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2. A novel P2X2‐dependent purinergic mechanism of enteric gliosis in intestinal inflammation

Author

Reiner Schneider, Patrick Leven, Tim Glowka, Ivan Kuzmanov, Mariola Lysson, Bianca Schneiker, Anna Miesen, Younis Baqi, Claudia Spanier, Iveta Grants, Elvio Mazzotta, Egina Villalobos‐Hernandez, Jörg C Kalff, Christa E Müller, Fedias L Christofi, and Sven Wehner

Subjects
enteric nervous system, gut inflammation, motility disorders, postoperative ileus, purinergic signaling, Medicine (General), R5-920, Genetics, QH426-470
Abstract

Abstract Enteric glial cells (EGC) modulate motility, maintain gut homeostasis, and contribute to neuroinflammation in intestinal diseases and motility disorders. Damage induces a reactive glial phenotype known as “gliosis”, but the molecular identity of the inducing mechanism and triggers of “enteric gliosis” are poorly understood. We tested the hypothesis that surgical trauma during intestinal surgery triggers ATP release that drives enteric gliosis and inflammation leading to impaired motility in postoperative ileus (POI). ATP activation of a p38‐dependent MAPK pathway triggers cytokine release and a gliosis phenotype in murine (and human) EGCs. Receptor antagonism and genetic depletion studies revealed P2X2 as the relevant ATP receptor and pharmacological screenings identified ambroxol as a novel P2X2 antagonist. Ambroxol prevented ATP‐induced enteric gliosis, inflammation, and protected against dysmotility, while abrogating enteric gliosis in human intestine exposed to surgical trauma. We identified a novel pathogenic P2X2‐dependent pathway of ATP‐induced enteric gliosis, inflammation and dysmotility in humans and mice. Interventions that block enteric glial P2X2 receptors during trauma may represent a novel therapy in treating POI and immune‐driven intestinal motility disorders.

Published
2020
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3. A Population of Radio-Resistant Macrophages in the Deep Myenteric Plexus Contributes to Postoperative Ileus Via Toll-Like Receptor 3 Signaling

Author

Jana Enderes, Shilpashree Mallesh, Reiner Schneider, Kristof J. Hupa, Mariola Lysson, Bianca Schneiker, Kristian Händler, Balthasar Schlotmann, Patrick Günther, Joachim L. Schultze, Jörg C. Kalff, and Sven Wehner

Subjects
postoperative ileus, TLR3, TRIF, macrophages, innate immune response, Immunologic diseases. Allergy, RC581-607
Abstract

Postoperative ileus (POI) is triggered by an innate immune response in the muscularis externa (ME) and is accompanied by bacterial translocation. Bacteria can trigger an innate immune response via toll-like receptor (TLR) activation, but the latter’s contribution to POI has been disproved for several TLRs, including TLR2 and TLR4. Herein we investigated the role of double-stranded RNA detection via TLR3 and TIR-domain-containing adapter-inducing interferon-β (TRIF) signaling pathway in POI. POI was induced by small bowel intestinal manipulation in wt, TRIF-/-, TLR3-/-, type I interferon receptor-/- and interferon-β reporter mice, all on C57BL/6 background, and POI severity was quantified by gene expression analysis, gastrointestinal transit and leukocyte extravasation into the ME. TRIF/TLR3 deficiency reduced postoperative ME inflammation and prevented POI. With bone marrow transplantation, RNA-sequencing, flow cytometry and immunohistochemistry we revealed a distinct TLR3-expressing radio-resistant MHCIIhiCX3CR1- IBA-1+ resident macrophage population within the deep myenteric plexus. TLR3 deficiency in these cells, but not in MHCIIhiCX3CR1+ macrophages, reduced cytokine expression in POI. While this might not be an exclusive macrophage-privileged pathway, the TLR3/TRIF axis contributes to proinflammatory cytokine production in MHCIIhiCX3CR1- IBA-1+ macrophages during POI. Deficiency in TLR3/TRIF protects mice from POI. These data suggest that TLR3 antagonism may prevent POI in humans.

Published
2021
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5. Leukocyte-Derived Interleukin-10 Aggravates Postoperative Ileus

Author

Kathy Stein, Mariola Lysson, Beatrix Schumak, Tim Vilz, Sabine Specht, Jürgen Heesemann, Axel Roers, Jörg C. Kalff, and Sven Wehner

Subjects
postoperative ileus, intestinal motility, interleukin-10, macrophages, neutrophils, Immunologic diseases. Allergy, RC581-607
Abstract

Objective: Postoperative ileus (POI) is an inflammation-mediated complication of abdominal surgery, characterized by intestinal dysmotility and leukocyte infiltration into the muscularis externa (ME). Previous studies indicated that interleukin (IL)-10 is crucial for the resolution of a variety of inflammation-driven diseases. Herein, we investigated how IL-10 affects the postoperative ME inflammation and found an unforeseen role of IL-10 in POI.Design: POI was induced by a standardized intestinal manipulation (IM) in C57BL/6 and multiple transgenic mouse strain including C-C motif chemokine receptor 2−/−, IL-10−/−, and LysMcre/IL-10fl/fl mice. Leukocyte infiltration, gene and protein expression of cytokines, chemokines, and macrophage differentiation markers as well as intestinal motility were analyzed. IL-10 serum levels in surgical patients were determined by ELISA.Results: IL-10 serum levels were increased in patient after abdominal surgery. In mice, a complete or leucocyte-restricted IL-10 deficiency ameliorated POI and reduced the postoperative ME neutrophil infiltration. Infiltrating monocytes were identified as main IL-10 producers and undergo IL-10-dependent M2 polarization. Interestingly, M2 polarization is not crucial to POI development as abrogation of monocyte infiltration did not prevent POI due to a compensation of the IL-10 loss by resident macrophages and neutrophils. Organ culture studies demonstrated that IL-10 deficiency impeded neutrophil migration toward the surgically traumatized ME. This mechanism is mediated by reduction of neutrophil attracting chemokines.Conclusion: Monocyte-derived macrophages are the major IL-10 source during POI. An IL-10 deficiency decreases the postoperative expression of neutrophil-recruiting chemokines, consequently reduces the neutrophil extravasation into the postsurgical bowel wall, and finally protects mice from POI.

Published
2018
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6. Treatment with the 5-Lipoxygenase Antagonist Zileuton Protects Mice from Postoperative Ileus

Author

Jana Enderes, Shilpashree Mallesh, Kathy Stein, Melissa Wagner, Mariola Lysson, Bianca Schneiker, Joerg C. Kalff, and Sven Wehner

Subjects
musculoskeletal diseases, endocrine system diseases, integumentary system, food and beverages, lipids (amino acids, peptides, and proteins), Surgery
Abstract

Introduction: Previous work of our group showed that lipoxygenase (LOX) pathways become activated upon surgical manipulation of the bowel wall and revealed a beneficial immune modulating role of the LOX-derived anti-inflammatory mediator protectin DX in postoperative ileus (POI). While we found a particular role of 12/15-LOX in the anti-inflammatory LOX action during POI, the role of 5-LOX, which produces the pro-inflammatory leukotriene B4 (LTB4), remained unknown. The purpose of this study was to investigate the role of 5-LOX within the pathogenesis of POI in a mouse model. Methods: POI was induced by intestinal manipulation (IM) of the small bowel in C57BL/6, 5-LOX−/−, and CX3CR1GFP/+. Mice were either treated with a vehicle or with the synthetic 5-LOX antagonist zileuton or were left untreated. Cellular localization of 5-LOX and LTB4 release were visualized by immunofluorescence or ELISA, respectively. POI severity was quantified by gastrointestinal transit (GIT) and leukocyte extravasation into the muscularis externa (ME) by immunohistochemistry. Results: 5-LOX expression was detected 24 h after IM within infiltrating leukocytes in the ME. LTB4 levels increased during POI in wild type but not in 5-LOX−/− after IM. POI was ameliorated in 5-LOX−/− as shown by decreased leukocyte numbers and normalized GIT. Zileuton normalized the postoperative GIT and reduced the numbers of infiltrating leukocytes into the ME. Discussion/Conclusion: Our data demonstrate that 5-LOX and its metabolite LTB4 play a crucial role in POI. Genetic deficiency of 5-LOX and pharmacological antagonism by zileuton protected mice from POI. 5-LOX antagonism might be a promising target for prevention of POI in surgical patients.

Published
2022
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8. Intestinal manipulation affects mucosal antimicrobial defense in a mouse model of postoperative ileus.

Author

Kathy Stein, Lena Hieggelke, Bianca Schneiker, Mariola Lysson, Burkhard Stoffels, Sabine Nuding, Jan Wehkamp, Judith Kikhney, Annette Moter, Joerg C Kalff, and Sven Wehner

Subjects
Medicine, Science
Abstract

To explore the effects of abdominal surgery and interleukin-1 signaling on antimicrobial defense in a model of postoperative ileus.C57BL/6 and Interleukin-1 receptor type I (IL-1R1) deficient mice underwent intestinal manipulation to induce POI. Expression of mucosal IL-1α, IL-1β and IL-1R1 and several antimicrobial peptides and enzymes were measured by quantitative PCR or ELISA, western blotting or immunohistochemistry. Bacterial overgrowth was determined by fluorescent in-situ hybridization and counting of jejunal luminal bacteria. Translocation of aerobic and anaerobic bacteria into the intestinal wall, mesenteric lymph nodes, liver and spleen was determined by counting bacterial colonies on agar plates 48h after plating of tissue homogenates. Antimicrobial activity against E. coli and B. vulgatus was analyzed in total and cationic fractions of small bowel mucosal tissue homogenates by a flow cytometry-based bacterial depolarization assay.Jejunal bacterial overgrowth was detected 24h after surgery. At the same time point, but not in the early phase 3h after surgery, bacterial translocation into the liver and mesenteric lymph nodes was observed. Increased antimicrobial activity against E. coli was induced within early phase of POI. Basal antimicrobial peptide and enzyme gene expression was higher in the ileal compared to the jejunal mucosa. The expression of lysozyme 1, cryptdin 1, cryptdin 4 and mucin 2 were reduced 24h after surgery in the ileal mucosa and mucin 2 was also reduced in the jejunum. Postoperative IL-1α and IL-1β were increased in the postoperative mucosa. Deficiency of IL-1R1 affected the expression of antimicrobial peptides during homeostasis and POI.Small bowel antimicrobial capacity is disturbed during POI which is accompanied by bacterial overgrowth and translocation. IL-1R1 is partially involved in the gene expression of mucosal antimicrobial peptides. Altered small bowel antimicrobial activity may contribute also to POI development and manifestation in patients undergoing abdominal surgery.

Published
2018
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11. Treatment with the 5-Lipoxygenase Antagonist Zileuton Protects Mice from Postoperative Ileus.

Author

Enderes, Jana, Mallesh, Shilpashree, Stein, Kathy, Wagner, Melissa, Lysson, Mariola, Schneiker, Bianca, Kalff, Joerg C., and Wehner, Sven

Subjects
BOWEL obstructions, LEUKOCYTE count, SMALL intestine, MICE, LABORATORY mice
Abstract

Introduction: Previous work of our group showed that lipoxygenase (LOX) pathways become activated upon surgical manipulation of the bowel wall and revealed a beneficial immune modulating role of the LOX-derived anti-inflammatory mediator protectin DX in postoperative ileus (POI). While we found a particular role of 12/15-LOX in the anti-inflammatory LOX action during POI, the role of 5-LOX, which produces the pro-inflammatory leukotriene B4 (LTB4), remained unknown. The purpose of this study was to investigate the role of 5-LOX within the pathogenesis of POI in a mouse model. Methods: POI was induced by intestinal manipulation (IM) of the small bowel in C57BL/6, 5-LOX−/−, and CX3CR1GFP/+. Mice were either treated with a vehicle or with the synthetic 5-LOX antagonist zileuton or were left untreated. Cellular localization of 5-LOX and LTB4 release were visualized by immunofluorescence or ELISA, respectively. POI severity was quantified by gastrointestinal transit (GIT) and leukocyte extravasation into the muscularis externa (ME) by immunohistochemistry. Results: 5-LOX expression was detected 24 h after IM within infiltrating leukocytes in the ME. LTB4 levels increased during POI in wild type but not in 5-LOX−/− after IM. POI was ameliorated in 5-LOX−/− as shown by decreased leukocyte numbers and normalized GIT. Zileuton normalized the postoperative GIT and reduced the numbers of infiltrating leukocytes into the ME. Discussion/Conclusion: Our data demonstrate that 5-LOX and its metabolite LTB4 play a crucial role in POI. Genetic deficiency of 5-LOX and pharmacological antagonism by zileuton protected mice from POI. 5-LOX antagonism might be a promising target for prevention of POI in surgical patients. [ABSTRACT FROM AUTHOR]

Published
2022
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16. A Population of Radio-Resistant Macrophages in the Deep Myenteric Plexus Contributes to Postoperative Ileus Via Toll-Like Receptor 3 Signaling.

Author

Enderes, Jana, Mallesh, Shilpashree, Schneider, Reiner, Hupa, Kristof J., Lysson, Mariola, Schneiker, Bianca, Händler, Kristian, Schlotmann, Balthasar, Günther, Patrick, Schultze, Joachim L., Kalff, Jörg C., and Wehner, Sven

Subjects
TOLL-like receptors, TYPE I interferons, MACROPHAGES, BOWEL obstructions, BONE marrow transplantation, ENTEROSCOPY, PYROSEQUENCING
Abstract

Postoperative ileus (POI) is triggered by an innate immune response in the muscularis externa (ME) and is accompanied by bacterial translocation. Bacteria can trigger an innate immune response via toll-like receptor (TLR) activation, but the latter's contribution to POI has been disproved for several TLRs, including TLR2 and TLR4. Herein we investigated the role of double-stranded RNA detection via TLR3 and TIR-domain-containing adapter-inducing interferon-β (TRIF) signaling pathway in POI. POI was induced by small bowel intestinal manipulation in wt, TRIF-/-, TLR3-/-, type I interferon receptor-/- and interferon-β reporter mice, all on C57BL/6 background, and POI severity was quantified by gene expression analysis, gastrointestinal transit and leukocyte extravasation into the ME. TRIF/TLR3 deficiency reduced postoperative ME inflammation and prevented POI. With bone marrow transplantation, RNA-sequencing, flow cytometry and immunohistochemistry we revealed a distinct TLR3-expressing radio-resistant MHCIIhiCX3CR1- IBA-1+ resident macrophage population within the deep myenteric plexus. TLR3 deficiency in these cells, but not in MHCIIhiCX3CR1+ macrophages, reduced cytokine expression in POI. While this might not be an exclusive macrophage-privileged pathway, the TLR3/TRIF axis contributes to proinflammatory cytokine production in MHCIIhiCX3CR1- IBA-1+ macrophages during POI. Deficiency in TLR3/TRIF protects mice from POI. These data suggest that TLR3 antagonism may prevent POI in humans. [ABSTRACT FROM AUTHOR]

Published
2021
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17. A novel P2X2‐dependent purinergic mechanism of enteric gliosis in intestinal inflammation.

Author

Schneider, Reiner, Leven, Patrick, Glowka, Tim, Kuzmanov, Ivan, Lysson, Mariola, Schneiker, Bianca, Miesen, Anna, Baqi, Younis, Spanier, Claudia, Grants, Iveta, Mazzotta, Elvio, Villalobos‐Hernandez, Egina, Kalff, Jörg C, Müller, Christa E, Christofi, Fedias L, and Wehner, Sven

Abstract

Enteric glial cells (EGC) modulate motility, maintain gut homeostasis, and contribute to neuroinflammation in intestinal diseases and motility disorders. Damage induces a reactive glial phenotype known as "gliosis", but the molecular identity of the inducing mechanism and triggers of "enteric gliosis" are poorly understood. We tested the hypothesis that surgical trauma during intestinal surgery triggers ATP release that drives enteric gliosis and inflammation leading to impaired motility in postoperative ileus (POI). ATP activation of a p38‐dependent MAPK pathway triggers cytokine release and a gliosis phenotype in murine (and human) EGCs. Receptor antagonism and genetic depletion studies revealed P2X2 as the relevant ATP receptor and pharmacological screenings identified ambroxol as a novel P2X2 antagonist. Ambroxol prevented ATP‐induced enteric gliosis, inflammation, and protected against dysmotility, while abrogating enteric gliosis in human intestine exposed to surgical trauma. We identified a novel pathogenic P2X2‐dependent pathway of ATP‐induced enteric gliosis, inflammation and dysmotility in humans and mice. Interventions that block enteric glial P2X2 receptors during trauma may represent a novel therapy in treating POI and immune‐driven intestinal motility disorders. Synopsis: Enteric gliosis was shown to be part of an intestinal immune response upon abdominal surgery. ATP activates enteric glial cells via selective purinergic receptor signalling in mice and humans. Inhibition of this pathogenic pathway by the newly identified P2X2 antagonist ambroxol blocks ATP‐induced enteric gliosis and protects against postoperative ileus. Reactive enteric glia actively contribute to intestinal neuroinflammation and disruption of motility in intestinal disorders and GI diseases.ATP induces a gliosis phenotype in enteric glia as occurs in postoperative ileus.ATP triggers P2X2‐signaling to promote enteric gliosis and inflammation contributing to disruption of motility in the mouse and human gut.P2X2 antagonism with a newly identified P2X2 antagonist drug ambroxol reduces gliosis and improves clinical symptoms of postoperative bowel inflammation. [ABSTRACT FROM AUTHOR]

Published
2021
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18. Mechanical strain and TLR4 synergistically induce cell-specific inflammatory gene expression in intestinal smooth muscle cells and peritoneal macrophages

Author

Anatol Rocke, Nico Schaefer, Silke Schuchtrup, Joerg C. Kalff, Mariola Lysson, Sven Wehner, Bettina M. Buchholz, and Andreas Hirner

Subjects
Physiology, Blotting, Western, Interleukin-1beta, Myocytes, Smooth Muscle, Gene Expression, Nitric Oxide Synthase Type II, Inflammation, Biology, Proinflammatory cytokine, Physiology (medical), Gene expression, medicine, Animals, Myocyte, RNA, Messenger, Intestinal Mucosa, Macrophage inflammatory protein, Cells, Cultured, Analysis of Variance, Toll-like receptor, Hepatology, Interleukin-6, Reverse Transcriptase Polymerase Chain Reaction, Gastroenterology, Immunohistochemistry, Rats, Cell biology, Intestines, Toll-Like Receptor 4, Nitric oxide synthase, Biochemistry, Cyclooxygenase 2, Rats, Inbred Lew, Macrophages, Peritoneal, biology.protein, TLR4, Stress, Mechanical, medicine.symptom
Abstract

Mechanical trauma of the gut is an unavoidable event in abdominal surgery. Former studies demonstrated that intestinal manipulation induces a strong inflammation within the tunica muscularis. We hypothesized that mechanical strain initiates or aggravates proinflammatory responses in intestinal smooth muscle cells (iSMC) or macrophages. First, an appropriate isolation and culture method for neonatal rat iSMC was established. Purified iSMC and primary peritoneal macrophages (pMacs) were subjected to static or cyclic strain, and gene expression of inducible nitric oxide synthase (iNOS), cyclooxygenase-2 (COX-2), IL-6, and IL-1β was analyzed by quantitative PCR. Supernatants from stretched iSMC were transferred to untreated pMacs or contrariwise, and medium transfer-triggered inflammatory gene expression was measured in unstretched cells. Finally, we investigated the synergistic effect of static strain on LPS-induced proinflammatory gene expression. Although cyclic strain failed, static strain significantly induced iNOS, COX-2, and IL-1β mRNA in iSMC. pMacs showed an increase in all inflammatory genes investigated as well as macrophage inflammatory protein (MIP)-1α and MIP-2 mRNA after static strain. Both cell entities liberated unknown mediators in response to stretch that mutually stimulated iNOS gene expression. Finally, mechanostimulation amplified LPS-induced iNOS and IL-1β gene expression in iSMC as well as COX-2 and IL-6 mRNA in pMacs. In conclusion, static strain initiates proinflammatory gene expression in iSMC and pMacs and triggers a bidirectional paracrine communication between both cultured cell entities via the liberation of unknown mediators. Furthermore, static strain synergistically operates with Toll-like receptor 4 ligation in a cell-specific manner. Hence, this study demonstrates that mechanical strain functions as an immunomodulatory stimulus in abdominal cells.

Published
2010
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19. Cathepsin B release from rodent intestine mucosa due to mechanical injury results in extracellular matrix damage in early post-traumatic phases

Author

Christoph Peters, Jörg C. Kalff, Kristina Mayer, Louise Bjørkholt Andersen, Anna Vreemann, Klaudia Brix, Hong Qu, Anca M. Farcas, Sven Wehner, Mariola Lysson, Thomas Reinheckel, and M Irina Stefana

Subjects
Collagen Type IV, Male, Pathology, medicine.medical_specialty, Clinical Biochemistry, Gene Expression, Biochemistry, Cathepsin B, Dipeptidyl peptidase, Extracellular matrix, Mice, Intestinal mucosa, Laminin, Intestine, Small, medicine, Animals, Intestinal Mucosa, Molecular Biology, Cathepsin, Basement membrane, biology, Tight junction, Cell biology, medicine.anatomical_structure, Traumatology, biology.protein, Gene Deletion
Abstract

An in vivo model was used to investigate the role of cathepsins in mouse intestine after mechanical manipulation. Inspection of different intestine segments by immunofluorescence microscopy provided evidence for a local release of cathepsin B from cells of individual gut sections shortly after traumatic injury. Densitometry of immunoblots ruled out alterations in cathepsin B expression levels. Because similar results were obtained with both mouse and rat intestine trauma models, we were interested in identifying potential targets of released cathepsin B in early post-traumatic phases. Immunoblotting revealed initial declines followed by an increase in protein levels of claudin-1 and E-cadherin, indicating that tight junctions and cell-cell adhesions were only transiently compromised by surgical trauma. Apical aminopeptidase N and dipeptidyl peptidase IV were only slightly affected, whereas basolateral low-density lipoprotein receptors were strongly up-regulated in response to trauma. As potential targets of cathepsin B released from injured cells, we identified collagen IV and laminin of the basement membrane that was damaged during initial post-traumatic stages. Because increased collagen IV expression was observed in the intestine of cathepsin B-deficient animals, we propose a direct role of cathepsin B in that it contributes to acute post-traumatic extracellular matrix damage and may thereby facilitate onset of post-operative ileus.

Published
2009
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20. A comparative study about the immunomodulatory effects of tramadol and metamizole in a murine model of postoperative ileus.

Author

Hong, Gun-Soo, Stein, Kathy, Lysson, Mariola, Kalff, Joerg, and Wehner, Sven

Subjects
GASTROINTESTINAL motility, COMPARATIVE studies, ABDOMINAL surgery, GENE expression, FUNCTIONAL analysis
Abstract

Postoperative ileus (POI) is a common complication after abdominal surgery characterized by motility disturbances leading to increased morbidity and mortality in surgical patients. Intestinal manipulation of the murine small bowel is an established animal model resulting in an increased postsurgical inflammation within the intestinal muscular externa and a delayed gastrointestinal transit. Some analgesics have been shown to affect inflammation. In this study, we compared the immunomodulatory effects of two different analgesics. Mice were treated with tramadol, metamizole or saline as a control in our established POI model. The postoperative inflammatory response was assessed by gene expression of pro-inflammatory cytokines at different time points and immunocytes extravasation into the muscularis externa. Functional motility analyses were performed by a gastrointestinal transit measurement. Metamizole application reduced the pro-inflammatory response after surgery and improved gastrointestinal motility, while tramadol showed no alteration in cytokine gene expression, influx of immunocytes and gastrointestinal transit compared with the controls. In conclusion. we suggest tramadol as analgesia in immunological studies on POI in mice as it does not affect the underlying inflammation of POI. [ABSTRACT FROM AUTHOR]

Published
2019
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21. Leukocyte-Derived Interleukin-10 Aggravates Postoperative Ileus.

Author

Stein, Kathy, Lysson, Mariola, Schumak, Beatrix, Vilz, Tim, Specht, Sabine, Heesemann, Jürgen, Roers, Axel, Kalff, Jörg C., and Wehner, Sven

Abstract

Objective: Postoperative ileus (POI) is an inflammation-mediated complication of abdominal surgery, characterized by intestinal dysmotility and leukocyte infiltration into the muscularis externa (ME). Previous studies indicated that interleukin (IL)-10 is crucial for the resolution of a variety of inflammation-driven diseases. Herein, we investigated how IL-10 affects the postoperative ME inflammation and found an unforeseen role of IL-10 in POI. Design: POI was induced by a standardized intestinal manipulation (IM) in C57BL/6 and multiple transgenic mouse strain including C-C motif chemokine receptor 2−/−, IL-10−/−, and LysMcre/IL-10fl/fl mice. Leukocyte infiltration, gene and protein expression of cytokines, chemokines, and macrophage differentiation markers as well as intestinal motility were analyzed. IL-10 serum levels in surgical patients were determined by ELISA. Results: IL-10 serum levels were increased in patient after abdominal surgery. In mice, a complete or leucocyte-restricted IL-10 deficiency ameliorated POI and reduced the postoperative ME neutrophil infiltration. Infiltrating monocytes were identified as main IL-10 producers and undergo IL-10-dependent M2 polarization. Interestingly, M2 polarization is not crucial to POI development as abrogation of monocyte infiltration did not prevent POI due to a compensation of the IL-10 loss by resident macrophages and neutrophils. Organ culture studies demonstrated that IL-10 deficiency impeded neutrophil migration toward the surgically traumatized ME. This mechanism is mediated by reduction of neutrophil attracting chemokines. Conclusion: Monocyte-derived macrophages are the major IL-10 source during POI. An IL-10 deficiency decreases the postoperative expression of neutrophil-recruiting chemokines, consequently reduces the neutrophil extravasation into the postsurgical bowel wall, and finally protects mice from POI. [ABSTRACT FROM AUTHOR]

Published
2018
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22. Intestinal manipulation affects mucosal antimicrobial defense in a mouse model of postoperative ileus.

Author

Stein, Kathy, Hieggelke, Lena, Schneiker, Bianca, Lysson, Mariola, Stoffels, Burkhard, Nuding, Sabine, Wehkamp, Jan, Kikhney, Judith, Moter, Annette, Kalff, Joerg C., and Wehner, Sven

Subjects
ABDOMINAL surgery, INTERLEUKIN-1, BACTERIAL growth, ANTI-infective agents, POSTOPERATIVE period
Abstract

Aim: To explore the effects of abdominal surgery and interleukin-1 signaling on antimicrobial defense in a model of postoperative ileus. Methods: C57BL/6 and Interleukin-1 receptor type I (IL-1R1) deficient mice underwent intestinal manipulation to induce POI. Expression of mucosal IL-1α, IL-1β and IL-1R1 and several antimicrobial peptides and enzymes were measured by quantitative PCR or ELISA, western blotting or immunohistochemistry. Bacterial overgrowth was determined by fluorescent in-situ hybridization and counting of jejunal luminal bacteria. Translocation of aerobic and anaerobic bacteria into the intestinal wall, mesenteric lymph nodes, liver and spleen was determined by counting bacterial colonies on agar plates 48h after plating of tissue homogenates. Antimicrobial activity against E. coli and B. vulgatus was analyzed in total and cationic fractions of small bowel mucosal tissue homogenates by a flow cytometry-based bacterial depolarization assay. Results: Jejunal bacterial overgrowth was detected 24h after surgery. At the same time point, but not in the early phase 3h after surgery, bacterial translocation into the liver and mesenteric lymph nodes was observed. Increased antimicrobial activity against E. coli was induced within early phase of POI. Basal antimicrobial peptide and enzyme gene expression was higher in the ileal compared to the jejunal mucosa. The expression of lysozyme 1, cryptdin 1, cryptdin 4 and mucin 2 were reduced 24h after surgery in the ileal mucosa and mucin 2 was also reduced in the jejunum. Postoperative IL-1α and IL-1β were increased in the postoperative mucosa. Deficiency of IL-1R1 affected the expression of antimicrobial peptides during homeostasis and POI. Conclusion: Small bowel antimicrobial capacity is disturbed during POI which is accompanied by bacterial overgrowth and translocation. IL-1R1 is partially involved in the gene expression of mucosal antimicrobial peptides. Altered small bowel antimicrobial activity may contribute also to POI development and manifestation in patients undergoing abdominal surgery. [ABSTRACT FROM AUTHOR]

Published
2018
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24. The novel CGRP receptor antagonist BIBN4096 BS alleviates a postoperative intestinal inflammation and prevents postoperative ileus.

Author

Glowka, T. R., Steinebach, A., Stein, K., Schwandt, T., Lysson, M., Holzmann, B., Tsujikawa, K., Jonge, W. J., Kalff, J. C., and Wehner, S.

Subjects
CALCITONIN gene-related peptide, BOWEL obstructions, INFLAMMATORY bowel diseases, ABDOMINAL surgery, MACROPHAGES
Abstract

Background Abdominal surgery results in neuronal mediator release and subsequent acute intestinal hypomotility. This phase is followed by a longer lasting inflammatory phase resulting in postoperative ileus ( POI). Calcitonin gene-related peptide ( CGRP) has been shown to induce motility disturbances and in addition may be a candidate mediator to elicit neurogenic inflammation. We hypothesized that CGRP contributes to intestinal inflammation and POI. Methods The effect of CGRP in POI was tested in mice treated with the highly specific CGRP receptor antagonist BIBN4096 BS and in CGRP receptor-deficient ( RAMP-1−/−) mice. POI severity was analyzed by cytokine expression, muscular inflammation and gastrointestinal ( GI) transit. Peritoneal and muscularis macrophages and mast cells were analyzed for CGRP receptor expression and functional response to CGRP stimulation. Key Results Intestinal manipulation ( IM) resulted in CGRP release from myenteric nerves, and a concurrent increased interleukin ( IL)-6 and IL-1 β transcription and leukocyte infiltration in the muscularis externa and increased GI transit time. CGRP potentiates IM-induced cytokine transcription within the muscularis externa and peritoneal macrophages. BIBN4096 BS reduced cytokine levels and leukocyte infiltration and normalized GI transit. RAMP1−/− mice showed a significantly reduced leukocyte influx. CGRP receptor was expressed in muscularis and peritoneal macrophages but not mast cells. CGRP mediated macrophage activation but failed to induce mast cell degranulation and cytokine expression. Conclusions & Inferences CGRP is immediately released during abdominal surgery and induces a neurogenic inflammation via activation of abdominal macrophages. BIBN4096 BS prevented IM-induced inflammation and restored GI motility. These findings suggest that CGRP receptor antagonism could be instrumental in the prevention of POI. [ABSTRACT FROM AUTHOR]

Published
2015
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25. Mechanical strain and TLR4 synergistically induce cell-specific inflammatory gene expression in intestinal smooth muscle cells and peritoneal macrophages.

Author

Wehner, Sven, Buchholz, Bettina M., Schuchtrup, Silke, Rocke, Anatol, Schaefer, Nico, Lysson, Mariola, Hirner, Andreas, and Kalff, Joerg C.

Abstract

Mechanical trauma of the gut is an unavoidable event in abdominal surgery. Former studies demonstrated that intestinal manipulation induces a strong inflammation within the tunica muscularis. We hypothesized that mechanical strain initiates or aggravates proinflammatory responses in intestinal smooth muscle cells (iSMC) or macrophages. First, an appropriate isolation and culture method for neonatal rat iSMC was established. Purified iSMC and primary peritoneal macrophages (pMacs) were subjected to static or cyclic strain, and gene expression of inducible nitric oxide synthase (iNOS), cyclooxygenase-2 (COX-2), IL-6, and IL-1ß was analyzed by quantitative PCR. Supernatants from stretched iSMC were transferred to untreated pMacs or contrariwise, and medium transfer-triggered inflammatory gene expression was measured in unstretched cells. Finally, we investigated the synergistic effect of static strain on LPS-induced proinflammatory gene expression. Although cyclic strain failed, static strain significantly induced iNOS, COX-2, and IL-1ß mRNA in iSMC. pMacs showed an increase in all inflammatory genes investigated as well as macrophage inflammatory protein (MIP)-1a and MIP-2 mRNA after static strain. Both cell entities liberated unknown mediators in response to stretch that mutually stimulated iNOS gene expression. Finally, mechanostimulation amplified LPS-induced iNOS and IL-1ß gene expression in iSMC as well as COX-2 and IL-6 mRNA in pMacs. In conclusion, static strain initiates proinflammatory gene expression in iSMC and pMacs and triggers a bidirectional paracrine communication between both cultured cell entities via the liberation of unknown mediators. Furthermore, static strain synergistically operates with Toll-like receptor 4 ligation in a cell-specific manner. Hence, this study demonstrates that mechanical strain functions as an immunomodulatory stimulus in abdominal cells. [ABSTRACT FROM AUTHOR]

Published
2010
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26. Sympathetic Denervation Alters the Inflammatory Response of Resident Muscularis Macrophages upon Surgical Trauma and Ameliorates Postoperative Ileus in Mice.

Author

Mallesh, Shilpashree, Schneider, Reiner, Schneiker, Bianca, Lysson, Mariola, Efferz, Patrik, Lin, Eugene, de Jonge, Wouter J, and Wehner, Sven

Subjects
DENERVATION, SYMPATHETIC nervous system, BOWEL obstructions, PERIPHERAL nervous system, INFLAMMATION, ADRENERGIC receptors
Abstract

Interactions between the peripheral nervous system and resident macrophages (MMs) modulate intestinal homeostatic functions. Activation of β2-adrenergic receptors on MMs has been shown to reduce bacterial challenges. These MMs are also crucial for the development of bowel inflammation in postoperative ileus (POI), an iatrogenic, noninfectious inflammation-based motility disorder. However, the role of the sympathetic nervous system (SNS) in the immune modulation of these MMs during POI or other noninfectious diseases is largely unknown. By employing 6-OHDA-induced denervation, we investigated the changes in the muscularis externa by RNA-seq, quantitative PCR, and flow cytometry. Further, we performed transcriptional phenotyping of sorted CX3CR1+ MMs and ex vivo LPS/M-CSF stimulation on these MMs. By combining denervation with a mouse POI model, we explored distinct changes on CX3CR1+ MMs as well as in the muscularis externa and their functional outcome during POI. Our results identify SNS as an important mediator in noninfectious postoperative inflammation. Upon denervation, MMs anti-inflammatory genes were reduced, and the muscularis externa profile is shaped toward a proinflammatory status. Further, denervation reduced MMs anti-inflammatory genes also in the early phase of POI. Finally, reduced leukocyte infiltration into the muscularis led to a quicker recovery of bowel motility in the late phase of POI. [ABSTRACT FROM AUTHOR]

Published
2021
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