Schrottmaier; Kathrin Thell; Victoria Saferding; Stephan Blüml; Gernot Schabbauer
The activation of innate immune cells triggers numerous intracellular signaling pathways, which require tight control to mount an adequate immune response. The PI3K signaling pathway is intricately involved in innate immunity, and its activation dampens the expression and release of proinflammatory cytokines in myeloid cells. These signaling processes are strictly regulated by the PI3K antagonist, the lipid phosphatase, PTEN, a known tumor suppressor. Importantly, PTEN is responsible for the elevated production of cytokines such as IL-6 in response to TLR agonists, and deletion of PTEN results in diminished inflammatory responses. However, the mechanisms by which PI3K negatively regulates TLR signaling are only partially resolved. We observed that Arginase I expression and secretion were markedly induced by PTEN deletion, suggesting PTEN−/− macrophages were alternatively activated. This was mediated by increased expression and activation of the transcription factors C/EBPβ and STAT3. Genetic and pharmacologic experimental approaches in vitro, as well as in vivo autoimmunity models, provide convincing evidence that PI3K/PTEN-regulated extracellular Arginase I acts as a paracrine regulator of inflammation and immunity.
Scientific Reports | 2016
Julia B. Kral; Mario Kuttke; Waltraud C. Schrottmaier; Birgit Birnecker; Joanna Warszawska; Christina Wernig; Hannah Paar; Manuel Salzmann; Emine Sahin; Julia Brunner; Christoph H. Österreicher; Sylvia Knapp; Alice Assinger; Gernot Schabbauer
Idiopathic pulmonary fibrosis (IPF) is a life-threatening disease with limited treatment options. Additionally, the lack of a complete understanding of underlying immunological mechanisms underscores the importance of discovering novel options for therapeutic intervention. Since the PI3K/PTEN pathway in myeloid cells influences their effector functions, we wanted to elucidate how sustained PI3K activity induced by cell-type specific genetic deficiency of its antagonist PTEN modulates IPF, in a murine model of bleomycin-induced pulmonary fibrosis (BIPF). We found that myeloid PTEN deficient mice (PTENMyKO), after induction of BIPF, exhibit increased TGF-β1 activation, mRNA expression of pro-collagens and lysyl oxidase as well as augmented collagen deposition compared to wild-type littermates, leading to enhanced morbidity and decreased survival. Analysis of alveolar lavage and lung cell composition revealed that PTENMyKO mice exhibit reduced numbers of macrophages and T-cells in response to bleomycin, indicating an impaired recruitment function. Interestingly, we found dysregulated macrophage polarization as well as elevated expression and release of the pro-fibrotic cytokines IL-6 and TNF-α in PTENMyKO mice during BIPF. This might point to an uncontrolled wound healing response in which the inflammatory as well as tissue repair mechanisms proceed in parallel, thereby preventing resolution and at the same time promoting extensive fibrosis.
Annals of the Rheumatic Diseases | 2015
Stephan Blüml; Martin Friedrich; Tobias Lohmeyer; Emine Sahin; Victoria Saferding; Julia Brunner; Antonia Puchner; Peter Mandl; Birgit Niederreiter; Josef S Smolen; Gernot Schabbauer; Kurt Redlich
Objective Local bone destruction in rheumatic diseases, which often leads to disability and severely reduced quality of life, is almost exclusively mediated by osteoclasts. Therefore, it is important to understand pathways regulating the generation of osteoclasts. Here, we analysed the impact of the Phosphoinositide-3-Kinase (PI3K)/Phosphatase and tensin homolog (PTEN) axis on osteoclast generation and bone biology under basal and inflammatory conditions. Methods We analysed osteoclastogenesis of wildtype (wt) and PTEN−/− cells in vitro and in vivo, pit resorption and qPCR of osteoclasts in vitro. Mice with a myeloid cell-specific deletion of PTEN and wt littermate mice were investigated by bone histomorphometry and clinical and histological assessment in the human tumour necrosis factor (TNF)-transgenic (hTNFtg) arthritis model. Results We show that myeloid-specific PTEN−/− mice display increased osteoclastogenesis in vitro and in vivo compared to wt mice. Loss of PTEN did not affect the generation or survival of osteoclast precursor cells. However, PTEN deficiency greatly enhanced receptor activator of nuclear factor κ-B ligand (RANKL)-induced expression of the master transcription factor of osteoclastogenesis, nuclear factor of activated T-cells, cytoplasmic 1 (NFATc1), resulting in markedly increased terminal differentiation of osteoclasts in vitro. We also observed increased osteoclastogenesis under inflammatory conditions in the hTNFtg mouse model of arthritis, where hTNFtg/myeloid-specific PTEN−/− mice displayed enhanced local bone destruction as well as osteoclast formation in the inflamed joints. The extent of synovial inflammation, however, as well as recruitment of osteoclast precursor cells was not different between wt and myeloid-specific PTEN−/− mice. Conclusions These data demonstrate that loss of PTEN and, therefore, sustained PI3-Kinase signalling in myeloid cells especially, elevates the osteoclastogenic potential of myeloid cells, leading to enhanced inflammatory local bone destruction. Therefore, although our study allows no direct translational conclusion since we used a conditional knockout approach, the therapeutic targeting of the PI3-Kinase pathway may be of benefit in preventing structural joint damage.
PLOS Pathogens | 2014
Omar Sharif; Riem Gawish; Joanna Warszawska; Rui Martins; Karin Lakovits; Anastasiya Hladik; Bianca Doninger; Julia Brunner; Ana Korosec; Roland E. Schwarzenbacher; Tiina Berg; Robert Kralovics; Jacques Colinge; Ildiko Mesteri; Susan Gilfillan; Andrea Salmaggi; Admar Verschoor; Marco Colonna; Sylvia Knapp
Phagocytosis and inflammation within the lungs is crucial for host defense during bacterial pneumonia. Triggering receptor expressed on myeloid cells (TREM)-2 was proposed to negatively regulate TLR-mediated responses and enhance phagocytosis by macrophages, but the role of TREM-2 in respiratory tract infections is unknown. Here, we established the presence of TREM-2 on alveolar macrophages (AM) and explored the function of TREM-2 in the innate immune response to pneumococcal infection in vivo. Unexpectedly, we found Trem-2 −/− AM to display augmented bacterial phagocytosis in vitro and in vivo compared to WT AM. Mechanistically, we detected that in the absence of TREM-2, pulmonary macrophages selectively produced elevated complement component 1q (C1q) levels. We found that these increased C1q levels depended on peroxisome proliferator-activated receptor-δ (PPAR-δ) activity and were responsible for the enhanced phagocytosis of bacteria. Upon infection with S. pneumoniae, Trem-2 −/− mice exhibited an augmented bacterial clearance from lungs, decreased bacteremia and improved survival compared to their WT counterparts. This work is the first to disclose a role for TREM-2 in clinically relevant respiratory tract infections and demonstrates a previously unknown link between TREM-2 and opsonin production within the lungs.
Arthritis Research & Therapy | 2015
Stephan Blüml; Emine Sahin; Victoria Saferding; Eliana Goncalves-Alves; Eva Hainzl; Birgit Niederreiter; Anastasia Hladik; Tobias Lohmeyer; Julia Brunner; Michael Bonelli; Marije I. Koenders; Wim B. van den Berg; Giulio Superti-Furga; Josef S Smolen; Gernot Schabbauer; Kurt Redlich
IntroductionAutoreactive T cells are a central element in many systemic autoimmune diseases. The generation of these pathogenic T cells is instructed by antigen-presenting cells (APCs). However, signaling pathways in APCs that drive autoimmune diseases, such as rheumatoid arthritis, are not understood.MethodsWe measured phenotypic maturation, cytokine production and induction of T cell proliferation of APCs derived from wt mice and mice with a myeloid-specific deletion of PTEN (myeloid PTEN-/-) in vitro and in vivo. We induced collagen-induced arthritis (CIA) and K/BxN serum transfer arthritis in wt and myeloid-specific PTEN-/- mice. We measured the cellular composition of lymph nodes by flow cytometry and cytokines in serum and after ex vivo stimulation of T cells.ResultsWe show that myeloid-specific PTEN-/- mice are almost protected from CIA. Myeloid-specific deletion of PTEN leads to a significant reduction of cytokine expression pivotal for the induction of systemic autoimmunity such as interleukin (IL)-23 and IL-6, leading to a significant reduction of a Th17 type of immune response characterized by reduced production of IL-17 and IL-22. In contrast, myeloid-specific PTEN deficiency did not affect K/BxN serum transfer arthritis, which is independent of the adaptive immune system and solely depends on innate effector functions.ConclusionsThese data demonstrate that the presence of PTEN in myeloid cells is required for the development of CIA. Deletion of PTEN in myeloid cells inhibits the development of autoimmune arthritis by preventing the generation of a pathogenic Th17 type of immune response.
Journal of Immunology | 2015
Emine Sahin; Julia Brunner; Julia B. Kral; Mario Kuttke; Leslie Hanzl; Hannes Datler; Hannah Paar; Nick Neuwinger; Victoria Saferding; Elisabeth Zinser; Angela Halfmann; Klara Soukup; Eva Hainzl; Tobias Lohmeyer; Birgit Niederreiter; Thomas Haider; Alexander Michael Dohnal; Gerhard Krönke; Stephan Blüml; Gernot Schabbauer
The PI3K signaling cascade in APCs has been recognized as an essential pathway to initiate, maintain, and resolve immune responses. In this study, we demonstrate that a cell type–specific loss of the PI3K antagonist phosphatase and tensin homolog (PTEN) in myeloid cells renders APCs toward a regulatory phenotype. APCs deficient for PTEN exhibit reduced activation of p38 MAPK and reduced expression of T cell–polarizing cytokines. Furthermore, PTEN deficiency leads to upregulation of markers for alternative activation, such as Arginase 1, with concomitant downregulation of inducible NO synthase in APCs in vitro and in vivo. As a result, T cell polarization was dysfunctional in PTEN−/− APCs, in particular affecting the Th17 cell subset. Intriguingly, mice with cell type–specific deletions of PTEN-targeting APCs were protected from experimental autoimmune encephalomyelitis, which was accompanied by a pronounced reduction of IL-17– and IL-22–producing autoreactive T cells and reduced CNS influx of classically activated monocytes/macrophages. These observations support the notion that activation of the PI3K signaling cascade promotes regulatory APC properties and suppresses pathogenic T cell polarization, thereby reducing the clinical symptoms and pathology of experimental autoimmune encephalomyelitis.
PLOS ONE | 2013
Philipp M. Guenzl; Roman Raim; Julia B. Kral; Julia Brunner; Emine Sahin; Gernot Schabbauer
Sepsis still remains a major cause for morbidity and mortality in patients. The molecular mechanisms underlying the disease are still enigmatic. A great number of therapeutic approaches have failed and treatment strategies are limited to date. Among those few admitted for clinical intervention, intensive insulin treatment has proven to be effective in the reduction of disease related complications in critically ill patients. Insulin effectively reduces glucose levels and thereby contributes to protection. On the other hand insulin is a potent signaling pathway activator. One of those is the PI3K signaling axis. Activation of PI3K is known to limit pro-inflammatory gene expression. Here we can show that in a mouse model of insulin hypersensitivity induced by the deletion of the PI3K antagonist PTEN, specifically in hepatic tissue, significant protection is conferred in murine models of lethal endotoxemia and sepsis. Acute inflammatory responses are diminished, glucose metabolism normalized and vascular activation is reduced. Furthermore we investigated the hepatic gene expression profile of relevant anti-inflammatory genes in PTEN deficient mice and found marked upregulation of PPARγ and HO-1. We conclude from our data that insulin hypersensitivity via sustained activation of the PI3K signaling pathway exerts protective effects in acute inflammatory processes.
OncoImmunology | 2016
Mario Kuttke; Emine Sahin; Julia Pisoni; Sophie Percig; Andrea Vogel; Daniel Kraemmer; Leslie Hanzl; Julia Brunner; Hannah Paar; K. Soukup; A. Halfmann; A. M. Dohnal; Carl-Walter Steiner; Stephan Blüml; Jose Basilio; Bernhard Hochreiter; Manuel Salzmann; Bastian Hoesel; G. Lametschwandtner; Robert Eferl; Johannes A. Schmid; Gernot Schabbauer
ABSTRACT Tumor–host interaction is determined by constant immune surveillance, characterized by tumor infiltration of myeloid and lymphoid cells. A malfunctioning or diverted immune response promotes tumor growth and metastasis. Recent advances had been made, by treating of certain tumor types, such as melanoma, with T-cell checkpoint inhibitors. This highlights the importance of understanding the molecular mechanisms underlying the crosstalk between tumors and their environment, in particular myeloid and lymphoid cells. Our aim was to study the contribution of the myeloid PI3K/PTEN-signaling pathway in the regulation of tumor-immune surveillance in murine models of cancer. We made use of conditional PTEN-deficient mice, which exhibit sustained activation of the PI3K-signaling axis in a variety of myeloid cell subsets such as macrophages and dendritic cells (DCs). In colitis-associated colon cancer (CAC), mice deficient in myeloid PTEN showed a markedly higher tumor burden and decreased survival. We attributed this observation to the increased presence of immune-modulatory conventional CD8α+ DCs in the spleen, whereas other relevant myeloid cell subsets were largely unaffected. Notably, we detected enhanced surface expression of PD-L1 and PD-L2 on these DCs. As a consequence, tumoricidal T-cell responses were hampered or redirected. Taken together, our findings indicated an unanticipated role for the PI3K/PTEN-signaling axis in the functional regulation of splenic antigen-presenting cells (APCs). Our data pointed at potential, indirect, tumoricidal effects of subclass-specific PI3K inhibitors, which are currently under clinical investigation for treatment of tumors, via myeloid cell activation.
Annals of the Rheumatic Diseases | 2018
Antonia Puchner; Victoria Saferding; Michael Bonelli; Yohei Mikami; M Hofmann; Julia Brunner; Michael Caldera; Eliana Goncalves-Alves; Nikolaus B. Binder; Anita Fischer; Elisabeth Simader; Carl-Walter Steiner; H Leiss; Silvia Hayer; Birgit Niederreiter; Thomas Karonitsch; Marije I. Koenders; Bruno K. Podesser; John J. O’Shea; Jörg Menche; Josef S Smolen; Kurt Redlich; Stephan Blüml
Objectives Bone destruction in rheumatoid arthritis is mediated by osteoclasts (OC), which are derived from precursor cells of the myeloid lineage. The role of the two monocyte subsets, classical monocytes (expressing CD115, Ly6C and CCR2) and non-classical monocytes (which are CD115 positive, but low in Ly6C and CCR2), in serving as precursors for OC in arthritis is still elusive. Methods We investigated CCR2−/− mice, which lack circulating classical monocytes, crossed into hTNFtg mice for the extent of joint damage. We analysed monocyte subsets in hTNFtg and K/BxN serum transfer arthritis by flow cytometry. We sorted monocyte subsets and analysed their potential to differentiate into OC and their transcriptional response in response to RANKL by RNA sequencing. With these data, we performed a gene ontology enrichment analysis and gene set enrichment analysis. Results We show that in hTNFtg arthritis local bone erosion and OC generation are even enhanced in the absence of CCR2. We further show the numbers of non-classical monocytes in blood are elevated and are significantly correlated with histological signs of joint destruction. Sorted non-classical monocytes display an increased capacity to differentiate into OCs. This is associated with an increased expression of signal transduction components of RANK, most importantly TRAF6, leading to an increased responsiveness to RANKL. Conclusion Therefore, non-classical monocytes are pivotal cells in arthritis tissue damage and a possible target for therapeutically intervention for the prevention of inflammatory joint damage.
Cancer Research | 2016
Mario Kuttke; Emine Sahin; Julia Pisoni; Sophie Percig; Andrea Vogel; Daniel Kraemmer; Leslie Hanzl; Julia Brunner; Hannah Paar; Klara Soukup; Angela Halfmann; Alexander Michael Dohnal; Carl-Walter Steiner; Stephan Blüml; Jose Basilio; Bernhard Hochreiter; Manuel Salzmann; Bastian Hoesel; Günther Lametschwandtner; Robert Eferl; Johannes A. Schmid; Gernot Schabbauer
In the current study we are investigating the effects of PTEN-deficient myeloid cells on tumor immune surveillance. We could previously show that hyper-activation of the PI3K signaling cascade by genetic knock-out of the counteracting phosphatase PTEN induced an anti-inflammatory phenotype in myeloid cells. This resulted in protection of conditional knock-out mice in models of acute infection and inflammation. A reduction in pro-inflammatory responses could however increase tumor burden. To address this question we induced colitis associated colon cancer in conditional PTEN-KO mice and found an increase in tumor burden and a reduction in survival in male KO mice. This was accompanied by increased numbers of splenic antigen-presenting cells (APC) expressing the immune checkpoint regulators PD-L1 and PD-L2. Furthermore, transcriptome analysis in these cells revealed a shift towards gene expression profiles found in professional APCs capable of cross-presentation. As expected, ex-vivo stimulated T-cells from KO-mice showed a reduction in proliferative capacity. These findings were further substantiated by findings in a second tumor model using implanted B16 melanoma cells. In this model myeloid PTEN-deficient mice showed a decrease in T-cell activation and a reduction in melanoma cell killing capacity. Taken together, our findings show that genetic deletion of PTEN in cells of myeloid origin increases splenic APCs expressing immune checkpoint regulators resulting in a decrease in tumor immune surveillance. Our study shows that PI3K-inhibitors which are currently tested as anti-cancer drugs might have additional beneficial effects on immune cells by shifting their inflammatory phenotype. Citation Format: Mario Kuttke, Emine Sahin, Julia Pisoni, Sophie Percig, Andrea Vogel, Daniel Kraemmer, Leslie Hanzl, Julia Stefanie Brunner, Hannah Paar, Klara Soukup, Angela Halfmann, Alexander Dohnal, Carl-Walter Steiner, Stephan Bluml, Jose Basilio, Bernhard Hochreiter, Manuel Salzmann, Bastian Hoesel, Gunther Lametschwandtner, Robert Eferl, Johannes Schmid, Gernot Schabbauer. Myeloid PTEN deficiency impairs tumor immune surveillance via immune checkpoint inhibition. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 527.