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2. Annexin A1 Regulates Intestinal Mucosal Injury, Inflammation, and Repair1

Author

Babbin, Brian A., Laukoetter, Mike G., Nava, Porfirio, Koch, Stefan, Lee, Winston Y., Capaldo, Christopher T., Peatman, Eric, Severson, Eric A., Flower, Roderick J., Perretti, Mauro, Parkos, Charles A., and Nusrat, Asma

Subjects
Mice, Knockout, endocrine system, Mice, Inbred BALB C, Wound Healing, Dextran Sulfate, Colitis, Severity of Illness Index, Article, Mice, Animals, Female, Genetic Predisposition to Disease, Inflammation Mediators, Intestinal Mucosa, Annexin A1
Abstract

During mucosal inflammation, a complex array of proinflammatory and protective mechanisms regulates inflammation and severity of injury. Secretion of anti-inflammatory mediators is a mechanism that is critical in controlling inflammatory responses and promoting epithelial restitution and barrier recovery. AnxA1 is a potent anti-inflammatory protein that has been implicated to play a critical immune regulatory role in models of inflammation. Although AnxA1 has been shown to be secreted in intestinal mucosal tissues during inflammation, its potential role in modulating the injury/inflammatory response is not understood. In this study, we demonstrate that AnxA1-deficient animals exhibit increased susceptibility to dextran sulfate sodium (DSS)-induced colitis with greater clinical morbidity and histopathologic mucosal injury. Furthermore, impaired recovery following withdrawal of DSS administration was observed in AnxA1 (-/-) animals compared with wild-type (WT) control mice that was independent of inflammatory cell infiltration. Since AnxA1 exerts its anti-inflammatory properties through stimulation of ALX/FPRL-1, we explored the role of this receptor-ligand interaction in regulating DSS-induced colitis. Interestingly, treatment with an ALX/FPRL-1 agonist, 15-epi-lipoxin A4 reversed the enhanced sensitivity of AnxA1 (-/-) mice to DSS colitis. In contrast, 15-epi-lipoxin A4 did not significantly improve the severity of disease in WT animals. Additionally, differential expression of ALX/FPLR-1 in control and DSS-treated WT and AnxA1-deficient animals suggested a potential role for AnxA1 in regulating ALX/FPRL-1 expression under pathophysiological conditions. Together, these results support a role of endogenous AnxA1 in the protective and reparative properties of the intestinal mucosal epithelium.

Published
2008

3. Interferon-gamma regulates intestinal epithelial homeostasis through converging beta-catenin signaling pathways

Author

Nava, Porfirio, Koch, Stefan, Laukoetter, Mike G., Lee, Winston Y., Kolegraff, Keli, Capaldo, Christopher T., Beeman, Neal, Addis, Caroline, Gerner-Smidt, Kirsten, Neumaier, Irmgard, Skerra, Arne, Li, Linheng, Parkos, Charles A., Nusrat, Asma, Nava, Porfirio, Koch, Stefan, Laukoetter, Mike G., Lee, Winston Y., Kolegraff, Keli, Capaldo, Christopher T., Beeman, Neal, Addis, Caroline, Gerner-Smidt, Kirsten, Neumaier, Irmgard, Skerra, Arne, Li, Linheng, Parkos, Charles A., and Nusrat, Asma

Abstract

Inflammatory cytokines have been proposed to regulate epithelial homeostasis during intestinal inflammation. We report here that interferon-gamma (IFN-gamma) regulates the crucial homeostatic functions of cell proliferation and apoptosis through serine-threonine protein kinase AKT-beta-catenin and Wingless-Int (Wnt)-beta-catenin signaling pathways. Short-term exposure of intestinal epithelial cells to IFN-gamma resulted in activation of beta-catenin through AKT, followed by induction of the secreted Wnt inhibitor Dkk1. Consequently, we observed an increase in Dkk1-mediated apoptosis upon extended IFN-gamma treatment and reduced proliferation through depletion of the Wnt coreceptor LRP6. These effects were enhanced by tumor necrosis factor-alpha (TNF-alpha), suggesting synergism between the two cytokines. Consistent with these results, colitis in vivo was associated with decreased beta-catenin-T cell factor (TCF) signaling, loss of plasma membrane-associated LRP6, and reduced epithelial cell proliferation. Proliferation was partially restored in IFN-gamma-deficient mice. Thus, we propose that IFN-gamma regulates intestinal epithelial homeostasis by sequential regulation of converging beta-catenin signaling pathways., Nava, Porfirio Koch, Stefan Laukoetter, Mike G Lee, Winston Y Kolegraff, Keli Capaldo, Christopher T Beeman, Neal Addis, Caroline Gerner-Smidt, Kirsten Neumaier, Irmgard Skerra, Arne Li, Linheng Parkos, Charles A Nusrat, Asma eng R01 DK059888-09/DK/NIDDK NIH HHS/ R01 DK079392/DK/NIDDK NIH HHS/ R01 DK061379-08/DK/NIDDK NIH HHS/ DK55679/DK/NIDDK NIH HHS/ R29 DK055679/DK/NIDDK NIH HHS/ T32 GM008169/GM/NIGMS NIH HHS/ DK72564/DK/NIDDK NIH HHS/ DK64399/DK/NIDDK NIH HHS/ R01 DK072564/DK/NIDDK NIH HHS/ R01 DK055679-12/DK/NIDDK NIH HHS/ DK53202/DK/NIDDK NIH HHS/ R24 DK064399/DK/NIDDK NIH HHS/ R24 DK064399-019003/DK/NIDDK NIH HHS/ DK59888/DK/NIDDK NIH HHS/ DK79392/DK/NIDDK NIH HHS/ R01 DK055679/DK/NIDDK NIH HHS/ R01 DK079392-07/DK/NIDDK NIH HHS/ R24 DK064399-019002/DK/NIDDK NIH HHS/ R01 DK061379/DK/NIDDK NIH HHS/ R01 DK059888/DK/NIDDK NIH HHS/ DK61379/DK/NIDDK NIH HHS/ R01 DK072564-15/DK/NIDDK NIH HHS/ Research Support, N.I.H., Extramural Research Support, Non-U.S. Gov't 2010/03/23 06:00 Immunity. 2010 Mar 26;32(3):392-402. doi: 10.1016/j.immuni.2010.03.001. Epub 2010 Mar 18.

Published
2010
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5. JAM-A regulates permeability and inflammation in the intestine in vivo

Author

Laukoetter, Mike G., primary, Nava, Porfirio, additional, Lee, Winston Y., additional, Severson, Eric A., additional, Capaldo, Christopher T., additional, Babbin, Brian A., additional, Williams, Ifor R., additional, Koval, Michael, additional, Peatman, Eric, additional, Campbell, Jacquelyn A., additional, Dermody, Terence S., additional, Nusrat, Asma, additional, and Parkos, Charles A., additional

Published
2007
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12. Organized migration of epithelial cells requires control of adhesion and protrusion through Rho kinase effectors.

Author

Hopkins, Ann M., Pineda, A'Drian A., Winfree, L. Matthew, Brown, G. Thomas, Laukoetter, Mike G., and Nusrat, Asma

Subjects
EPITHELIAL cells, GUANOSINE triphosphate, PHOSPHORYLATION, CELL migration, MEMBRANE proteins
Abstract

Migration of epithelial cell sheets, a process involving F-actin restructuring through Rho family GTPases, is both physiologically and pathophysiologically important. Our objective was to clarify the mechanisms whereby the downstream RhoA effector Rho-associated coil-coil-forming kinase (ROCK) influences coordinated epithelial cell motility. Although cells exposed to a pharmacological ROCK inhibitor (Y-27632) exhibited increased spreading in wound closure assays, they failed to migrate in a cohesive manner. Two main phenomena were implicated: the formation of aberrant protrusions at the migrating front and the basal accumulation of F-actin aggregates. Aggregates reflected increased membrane affiliation and detergent insolubility of the actin-binding protein ezrin and enhanced coassociation of ezrin with the membrane protein CD44. While F-actin aggregation following ROCK inhibition was recapitulated by inhibiting myosin light chain (MLC) phosphorylation with the MLC kinase inhibitor ML-7, the latter did not influence protrusiveness and, in fact, significantly decreased cell migration. Our results suggest that excessive protrusiveness downstream of ROCK inhibition reflects an influence of ROCK on F-actin stability via LIM kinase 1 (LIMK-1), which phosphorylates and inactivates cofilin. Y-27632 reduced the levels of both active LIMK-1 and inactive cofilin (phospho forms), and expression of a dominant negative LIMK-1 mutant stimulated leading edge protrusiveness. Furthermore, Y-27632-induced protrusions were partially reversed by overexpression of LIMK-1 to restore cofilin phosphorylation. In summary, our results provide new evidence suggesting that adhesive and protrusive events involved in organized epithelial motility downstream of ROCK are separately coordinated through the phosphorylation of (respectively) MLC and cofilin. [ABSTRACT FROM AUTHOR]

Published
2007
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13. Novel treatment options for perforations of the upper gastrointestinal tract: endoscopic vacuum therapy and over-the-scope clips.

Author

Mennigen R, Senninger N, and Laukoetter MG

Subjects
Algorithms, Clinical Protocols, Digestive System Fistula diagnosis, Digestive System Fistula etiology, Endoscopy, Gastrointestinal methods, Equipment Design, Gastrointestinal Tract injuries, Humans, Intestinal Perforation diagnosis, Intestinal Perforation etiology, Negative-Pressure Wound Therapy methods, Surgical Sponges, Treatment Outcome, Digestive System Fistula surgery, Endoscopes, Gastrointestinal, Endoscopy, Gastrointestinal instrumentation, Gastrointestinal Tract surgery, Intestinal Perforation surgery, Negative-Pressure Wound Therapy instrumentation, Surgical Instruments
Abstract

Endoscopic management of leakages and perforations of the upper gastrointestinal tract has gained great importance as it avoids the morbidity and mortality of surgical intervention. In the past years, covered self-expanding metal stents were the mainstay of endoscopic therapy. However, two new techniques are now available that enlarge the possibilities of defect closure: endoscopic vacuum therapy (EVT), and over-the-scope clip (OTSC). EVT is performed by mounting a polyurethane sponge on a gastric tube and placing it into the leakage. Continuous suction is applied via the tube resulting in effective drainage of the cavity and the induction of wound healing, comparable to the application of vacuum therapy in cutaneous wounds. The system is changed every 3-5 d. The overall success rate of EVT in the literature ranges from 84% to 100%, with a mean of 90%; only few complications have been reported. OTSCs are loaded on a transparent cap which is mounted on the tip of a standard endoscope. By bringing the edges of the perforation into the cap, by suction or by dedicated devices, such as anchor or twin grasper, the OTSC can be placed to close the perforation. For acute endoscopy associated perforations, the mean success rate is 90% (range: 70%-100%). For other types of perforations (postoperative, other chronic leaks and fistulas) success rates are somewhat lower (68%, and 59%, respectively). Only few complications have been reported. Although first reports are promising, further studies are needed to define the exact role of EVT and OTSC in treatment algorithms of upper gastrointestinal perforations.

Published
2014
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14. Interferon-gamma regulates intestinal epithelial homeostasis through converging beta-catenin signaling pathways.

Author

Nava P, Koch S, Laukoetter MG, Lee WY, Kolegraff K, Capaldo CT, Beeman N, Addis C, Gerner-Smidt K, Neumaier I, Skerra A, Li L, Parkos CA, and Nusrat A

Subjects
Animals, Apoptosis, Cell Line, Cell Proliferation, Colitis genetics, Colitis immunology, Colitis metabolism, Colitis pathology, Epithelial Cells cytology, Epithelial Cells metabolism, Interferon-gamma deficiency, Interferon-gamma metabolism, Intestinal Mucosa metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Proto-Oncogene Proteins c-akt metabolism, Wnt Proteins metabolism, Epithelial Cells immunology, Homeostasis, Interferon-gamma immunology, Intestines immunology, Signal Transduction, beta Catenin metabolism
Abstract

Inflammatory cytokines have been proposed to regulate epithelial homeostasis during intestinal inflammation. We report here that interferon-gamma (IFN-gamma) regulates the crucial homeostatic functions of cell proliferation and apoptosis through serine-threonine protein kinase AKT-beta-catenin and Wingless-Int (Wnt)-beta-catenin signaling pathways. Short-term exposure of intestinal epithelial cells to IFN-gamma resulted in activation of beta-catenin through AKT, followed by induction of the secreted Wnt inhibitor Dkk1. Consequently, we observed an increase in Dkk1-mediated apoptosis upon extended IFN-gamma treatment and reduced proliferation through depletion of the Wnt coreceptor LRP6. These effects were enhanced by tumor necrosis factor-alpha (TNF-alpha), suggesting synergism between the two cytokines. Consistent with these results, colitis in vivo was associated with decreased beta-catenin-T cell factor (TCF) signaling, loss of plasma membrane-associated LRP6, and reduced epithelial cell proliferation. Proliferation was partially restored in IFN-gamma-deficient mice. Thus, we propose that IFN-gamma regulates intestinal epithelial homeostasis by sequential regulation of converging beta-catenin signaling pathways.

Published
2010
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15. JAM-A regulates permeability and inflammation in the intestine in vivo.

Author

Laukoetter MG, Nava P, Lee WY, Severson EA, Capaldo CT, Babbin BA, Williams IR, Koval M, Peatman E, Campbell JA, Dermody TS, Nusrat A, and Parkos CA

Subjects
Animals, Cell Line, Tumor, Epithelium embryology, Genetic Predisposition to Disease, Humans, Inflammation, Mice, Mice, Inbred C57BL, Mice, Transgenic, Models, Biological, Neutrophils metabolism, Permeability, Cell Adhesion Molecules physiology, Colon metabolism, Intestinal Mucosa metabolism, Receptors, Cell Surface physiology
Abstract

Recent evidence has linked intestinal permeability to mucosal inflammation, but molecular studies are lacking. Candidate regulatory molecules localized within the tight junction (TJ) include Junctional Adhesion Molecule (JAM-A), which has been implicated in the regulation of barrier function and leukocyte migration. Thus, we analyzed the intestinal mucosa of JAM-A-deficient (JAM-A(-/-)) mice for evidence of enhanced permeability and inflammation. Colonic mucosa from JAM-A(-/-) mice had normal epithelial architecture but increased polymorphonuclear leukocyte infiltration and large lymphoid aggregates not seen in wild-type controls. Barrier function experiments revealed increased mucosal permeability, as indicated by enhanced dextran flux, and decreased transepithelial electrical resistance in JAM-A(-/-) mice. The in vivo observations were epithelial specific, because monolayers of JAM-A(-/-) epithelial cells also demonstrated increased permeability. Analyses of other TJ components revealed increased expression of claudin-10 and -15 in the colonic mucosa of JAM-A(-/-) mice and in JAM-A small interfering RNA-treated epithelial cells. Given the observed increase in colonic inflammation and permeability, we assessed the susceptibility of JAM-A(-/-) mice to the induction of colitis with dextran sulfate sodium (DSS). Although DSS-treated JAM-A(-/-) animals had increased clinical disease compared with controls, colonic mucosa showed less injury and increased epithelial proliferation. These findings demonstrate a complex role of JAM-A in intestinal homeostasis by regulating epithelial permeability, inflammation, and proliferation.

Published
2007
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16. PECAM-1 (CD 31) mediates transendothelial leukocyte migration in experimental colitis.

Author

Rijcken E, Mennigen RB, Schaefer SD, Laukoetter MG, Anthoni C, Spiegel HU, Bruewer M, Senninger N, and Krieglstein CF

Subjects
Animals, Anti-Inflammatory Agents pharmacology, Anti-Inflammatory Agents therapeutic use, Antibodies, Monoclonal pharmacology, Antibodies, Monoclonal therapeutic use, Chronic Disease, Colitis chemically induced, Colitis drug therapy, Colitis enzymology, Dextran Sulfate, Disease Models, Animal, Endothelial Cells drug effects, Female, Gastrointestinal Agents pharmacology, Gastrointestinal Agents therapeutic use, Leukocytes drug effects, Leukocytes enzymology, Mice, Mice, Inbred BALB C, Microscopy, Video, Peroxidase metabolism, Platelet Endothelial Cell Adhesion Molecule-1 immunology, Colitis immunology, Endothelial Cells metabolism, Leukocyte Rolling drug effects, Leukocytes immunology, Platelet Endothelial Cell Adhesion Molecule-1 metabolism
Abstract

Transendothelial migration of circulating leukocytes into the colonic wall is a key step in the development of the inflammatory infiltrate in inflammatory bowel disease (IBD). The platelet-endothelial cell adhesion molecule-1 PECAM-1 (CD31) is expressed in the tight junction area of endothelial cells, where it is supposed to support the transmigration process. The aim of this study was to determine the role of PECAM-1 in experimental IBD and to show whether blockade of PECAM-1 has therapeutic effects. Chronic colitis was induced in female BALB/c mice by cyclic oral administration of dextran sodium sulfate (DSS) 3% (wt/vol). Expression of PECAM-1 was visualized by immunohistochemistry. In the treatment group animals received 1 mg/kg anti-PECAM-1 (2H8) ip daily starting on day 26. On day 30 leukocyte adhesion and migration was measured during N(2)O-isoflurane anesthesia in the distal colon by intravital microscopy. Disease activity index (DAI), histology, and MPO levels were compared with healthy and diseased controls. PECAM-1 was expressed in colitic mice. Chronic DSS colitis was characterized by a marked increase in rolling, adherent, and transmigrated leukocytes compared with healthy controls. Immunoblockade of PECAM-1 reduced leukocyte transmigration significantly and also diminished leukocyte rolling and sticking in an indirect manner. It also resulted in a significantly diminished DAI and MPO levels, as well as an amelioration of the histological inflammation score. PECAM-1 plays an important role in transendothelial leukocyte migration in DSS colitis. PECAM-1 could be a novel target for antibody-based treatment in IBD.

Published
2007
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17. Immunoblockade of PSGL-1 attenuates established experimental murine colitis by reduction of leukocyte rolling.

Author

Rijcken EM, Laukoetter MG, Anthoni C, Meier S, Mennigen R, Spiegel HU, Bruewer M, Senninger N, Vestweber D, and Krieglstein CF

Subjects
Animals, Colitis blood, Female, Integrin alpha4beta1 antagonists & inhibitors, Integrin alpha4beta1 immunology, Mice, Mice, Inbred BALB C, Antibodies, Monoclonal pharmacology, Colitis physiopathology, Leukocyte Rolling, Membrane Glycoproteins antagonists & inhibitors, Membrane Glycoproteins immunology
Abstract

Recruitment of circulating leukocytes into the colonic tissue is a key feature of intestinal inflammation. P-selectin glycoprotein ligand-1 (PSGL-1) and very late antigen-4 (VLA-4) are expressed on leukocytes and play an important role in leukocyte-endothelial cell adhesive interactions. We examined the effects of immunoneutralization of PSGL-1 and VLA-4 on leukocyte recruitment in vivo in the development and treatment of experimental colitis. Chronic colitis was induced in balb/c mice by oral administration of dextran sodium sulfate (DSS). Monoclonal antibodies 2PH1 (anti-PSGL-1) and PS/2 (anti-VLA-4) or the combination of both were injected intravenously, and leukocyte adhesion was observed for 60 min in colonic submucosal venules by intravital microscopy (IVM) under isoflurane/N(2)O anesthesia. In addition, mice with established colitis were treated by daily intraperitoneal injections of 2PH1, PS/2, or the combination of both over 5 days. Disease activity index (DAI), histology, and myeloperoxidase (MPO) levels were compared with sham-treated DSS controls. We found that 2PH1 reduced the number of rolling leukocytes (148.7 +/- 29.8 vs. 36.9 +/- 8.7/0.01 mm(2)/30 s, P < 0.05), whereas leukocyte velocity was increased (24.0 +/- 3.6 vs. 127.8 +/- 11.7 microm/s, P < 0.05). PS/2 reduced leukocyte rolling to a lesser extent. Leukocyte firm adhesion was not influenced by 2PH1 but was strongly reduced by PS/2 (24.1 +/- 2 vs. 4.4 +/- 0.9/0.01 mm(2)/30 s, P < 0.05). Combined application did not cause additional effects on leukocyte adhesion. Treatment of chronic colitis with 2PH1 or PS/2 reduced DAI, mucosal injury, and MPO levels significantly. Combined treatment led to a significantly better reduction of DAI (0.4 +/- 0.1 vs. 2.1 +/- 0.2 points) and histology (9.7 +/- 0.9 vs. 21.4 +/- 4.6 points). In conclusion, PSGL-1 and VLA-4 play an important role for leukocyte recruitment during intestinal inflammation. Therapeutic strategies designed to disrupt interactions mediated by PSGL-1 and/or VLA-4 may prove beneficial in treatment of chronic colitis.

Published
2004
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