Your search keyword '"Holm, H. A."' showing total 12 results

1. NOX1 is essential for TNFα-induced intestinal epithelial ROS secretion and inhibits M cell signatures

Author

Nai-Yun Hsu, Shikha Nayar, Kyle Gettler, Sayali Talware, Mamta Giri, Isaac Alter, Carmen Argmann, Ksenija Sabic, Tin Htwe Thin, Huai-Bin Mabel Ko, Robert Werner, Christopher Tastad, Thaddeus Stappenbeck, Aline Azabdaftari, Holm H Uhlig, Ling-Shiang Chuang, and Judy H Cho

Subjects

Gastroenterology

Abstract

ObjectiveLoss-of-function mutations in genes generating reactive oxygen species (ROS), such asNOX1, are associated with IBD. Mechanisms whereby loss of ROS drive IBD are incompletely defined.DesignROS measurements and single-cell transcriptomics were performed on colonoids stratified byNOX1genotype and TNFα stimulation. Clustering of epithelial cells from human UC (inflamed and uninflamed) scRNASeq was performed. Validation of M cell induction was performed by immunohistochemistry using UEA1 (ulex europaeus agglutin-1 lectin) and in vivo with DSS injury.ResultsTNFα induces ROS production more in NOX1-WT versus NOX1-deficient murine colonoids under a range of Wnt-mediated and Notch-mediated conditions. scRNASeq from inflamed and uninflamed human colitis versus TNFα stimulated, in vitro colonoids defines substantially shared, induced transcription factors; NOX1-deficient colonoids express substantially lower levels of STAT3 (signal transducer and activator of transcription 3), CEBPD (CCAAT enhancer-binding protein delta),DNMT1(DNA methyltransferase) andHIF1A(hypoxia-inducible factor) baseline. Subclustering unexpectedly showed marked TNFα-mediated induction of M cells (sentinel cells overlying lymphoid aggregates) in NOX1-deficient colonoids. M cell induction by UEA1 staining is rescued with H2O2and paraquat, defining extra- and intracellular ROS roles in maintenance of LGR5+ stem cells. DSS injury demonstratedGP2(glycoprotein-2), basal lymphoplasmacytosis and UEA1 induction in NOX1-deficiency. Principal components analyses of M cell genes and decreased DNMT1 RNA velocity correlate with UC inflammation.ConclusionsNOX1 deficiency plus TNFα stimulation contribute to colitis through dysregulation of the stem cell niche and altered cell differentiation, enhancing basal lymphoplasmacytosis. Our findings prioritise ROS modulation for future therapies.

Published

2022

2. Defective microbial sensing and clearance in perianal Crohn’s disease: a role for complement factor B

Author

Ghate, Arya, primary and Uhlig, Holm H., additional

Published

2023

3. NOX1 is essential for TNFα-induced intestinal epithelial ROS secretion and inhibits M cell signatures

Author

Hsu, Nai-Yun, primary, Nayar, Shikha, additional, Gettler, Kyle, additional, Talware, Sayali, additional, Giri, Mamta, additional, Alter, Isaac, additional, Argmann, Carmen, additional, Sabic, Ksenija, additional, Thin, Tin Htwe, additional, Ko, Huai-Bin Mabel, additional, Werner, Robert, additional, Tastad, Christopher, additional, Stappenbeck, Thaddeus, additional, Azabdaftari, Aline, additional, Uhlig, Holm H, additional, Chuang, Ling-Shiang, additional, and Cho, Judy H, additional

Published

2022

4. Defective microbial sensing and clearance in perianal Crohn’s disease: a role for complement factor B

Author

Arya Ghate and Holm H. Uhlig

Subjects

Gastroenterology

Published

2023

5. NOX1 is essential for TNFα-induced intestinal epithelial ROS secretion and inhibits M cell signatures.

Author

Nai-Yun Hsu, Nayar, Shikha, Gettler, Kyle, Talware, Sayali, Giri, Mamta, Alter, Isaac, Argmann, Carmen, Sabic, Ksenija, Tin Htwe Thin, Huai-Bin Mabel Ko, Werner, Robert, Tastad, Christopher, Stappenbeck, Thaddeus, Azabdaftari, Aline, Uhlig, Holm H., Ling-Shiang Chuang, and Cho, Judy H.

Subjects

STEM cell niches, CYTOLOGY, SECRETION, INFLAMMATORY bowel diseases, INTESTINES, PROTEIN kinases, HEROIN

Published

2023

6. NOX1 is essential for TNFα-induced intestinal epithelial ROS secretion and inhibits M cell signatures

Author

Hsu, Nai-Yun, Nayar, Shikha, Gettler, Kyle, Talware, Sayali, Giri, Mamta, Alter, Isaac, Argmann, Carmen, Sabic, Ksenija, Thin, Tin Htwe, Ko, Huai-Bin Mabel, Werner, Robert, Tastad, Christopher, Stappenbeck, Thaddeus, Azabdaftari, Aline, Uhlig, Holm H, Chuang, Ling-Shiang, and Cho, Judy H

Abstract

ObjectiveLoss-of-function mutations in genes generating reactive oxygen species (ROS), such as NOX1, are associated with IBD. Mechanisms whereby loss of ROS drive IBD are incompletely defined.DesignROS measurements and single-cell transcriptomics were performed on colonoids stratified by NOX1genotype and TNFα stimulation. Clustering of epithelial cells from human UC (inflamed and uninflamed) scRNASeq was performed. Validation of M cell induction was performed by immunohistochemistry using UEA1 (ulex europaeus agglutin-1 lectin) and in vivo with DSS injury.ResultsTNFα induces ROS production more in NOX1-WT versus NOX1-deficient murine colonoids under a range of Wnt-mediated and Notch-mediated conditions. scRNASeq from inflamed and uninflamed human colitis versus TNFα stimulated, in vitro colonoids defines substantially shared, induced transcription factors; NOX1-deficient colonoids express substantially lower levels of STAT3 (signal transducer and activator of transcription 3), CEBPD (CCAAT enhancer-binding protein delta), DNMT1(DNA methyltransferase) and HIF1A(hypoxia-inducible factor) baseline. Subclustering unexpectedly showed marked TNFα-mediated induction of M cells (sentinel cells overlying lymphoid aggregates) in NOX1-deficient colonoids. M cell induction by UEA1 staining is rescued with H2O2and paraquat, defining extra- and intracellular ROS roles in maintenance of LGR5+ stem cells. DSS injury demonstrated GP2(glycoprotein-2), basal lymphoplasmacytosis and UEA1 induction in NOX1-deficiency. Principal components analyses of M cell genes and decreased DNMT1 RNA velocity correlate with UC inflammation.ConclusionsNOX1 deficiency plus TNFα stimulation contribute to colitis through dysregulation of the stem cell niche and altered cell differentiation, enhancing basal lymphoplasmacytosis. Our findings prioritise ROS modulation for future therapies.

Published

2023

7. Monogenic diseases associated with intestinal inflammation: implications for the understanding of inflammatory bowel disease

Author

Uhlig, Holm H

Published

2013

8. Deconvolution of monocyte responses in inflammatory bowel disease reveals an IL-1 cytokine network that regulates IL-23 in genetic and acquired IL-10 resistance

Author

Aschenbrenner, Dominik, primary, Quaranta, Maria, additional, Banerjee, Soumya, additional, Ilott, Nicholas, additional, Jansen, Joanneke, additional, Steere, Boyd, additional, Chen, Yin-Huai, additional, Ho, Stephen, additional, Cox, Karen, additional, Arancibia-Cárcamo, Carolina V, additional, Coles, Mark, additional, Gaffney, Eamonn, additional, Travis, Simon PL, additional, Denson, Lee, additional, Kugathasan, Subra, additional, Schmitz, Jochen, additional, Powrie, Fiona, additional, Sansom, Stephen N, additional, and Uhlig, Holm H, additional

Published

2020

9. Deconvolution of monocyte responses in inflammatory bowel disease reveals an IL-1 cytokine network that regulates IL-23 in genetic and acquired IL-10 resistance.

Author

Aschenbrenner, Dominik, Quaranta, Maria, Banerjee, Soumya, Ilott, Nicholas, Jansen, Joanneke, Steere, Boyd, Yin-Huai Chen, Stephen Ho, Cox, Karen, Arancibia-Cárcamo, Carolina V., Coles, Mark, Gaffney, Eamonn, Travis, Simon PL, Denson, Lee, Kugathasan, Subra, Schmitz, Jochen, Powrie, Fiona, Sansom, Stephen N., and Uhlig, Holm H.

Subjects

INFLAMMATORY bowel diseases, INTESTINAL diseases, MONONUCLEAR leukocytes, INFLAMMATION, MACROPHAGES

Published

2021

10. Monogenic diseases associated with intestinal inflammation: implications for the understanding of inflammatory bowel disease

Author

Holm H. Uhlig

Subjects

Adult, Adolescent, Regulatory T cell, Disease, Biology, Lymphocyte Activation, T-Lymphocytes, Regulatory, Inflammatory bowel disease, Young Adult, Crohn Disease, Intestinal mucosa, medicine, Humans, Genetic Predisposition to Disease, Age of Onset, Intestinal Mucosa, Child, Immunodeficiency, Aged, Aged, 80 and over, Inflammation, Crohn's disease, Gastroenterology, Infant, Middle Aged, Inflammatory Bowel Diseases, medicine.disease, Ulcerative colitis, digestive system diseases, Transplantation, medicine.anatomical_structure, Child, Preschool, Immunology, Colitis, Ulcerative

Abstract

Inflammatory bowel disease (IBD), encompassing Crohn's disease and ulcerative colitis, has multifactorial aetiology with complex interactions between genetic and environmental factors. Over 150 genetic loci are associated with IBD. The genetic contribution of the majority of those loci towards explained heritability is low. Recent studies have reported an increasing spectrum of human monogenic diseases that can present with IBD-like intestinal inflammation. A substantial proportion of patients with those genetic defects present with very early onset of intestinal inflammation. The 40 monogenic defects with IBD-like pathology selected in this review can be grouped into defects in intestinal epithelial barrier and stress response, immunodeficiencies affecting granulocyte and phagocyte activity, hyper- and autoinflammatory disorders as well as defects with disturbed T and B lymphocyte selection and activation. In addition, there are defects in immune regulation affecting regulatory T cell activity and interleukin (IL)-10 signalling. Related to the variable penetrance of the IBD-like phenotype, there is a likely role for modifier genes and gene-environment interactions. Treatment options in this heterogeneous group of disorders range from anti-inflammatory and immunosuppressive therapy to blockade of tumour necrosis factor α and IL-1β, surgery, haematopoietic stem cell transplantation or gene therapy. Understanding of prototypic monogenic 'orphan' diseases cannot only provide treatment options for the affected patients but also inform on immunological mechanisms and complement the functional understanding of the pathogenesis of IBD.

Published

2013

11. Impaired antibacterial autophagy links granulomatous intestinal inflammation in Niemann–Pick disease type C1 and XIAP deficiency with NOD2 variants in Crohn's disease

Author

Schwerd, Tobias, primary, Pandey, Sumeet, additional, Yang, Huei-Ting, additional, Bagola, Katrin, additional, Jameson, Elisabeth, additional, Jung, Jonathan, additional, Lachmann, Robin H, additional, Shah, Neil, additional, Patel, Smita Y, additional, Booth, Claire, additional, Runz, Heiko, additional, Düker, Gesche, additional, Bettels, Ruth, additional, Rohrbach, Marianne, additional, Kugathasan, Subra, additional, Chapel, Helen, additional, Keshav, Satish, additional, Elkadri, Abdul, additional, Platt, Nick, additional, Muise, Alexio M, additional, Koletzko, Sibylle, additional, Xavier, Ramnik J, additional, Marquardt, Thorsten, additional, Powrie, Fiona, additional, Wraith, James E, additional, Gyrd-Hansen, Mads, additional, Platt, Frances M, additional, and Uhlig, Holm H, additional

Published

2016

12. Impaired antibacterial autophagy links granulomatous intestinal inflammation in Niemann–Pick disease type C1 and XIAP deficiency with NOD2 variants in Crohn's disease

Author

Schwerd, Tobias, Pandey, Sumeet, Yang, Huei-Ting, Bagola, Katrin, Jameson, Elisabeth, Jung, Jonathan, Lachmann, Robin H, Shah, Neil, Patel, Smita Y, Booth, Claire, Runz, Heiko, Duker, Gesche, Bettels, Ruth, Rohrbach, Marianne, Kugathasan, Subra, Chapel, Helen, Keshav, Satish, Elkadri, Abdul, Platt, Nick, Muise, Alexio M, Koletzko, Sibylle, Xavier, Ramnik J, Marquardt, Thorsten, Powrie, Fiona, Wraith, James E, Gyrd-Hansen, Mads, Platt, Frances M, and Uhlig, Holm H

Abstract

ObjectivePatients with Niemann–Pick disease type C1 (NPC1), a lysosomal lipid storage disorder that causes neurodegeneration and liver damage, can present with IBD, but neither the significance nor the functional mechanism of this association is clear. We studied bacterial handling and antibacterial autophagy in patients with NPC1.DesignWe characterised intestinal inflammation in 14 patients with NPC1 who developed IBD. We investigated bacterial handling and cytokine production of NPC1 monocytes or macrophages in vitro and compared NPC1-associated functional defects to those caused by IBD-associated nucleotide-binding oligomerization domain-containing protein 2 (NOD2) variants or mutations in X-linked inhibitor of apoptosis (XIAP).ResultsPatients with the lysosomal lipid storage disorder NPC1 have increased susceptibility to early-onset fistulising colitis with granuloma formation, reminiscent of Crohn's disease (CD). Mutations in NPC1 cause impaired autophagy due to defective autophagosome function that abolishes NOD2-mediated bacterial handling in vitro similar to variants in NOD2 or XIAP deficiency. In contrast to genetic NOD2 and XIAP variants, NPC1 mutations do not impair NOD2-receptor-interacting kinase 2 (RIPK2)-XIAP-dependent cytokine production. Pharmacological activation of autophagy can rescue bacterial clearance in macrophages in vitro by increasing the autophagic flux and bypassing defects in NPC1.ConclusionsNPC1 confers increased risk of early-onset severe CD. Our data support the concept that genetic defects at different checkpoints of selective autophagy cause a shared outcome of CD-like immunopathology linking monogenic and polygenic forms of IBD. Muramyl dipeptide-driven cytokine responses and antibacterial autophagy induction are parallel and independent signalling cascades downstream of the NOD2-RIPK2-XIAP complex.

Published

2017