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1. Serine metabolism is crucial for cGAS-STING signaling and viral defense control in the gut

Author

Becker, Björn, Wottawa, Felix, Bakr, Mohamed, Koncina, Eric, Mayr, Lisa, Kugler, Julia, Yang, Guang, Windross, Samuel J., Neises, Laura, Mishra, Neha, Harris, Danielle, Tran, Florian, Welz, Lina, Schwärzler, Julian, Bánki, Zoltán, Stengel, Stephanie T., Ito, Go, Krötz, Christina, Coleman, Olivia I., Jaeger, Christian, Haller, Dirk, Paludan, Søren R., Blumberg, Richard, Kaser, Arthur, Cicin-Sain, Luka, Schreiber, Stefan, Adolph, Timon E., Letellier, Elisabeth, Rosenstiel, Philip, Meiser, Johannes, and Aden, Konrad

Published
2024
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2. DNA methyltransferase 3A controls intestinal epithelial barrier function and regeneration in the colon

Author

Fazio, Antonella, Bordoni, Dora, Kuiper, Jan W. P., Weber-Stiehl, Saskia, Stengel, Stephanie T., Arnold, Philipp, Ellinghaus, David, Ito, Go, Tran, Florian, Messner, Berith, Henning, Anna, Bernardes, Joana P., Häsler, Robert, Luzius, Anne, Imm, Simon, Hinrichsen, Finn, Franke, Andre, Huber, Samuel, Nikolaus, Susanna, Aden, Konrad, Schreiber, Stefan, Sommer, Felix, Natoli, Gioacchino, Mishra, Neha, and Rosenstiel, Philip

Published
2022
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5. Intelectin-1 binds and alters the localization of the mucus barrier-modifying bacterium Akkermansia muciniphila

Author

Matute, Juan D., Duan, Jinzhi, Flak, Magdalena B., Griebel, Paul, Tascon-Arcila, Jose A., Doms, Shauni, Hanley, Thomas, Antanaviciute, Agne, Gundrum, Jennifer, Mark Welch, Jessica L., Sit, Brandon, Abtahi, Shabnam, Fuhler, Gwenny M., Grootjans, Joep, Tran, Florian, Stengel, Stephanie T., White, James R., Krupka, Niklas, Haller, Dirk, Clare, Simon, Lawley, Trevor D., Kaser, Arthur, Simmons, Alison, Glickman, Jonathan N., Bry, Lynn, Rosenstiel, Philip, Borisy, Gary, Waldor, Matthew K., Baines, John F., Turner, Jerrold R., Blumberg, Richard S., Matute, Juan D [0000-0002-1703-8115], Duan, Jinzhi [0000-0001-9351-4956], Flak, Magdalena B [0000-0002-8238-9835], Griebel, Paul [0000-0001-5671-8183], Tascon-Arcila, Jose A [0000-0001-6647-2842], Doms, Shauni [0000-0002-2129-4138], Hanley, Thomas [0000-0002-4270-8299], Antanaviciute, Agne [0000-0002-9019-2215], Gundrum, Jennifer [0000-0001-8136-2537], Mark Welch, Jessica L [0000-0003-0696-2334], Sit, Brandon [0000-0003-2378-3039], Abtahi, Shabnam [0000-0003-3096-8023], Fuhler, Gwenny M [0000-0001-9221-4855], Grootjans, Joep [0000-0002-2805-4831], Tran, Florian [0000-0002-3735-9872], Stengel, Stephanie T [0000-0003-2949-879X], White, James R [0000-0002-7535-9179], Krupka, Niklas [0000-0001-5948-7536], Haller, Dirk [0000-0002-6977-4085], Clare, Simon [0000-0001-9368-6037], Lawley, Trevor D [0000-0002-4805-621X], Kaser, Arthur [0000-0003-1419-3344], Simmons, Alison [0000-0003-3454-0710], Glickman, Jonathan N [0000-0003-0910-2655], Bry, Lynn [0000-0002-8792-8527], Rosenstiel, Philip [0000-0002-9692-8828], Borisy, Gary [0000-0002-0266-8018], Waldor, Matthew K [0000-0003-1843-7000], Baines, John F [0000-0002-8132-4909], Turner, Jerrold R [0000-0003-0627-9455], Blumberg, Richard S [0000-0002-9704-248X], Apollo - University of Cambridge Repository, and Gastroenterology & Hepatology

Subjects
Mice, Mucus, Verrucomicrobia, Lectins, Humans, Animals, Colitis, Ulcerative
Abstract

Intelectin-1 (ITLN1) is a lectin secreted by intestinal epithelial cells (IECs) and upregulated in human ulcerative colitis (UC). We investigated how ITLN1 production is regulated in IECs and the biological effects of ITLN1 at the host-microbiota interface using mouse models. Our data show that ITLN1 upregulation in IECs from UC patients is a consequence of activating the unfolded protein response. Analysis of microbes coated by ITLN1 in vivo revealed a restricted subset of microorganisms, including the mucolytic bacterium Akkermansia muciniphila. Mice overexpressing intestinal ITLN1 exhibited decreased inner colonic mucus layer thickness and closer apposition of A. muciniphila to the epithelial cell surface, similar to alterations reported in UC. The changes in the inner mucus layer were microbiota and A. muciniphila dependent and associated with enhanced sensitivity to chemically induced and T cell-mediated colitis. We conclude that by determining the localization of a select group of bacteria to the mucus layer, ITLN1 modifies this critical barrier. Together, these findings may explain the impact of ITLN1 dysregulation on UC pathogenesis.

Published
2023

6. Intelectin-1 binds and alters the localization of the mucus barrier–modifying bacterium Akkermansia muciniphila

Author

Matute, Juan D., primary, Duan, Jinzhi, additional, Flak, Magdalena B., additional, Griebel, Paul, additional, Tascon-Arcila, Jose A., additional, Doms, Shauni, additional, Hanley, Thomas, additional, Antanaviciute, Agne, additional, Gundrum, Jennifer, additional, Mark Welch, Jessica L., additional, Sit, Brandon, additional, Abtahi, Shabnam, additional, Fuhler, Gwenny M., additional, Grootjans, Joep, additional, Tran, Florian, additional, Stengel, Stephanie T., additional, White, James R., additional, Krupka, Niklas, additional, Haller, Dirk, additional, Clare, Simon, additional, Lawley, Trevor D., additional, Kaser, Arthur, additional, Simmons, Alison, additional, Glickman, Jonathan N., additional, Bry, Lynn, additional, Rosenstiel, Philip, additional, Borisy, Gary, additional, Waldor, Matthew K., additional, Baines, John F., additional, Turner, Jerrold R., additional, and Blumberg, Richard S., additional

Published
2022
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7. Metabolic plasticity of serine metabolism is crucial for cGAS/STING-signalling and innate immune response to viral infections in the gut

Author

Becker, Björn, primary, Wottawa, Felix, additional, Bakr, Mohamed, additional, Koncina, Eric, additional, Mayr, Lisa, additional, Kugler, Julia, additional, Yang, Guang, additional, Windross, Samuel J, additional, Neises, Laura, additional, Mishra, Neha, additional, Harris, Danielle, additional, Tran, Florian, additional, Welz, Lina, additional, Schwärzler, Julian, additional, Bánki, Zoltán, additional, Stengel, Stephanie T, additional, Ito, Go, additional, Krötz, Christina, additional, Coleman, Olivia I, additional, Jaeger, Christian, additional, Haller, Dirk, additional, Paludan, Søren R, additional, Blumberg, Richard, additional, Kaser, Arthur, additional, Cicin-Sain, Luka, additional, Schreiber, Stefan, additional, Adolph, Timon E., additional, Letellier, Elisabeth, additional, Rosenstiel, Philip, additional, Meiser, Johannes, additional, and Aden, Konrad, additional

Published
2022
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8. Su1478: ORM1-LIKE PROTEINS SHAPE ENDOPLASMIC RETICULUM HOMEOSTASIS IN THE INTESTINAL EPITHELIUM BY REGULATING AUTOPHAGY

Author

Tran, Florian, primary, Stengel, Stephanie T., additional, Yang, Hui, additional, Bernardes, Joana P., additional, Lopez-Agudero, Victor A., additional, Paulsen, Maren, additional, Arnold, Philipp, additional, Messner, Berith, additional, Jentzsch, Marlene, additional, Bordoni, Dora, additional, Kaser, Arthur, additional, Aden, Konrad, additional, Schreiber, Stefan, additional, and Rosenstiel, Philip, additional

Published
2022
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9. Activating Transcription Factor 6 Mediates Inflammatory Signals in Intestinal Epithelial Cells Upon Endoplasmic Reticulum Stress

Author

Stengel, Stephanie T., Fazio, Antonella, Lipinski, Simone, Jahn, Martin T., Aden, Konrad, Ito, Go, Wottawa, Felix, Kuiper, Jan W.P., Coleman, Olivia I., Tran, Florian, Bordoni, Dora, Bernardes, Joana P., Jentzsch, Marlene, Luzius, Anne, Bierwirth, Sandra, Messner, Berith, Henning, Anna, Welz, Lina, Kakavand, Nassim, Falk-Paulsen, Maren, Imm, Simon, Hinrichsen, Finn, Zilbauer, Matthias, Schreiber, Stefan, Kaser, Arthur, Blumberg, Richard, Haller, Dirk, Rosenstiel, Philip, Stengel, Stephanie T., Fazio, Antonella, Lipinski, Simone, Jahn, Martin T., Aden, Konrad, Ito, Go, Wottawa, Felix, Kuiper, Jan W.P., Coleman, Olivia I., Tran, Florian, Bordoni, Dora, Bernardes, Joana P., Jentzsch, Marlene, Luzius, Anne, Bierwirth, Sandra, Messner, Berith, Henning, Anna, Welz, Lina, Kakavand, Nassim, Falk-Paulsen, Maren, Imm, Simon, Hinrichsen, Finn, Zilbauer, Matthias, Schreiber, Stefan, Kaser, Arthur, Blumberg, Richard, Haller, Dirk, and Rosenstiel, Philip

Published
2020
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10. Activating Transcription Factor 6 Mediates Inflammatory Signals in Intestinal Epithelial Cells Upon Endoplasmic Reticulum Stress

Author

Stengel, Stephanie T., primary, Fazio, Antonella, additional, Lipinski, Simone, additional, Jahn, Martin T., additional, Aden, Konrad, additional, Ito, Go, additional, Wottawa, Felix, additional, Kuiper, Jan W.P., additional, Coleman, Olivia I., additional, Tran, Florian, additional, Bordoni, Dora, additional, Bernardes, Joana P., additional, Jentzsch, Marlene, additional, Luzius, Anne, additional, Bierwirth, Sandra, additional, Messner, Berith, additional, Henning, Anna, additional, Welz, Lina, additional, Kakavand, Nassim, additional, Falk-Paulsen, Maren, additional, Imm, Simon, additional, Hinrichsen, Finn, additional, Zilbauer, Matthias, additional, Schreiber, Stefan, additional, Kaser, Arthur, additional, Blumberg, Richard, additional, Haller, Dirk, additional, and Rosenstiel, Philip, additional

Published
2020
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11. A Phage Protein Aids Bacterial Symbionts in Eukaryote Immune Evasion

Author

Jahn, Martin T, Arkhipova, Ksenia, Markert, Sebastian M, Stigloher, Christian, Lachnit, Tim, Pita, Lucia, Kupczok, Anne, Ribes, Marta, Stengel, Stephanie T, Rosenstiel, Philip, Dutilh, Bas E, Hentschel, Ute, Sub Bioinformatics, Theoretical Biology and Bioinformatics, Sub Bioinformatics, Theoretical Biology and Bioinformatics, German Research Foundation, German National Academic Foundation, and Universität Würzburg

Subjects
Ankyrins, Viral metagenomics, viromics, viruses, Coronacrisis-Taverne, Context (language use), Ankyrin, Microbiology, Cell Line, 03 medical and health sciences, Mice, 0302 clinical medicine, Symbiosis, ankyrin, Virology, phage, Animals, Bacteriophages, Microbiome, Community ecology, innate immunity, 030304 developmental biology, immune evasion, Immune Evasion, Genetics, Innate immunity, Marine sponge, 0303 health sciences, Innate immune system, biology, Bacteria, Host (biology), Microbiota, biology.organism_classification, symbiosis, 3. Good health, Porifera, Mice, Inbred C57BL, Phage, Parasitology, Eukaryote, Viromics, Female, 030217 neurology & neurosurgery, community ecology, marine sponge
Abstract

15 pages, 5 figures, 1 table, supplemental Information https://doi.org/10.1016/j.chom.2019.08.019, Phages are increasingly recognized as important members of host-associated microbiomes, with a vast genomic diversity. The new frontier is to understand how phages may affect higher order processes, such as in the context of host-microbe interactions. Here, we use marine sponges as a model to investigate the interplay between phages, bacterial symbionts, and eukaryotic hosts. Using viral metagenomics, we find that sponges, although massively filtering seawater, harbor species-specific and even individually unique viral signatures that are taxonomically distinct from other environments. We further discover a symbiont phage-encoded ankyrin-domain-containing protein, which is widely spread in phages of many host-associated contexts including human. We confirm in macrophage infection assays that the ankyrin protein (ANKp) modulates the eukaryotic host immune response against bacteria. We predict that the role of ANKp in nature is to facilitate coexistence in the tripartite interplay between phages, symbionts, and sponges and possibly many other host-microbe associations, We acknowledge funding by the DFG CRC1182 to U.H. (TPB1), T.L. (TPA4), P.R. (TPC2), and A.K. (TPC3). M.T.J. was supported by a grant of the German Excellence Initiative to the Graduate School of Life Sciences, University of Würzburg, and the Young Investigator Award of CRC1182. S.M.M. was supported by the Studienstiftung des Deutschen Volkes

Published
2019

12. Missense variants in NOX1 and p22phox in a case of very-early-onset inflammatory bowel disease are functionally linked to NOD2

Author

Lipinski, Simone, Petersen, Britt-Sabina, Barann, Matthias, Piecyk, Agnes, Tran, Florian, Mayr, Gabriele, Jentzsch, Marlene, Aden, Konrad, Stengel, Stephanie T., Klostermeier, Ulrich C., Sheth, Vrunda, Ellinghaus, David, Rausch, Tobias, Korbel, Jan O., Nothnagel, Michael, Krawczak, Michael, Gilissen, Christian, Veltman, Joris A., Forster, Michael, Forster, Peter, Lee, Clarence C., Fritscher-Ravens, Annette, Schreiber, Stefan, Franke, Andre, Rosenstiel, Philip, Lipinski, Simone, Petersen, Britt-Sabina, Barann, Matthias, Piecyk, Agnes, Tran, Florian, Mayr, Gabriele, Jentzsch, Marlene, Aden, Konrad, Stengel, Stephanie T., Klostermeier, Ulrich C., Sheth, Vrunda, Ellinghaus, David, Rausch, Tobias, Korbel, Jan O., Nothnagel, Michael, Krawczak, Michael, Gilissen, Christian, Veltman, Joris A., Forster, Michael, Forster, Peter, Lee, Clarence C., Fritscher-Ravens, Annette, Schreiber, Stefan, Franke, Andre, and Rosenstiel, Philip

Abstract

Whole-genome and whole-exome sequencing of individual patients allow the study of rare and potentially causative genetic variation. In this study, we sequenced DNA of a trio comprising a boy with very-early-onset inflammatory bowel disease (veoIBD) and his unaffected parents. We identified a rare, X-linked missense variant in the NAPDH oxidase NOX1 gene (c.C721T, p.R241C) in heterozygous state in the mother and in hemizygous state in the patient. We discovered that, in addition, the patient was homozygous for a common missense variant in the CYBA gene (c.T214C, p.Y72H). CYBA encodes the p22phox protein, a cofactor for NOX1. Functional assays revealed reduced cellular ROS generation and antibacterial capacity of NOX1 and p22phox variants in intestinal epithelial cells. Moreover, the identified NADPH oxidase complex variants affected NOD2-mediated immune responses, and p22phox was identified as a novel NOD2 interactor. In conclusion, we detected missense variants in a veoIBD patient that disrupt the host response to bacterial challenges and reduce protective innate immune signaling via NOD2. We assume that the patient's individual genetic makeup favored disturbed intestinal mucosal barrier function.

Published
2019

13. A Phage Protein Aids Bacterial Symbionts in Eukaryote Immune Evasion

Author

Sub Bioinformatics, Theoretical Biology and Bioinformatics, Jahn, Martin T, Arkhipova, Ksenia, Markert, Sebastian M, Stigloher, Christian, Lachnit, Tim, Pita, Lucia, Kupczok, Anne, Ribes, Marta, Stengel, Stephanie T, Rosenstiel, Philip, Dutilh, Bas E, Hentschel, Ute, Sub Bioinformatics, Theoretical Biology and Bioinformatics, Jahn, Martin T, Arkhipova, Ksenia, Markert, Sebastian M, Stigloher, Christian, Lachnit, Tim, Pita, Lucia, Kupczok, Anne, Ribes, Marta, Stengel, Stephanie T, Rosenstiel, Philip, Dutilh, Bas E, and Hentschel, Ute

Published
2019

14. A Phage Protein Aids Bacterial Symbionts in Eukaryote Immune Evasion

Author

Jahn, Martin T., Arkhipova, Ksenia, Markert, Sebastian M., Stigloher, Christian, Lachnit, Tim, Pita, Lucia, Kupczok, Anne, Ribes, Marta, Stengel, Stephanie T., Rosenstiel, Philip, Dutilh, Bas E., Hentschel, Ute, Jahn, Martin T., Arkhipova, Ksenia, Markert, Sebastian M., Stigloher, Christian, Lachnit, Tim, Pita, Lucia, Kupczok, Anne, Ribes, Marta, Stengel, Stephanie T., Rosenstiel, Philip, Dutilh, Bas E., and Hentschel, Ute

Abstract

Highlights: • Sponges, evolutionary basal animals, represent a reservoir of novel viral diversity • Viromes of neighboring sponges are individually unique and species specific • Phages encode ankyrins to aid bacteria in evading the eukaryotic immune system • Such “Ankyphages” are widespread in host-associated environments, including humans Summary: Phages are increasingly recognized as important members of host-associated microbiomes, with a vast genomic diversity. The new frontier is to understand how phages may affect higher order processes, such as in the context of host-microbe interactions. Here, we use marine sponges as a model to investigate the interplay between phages, bacterial symbionts, and eukaryotic hosts. Using viral metagenomics, we find that sponges, although massively filtering seawater, harbor species-specific and even individually unique viral signatures that are taxonomically distinct from other environments. We further discover a symbiont phage-encoded ankyrin-domain-containing protein, which is widely spread in phages of many host-associated contexts including human. We confirm in macrophage infection assays that the ankyrin protein (ANKp) modulates the eukaryotic host immune response against bacteria. We predict that the role of ANKp in nature is to facilitate coexistence in the tripartite interplay between phages, symbionts, and sponges and possibly many other host-microbe associations.

Published
2019
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15. A Phage Protein Aids Bacterial Symbionts in Eukaryote Immune Evasion

Author

German Research Foundation, German National Academic Foundation, Universität Würzburg, Jahn, Martin T., Arkhipova, Ksenia, Markert, Sebastian M., Stigloher, Christian, Lachnit, Tim, Pita, Lucía, Kupczok, Anne, Ribes, Marta, Stengel, Stephanie T., Rosenstiel, Philip C., Dutilh, Bas E., Hentschel, Ute, German Research Foundation, German National Academic Foundation, Universität Würzburg, Jahn, Martin T., Arkhipova, Ksenia, Markert, Sebastian M., Stigloher, Christian, Lachnit, Tim, Pita, Lucía, Kupczok, Anne, Ribes, Marta, Stengel, Stephanie T., Rosenstiel, Philip C., Dutilh, Bas E., and Hentschel, Ute

Abstract

Phages are increasingly recognized as important members of host-associated microbiomes, with a vast genomic diversity. The new frontier is to understand how phages may affect higher order processes, such as in the context of host-microbe interactions. Here, we use marine sponges as a model to investigate the interplay between phages, bacterial symbionts, and eukaryotic hosts. Using viral metagenomics, we find that sponges, although massively filtering seawater, harbor species-specific and even individually unique viral signatures that are taxonomically distinct from other environments. We further discover a symbiont phage-encoded ankyrin-domain-containing protein, which is widely spread in phages of many host-associated contexts including human. We confirm in macrophage infection assays that the ankyrin protein (ANKp) modulates the eukaryotic host immune response against bacteria. We predict that the role of ANKp in nature is to facilitate coexistence in the tripartite interplay between phages, symbionts, and sponges and possibly many other host-microbe associations

Published
2019

16. ATG16L1 orchestrates interleukin-22 signaling in the intestinal epithelium via cGAS-STING

Author

Aden, Konrad, Tran, Florian, Ito, Go, Sheibani-Tezerji, Raheleh, Lipinski, Simone, Kuiper, Jan W, Tschurtschenthaler, Markus, Saveljeva, Svetlana, Bhattacharyya, Joya, Häsler, Robert, Bartsch, Kareen, Luzius, Anne, Jentzsch, Marlene, Falk-Paulsen, Maren, Stengel, Stephanie T, Welz, Lina, Schwarzer, Robin, Rabe, Björn, Barchet, Winfried, Krautwald, Stefan, Hartmann, Gunther, Pasparakis, Manolis, Blumberg, Richard S, Schreiber, Stefan, Kaser, Arthur, Rosenstiel, Philip, Tran, Florian [0000-0002-3735-9872], Lipinski, Simone [0000-0002-9322-7372], Tschurtschenthaler, Markus [0000-0002-0060-4790], Bhattacharyya, Joya [0000-0003-1745-4167], Krautwald, Stefan [0000-0001-7768-2132], Blumberg, Richard S [0000-0002-9704-248X], Kaser, Arthur [0000-0003-1419-3344], Rosenstiel, Philip [0000-0002-9692-8828], and Apollo - University of Cambridge Repository

Subjects
Mice, Knockout, Interleukins, Autophagy-Related Proteins, Genetic Variation, Membrane Proteins, Inflammatory Bowel Diseases, digestive system, Nucleotidyltransferases, Mice, Animals, Humans, Caco-2 Cells, Intestinal Mucosa, Carrier Proteins, Signal Transduction
Abstract

A coding variant of the inflammatory bowel disease (IBD) risk gene ATG16L1 has been associated with defective autophagy and deregulation of endoplasmic reticulum (ER) function. IL-22 is a barrier protective cytokine by inducing regeneration and antimicrobial responses in the intestinal mucosa. We show that ATG16L1 critically orchestrates IL-22 signaling in the intestinal epithelium. IL-22 stimulation physiologically leads to transient ER stress and subsequent activation of STING-dependent type I interferon (IFN-I) signaling, which is augmented in Atg16l1 ΔIEC intestinal organoids. IFN-I signals amplify epithelial TNF production downstream of IL-22 and contribute to necroptotic cell death. In vivo, IL-22 treatment in Atg16l1 ΔIEC and Atg16l1 ΔIEC/Xbp1 ΔIEC mice potentiates endogenous ileal inflammation and causes widespread necroptotic epithelial cell death. Therapeutic blockade of IFN-I signaling ameliorates IL-22-induced ileal inflammation in Atg16l1 ΔIEC mice. Our data demonstrate an unexpected role of ATG16L1 in coordinating the outcome of IL-22 signaling in the intestinal epithelium.

Published
2018
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17. Missense variants in NOX1 and p22phox in a case of very-early-onset inflammatory bowel disease are functionally linked to NOD2

Author

Lipinski, Simone, primary, Petersen, Britt-Sabina, additional, Barann, Matthias, additional, Piecyk, Agnes, additional, Tran, Florian, additional, Mayr, Gabriele, additional, Jentzsch, Marlene, additional, Aden, Konrad, additional, Stengel, Stephanie T., additional, Klostermeier, Ulrich C., additional, Sheth, Vrunda, additional, Ellinghaus, David, additional, Rausch, Tobias, additional, Korbel, Jan O., additional, Nothnagel, Michael, additional, Krawczak, Michael, additional, Gilissen, Christian, additional, Veltman, Joris A., additional, Forster, Michael, additional, Forster, Peter, additional, Lee, Clarence C., additional, Fritscher-Ravens, Annette, additional, Schreiber, Stefan, additional, Franke, Andre, additional, and Rosenstiel, Philip, additional

Published
2019
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18. ATG16L1 orchestrates interleukin-22 signaling in the intestinal epithelium via cGAS–STING

Author

Aden, Konrad, primary, Tran, Florian, additional, Ito, Go, additional, Sheibani-Tezerji, Raheleh, additional, Lipinski, Simone, additional, Kuiper, Jan W., additional, Tschurtschenthaler, Markus, additional, Saveljeva, Svetlana, additional, Bhattacharyya, Joya, additional, Häsler, Robert, additional, Bartsch, Kareen, additional, Luzius, Anne, additional, Jentzsch, Marlene, additional, Falk-Paulsen, Maren, additional, Stengel, Stephanie T., additional, Welz, Lina, additional, Schwarzer, Robin, additional, Rabe, Björn, additional, Barchet, Winfried, additional, Krautwald, Stefan, additional, Hartmann, Gunther, additional, Pasparakis, Manolis, additional, Blumberg, Richard S., additional, Schreiber, Stefan, additional, Kaser, Arthur, additional, and Rosenstiel, Philip, additional

Published
2018
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19. Membrane Microdomain Disassembly Inhibits MRSA Antibiotic Resistance

Author

García-Fernández, Esther, primary, Koch, Gudrun, additional, Wagner, Rabea M., additional, Fekete, Agnes, additional, Stengel, Stephanie T., additional, Schneider, Johannes, additional, Mielich-Süss, Benjamin, additional, Geibel, Sebastian, additional, Markert, Sebastian M., additional, Stigloher, Christian, additional, and Lopez, Daniel, additional

Published
2017
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21. Activating Transcription Factor 6 Mediates Inflammatory Signals in Intestinal Epithelial Cells Upon Endoplasmic Reticulum Stress

Author

Stengel, Stephanie T, Fazio, Antonella, Lipinski, Simone, Jahn, Martin T, Aden, Konrad, Ito, Go, Wottawa, Felix, Kuiper, Jan WP, Coleman, Olivia I, Tran, Florian, Bordoni, Dora, Bernardes, Joana P, Jentzsch, Marlene, Luzius, Anne, Bierwirth, Sandra, Messner, Berith, Henning, Anna, Welz, Lina, Kakavand, Nassim, Falk-Paulsen, Maren, Imm, Simon, Hinrichsen, Finn, Zilbauer, Matthias, Schreiber, Stefan, Kaser, Arthur, Blumberg, Richard, Haller, Dirk, and Rosenstiel, Philip

Subjects
Inflammation, IBD, Cell Culture Techniques, Gene Expression, Epithelial Cells, Endoplasmic Reticulum Stress, Inflammatory Bowel Diseases, 3. Good health, Activating Transcription Factor 6, Mice, HEK293 Cells, Ileum, Autophagy, Animals, Humans, Caco-2 Cells, Intestinal Mucosa, Endoplasmic Reticulum Chaperone BiP, Signal Transduction
Abstract

BACKGROUND & AIMS: Excess and unresolved endoplasmic reticulum (ER) stress in intestinal epithelial cells (IECs) promotes intestinal inflammation. Activating transcription factor 6 (ATF6) is one of the signaling mediators of ER stress. We studied the pathways that regulate ATF6 and its role for inflammation in IECs. METHODS: We performed an RNA interference screen, using 23,349 unique small interfering RNAs targeting 7783 genes and a luciferase reporter controlled by an ATF6-dependent ERSE (ER stress-response element) promoter, to identify proteins that activate or inhibit the ATF6 signaling pathway in HEK293 cells. To validate the screening results, intestinal epithelial cell lines (Caco-2 cells) were transfected with small interfering RNAs or with a plasmid overexpressing a constitutively active form of ATF6. Caco-2 cells with a CRISPR-mediated disruption of autophagy related 16 like 1 gene (ATG16L1) were used to study the effect of ATF6 on ER stress in autophagy-deficient cells. We also studied intestinal organoids derived from mice that overexpress constitutively active ATF6, from mice with deletion of the autophagy related 16 like 1 or X-Box binding protein 1 gene in IECs (Atg16l1ΔIEC or Xbp1ΔIEC, which both develop spontaneous ileitis), from patients with Crohn's disease (CD) and healthy individuals (controls). Cells and organoids were incubated with tunicamycin to induce ER stress and/or chemical inhibitors of newly identified activator proteins of ATF6 signaling, and analyzed by real-time polymerase chain reaction and immunoblots. Atg16l1ΔIEC and control (Atg16l1fl/fl) mice were given intraperitoneal injections of tunicamycin and were treated with chemical inhibitors of ATF6 activating proteins. RESULTS: We identified and validated 15 suppressors and 7 activators of the ATF6 signaling pathway; activators included the regulatory subunit of casein kinase 2 (CSNK2B) and acyl-CoA synthetase long chain family member 1 (ACSL1). Knockdown or chemical inhibition of CSNK2B and ACSL1 in Caco-2 cells reduced activity of the ATF6-dependent ERSE reporter gene, diminished transcription of the ATF6 target genes HSP90B1 and HSPA5 and reduced NF-κB reporter gene activation on tunicamycin stimulation. Atg16l1ΔIEC and or Xbp1ΔIEC organoids showed increased expression of ATF6 and its target genes. Inhibitors of ACSL1 or CSNK2B prevented activation of ATF6 and reduced CXCL1 and tumor necrosis factor (TNF) expression in these organoids on induction of ER stress with tunicamycin. Injection of mice with inhibitors of ACSL1 or CSNK2B significantly reduced tunicamycin-mediated intestinal inflammation and IEC death and expression of CXCL1 and TNF in Atg16l1ΔIEC mice. Purified ileal IECs from patients with CD had higher levels of ATF6, CSNK2B, and HSPA5 messenger RNAs than controls; early-passage organoids from patients with active CD show increased levels of activated ATF6 protein, incubation of these organoids with inhibitors of ACSL1 or CSNK2B reduced transcription of ATF6 target genes, including TNF. CONCLUSIONS: Ileal IECs from patients with CD have higher levels of activated ATF6, which is regulated by CSNK2B and HSPA5. ATF6 increases expression of TNF and other inflammatory cytokines in response to ER stress in these cells and in organoids from Atg16l1ΔIEC and Xbp1ΔIEC mice. Strategies to inhibit the ATF6 signaling pathway might be developed for treatment of inflammatory bowel diseases.

22. Intelectin-1 binds and alters the localization of the mucus barrier-modifying bacterium Akkermansia muciniphila.

Author

Matute JD, Duan J, Flak MB, Griebel P, Tascon-Arcila JA, Doms S, Hanley T, Antanaviciute A, Gundrum J, Mark Welch JL, Sit B, Abtahi S, Fuhler GM, Grootjans J, Tran F, Stengel ST, White JR, Krupka N, Haller D, Clare S, Lawley TD, Kaser A, Simmons A, Glickman JN, Bry L, Rosenstiel P, Borisy G, Waldor MK, Baines JF, Turner JR, and Blumberg RS

Subjects
Humans, Mice, Animals, Mucus metabolism, Lectins, Verrucomicrobia metabolism, Colitis, Ulcerative metabolism, Colitis, Ulcerative microbiology, Colitis, Ulcerative pathology
Abstract

Intelectin-1 (ITLN1) is a lectin secreted by intestinal epithelial cells (IECs) and upregulated in human ulcerative colitis (UC). We investigated how ITLN1 production is regulated in IECs and the biological effects of ITLN1 at the host-microbiota interface using mouse models. Our data show that ITLN1 upregulation in IECs from UC patients is a consequence of activating the unfolded protein response. Analysis of microbes coated by ITLN1 in vivo revealed a restricted subset of microorganisms, including the mucolytic bacterium Akkermansia muciniphila. Mice overexpressing intestinal ITLN1 exhibited decreased inner colonic mucus layer thickness and closer apposition of A. muciniphila to the epithelial cell surface, similar to alterations reported in UC. The changes in the inner mucus layer were microbiota and A. muciniphila dependent and associated with enhanced sensitivity to chemically induced and T cell-mediated colitis. We conclude that by determining the localization of a select group of bacteria to the mucus layer, ITLN1 modifies this critical barrier. Together, these findings may explain the impact of ITLN1 dysregulation on UC pathogenesis., (© 2022 Matute et al.)

Published
2023
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23. Missense variants in NOX1 and p22phox in a case of very-early-onset inflammatory bowel disease are functionally linked to NOD2.

Author

Lipinski S, Petersen BS, Barann M, Piecyk A, Tran F, Mayr G, Jentzsch M, Aden K, Stengel ST, Klostermeier UC, Sheth V, Ellinghaus D, Rausch T, Korbel JO, Nothnagel M, Krawczak M, Gilissen C, Veltman JA, Forster M, Forster P, Lee CC, Fritscher-Ravens A, Schreiber S, Franke A, and Rosenstiel P

Subjects
Cell Line, Tumor, Chromosomes, Human, X, Homozygote, Humans, Inflammatory Bowel Diseases enzymology, Male, Nod2 Signaling Adaptor Protein genetics, Polymorphism, Single Nucleotide, Exome Sequencing, Whole Genome Sequencing, Inflammatory Bowel Diseases genetics, Mutation, Missense, NADPH Oxidase 1 genetics, NADPH Oxidases genetics
Abstract

Whole-genome and whole-exome sequencing of individual patients allow the study of rare and potentially causative genetic variation. In this study, we sequenced DNA of a trio comprising a boy with very-early-onset inflammatory bowel disease (veoIBD) and his unaffected parents. We identified a rare, X-linked missense variant in the NAPDH oxidase NOX1 gene (c.C721T, p.R241C) in heterozygous state in the mother and in hemizygous state in the patient. We discovered that, in addition, the patient was homozygous for a common missense variant in the CYBA gene (c.T214C, p.Y72H). CYBA encodes the p22phox protein, a cofactor for NOX1. Functional assays revealed reduced cellular ROS generation and antibacterial capacity of NOX1 and p22phox variants in intestinal epithelial cells. Moreover, the identified NADPH oxidase complex variants affected NOD2-mediated immune responses, and p22phox was identified as a novel NOD2 interactor. In conclusion, we detected missense variants in a veoIBD patient that disrupt the host response to bacterial challenges and reduce protective innate immune signaling via NOD2. We assume that the patient's individual genetic makeup favored disturbed intestinal mucosal barrier function., (© 2019 Lipinski et al.; Published by Cold Spring Harbor Laboratory Press.)

Published
2019
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