Razieh Khoshnevisan1,2,3, Michael Anderson4,5, Stephen Babcock4,5, Sierra Anderson4,5, David Illig1, Benjamin Marquardt1, Roya Sherkat3, Katrin Schröder6, Franziska Moll6, Sebastian Hollizeck1, Meino Rohlfs1, Christoph Walz7, Peyman Adibi8, Abbas Rezaei2, Alireza Andalib2, Sibylle Koletzko1,9, Aleixo M Muise9,10,11,12,13, Scott B Snapper1,4,5,9,14, Christoph Klein1,9, Jay R Thiagarajah5,9,13, Daniel Kotlarz1,4,5,9. 1. Dr. von Hauner Children's Hospital, Department of Pediatrics, University Hospital, Ludwig-Maximilians-Universität München, Munich, Germany. 2. Department of Immunology, Medical Faculty, Isfahan University of Medical Sciences, Isfahan, Iran. 3. Acquired Immunodeficiency Research Center, Isfahan University of Medical Sciences, Isfahan, Iran. 4. Division of Gastroenterology, Hepatology and Nutrition, Boston Children's Hospital, Boston, Massachusetts, USA. 5. Department of Pediatrics, Harvard Medical School, Boston, Massachusetts, USA. 6. Institute for Cardiovascular Physiology, Goethe-University, Frankfurt, Germany. 7. Institute of Pathology, Faculty of Medicine, Ludwig-Maximilians-Universität München, Munich, Germany. 8. Integrative Functional Gastroenterology Research Center, Isfahan University of Medical Sciences, Isfahan, Iran. 9. SickKids Inflammatory Bowel Disease Center and Cell Biology Program, Research Institute, Hospital for Sick Children, Toronto, Ontario, Canada. 10. Division of Gastroenterology, Hepatology and Nutrition, Department of Pediatrics, University of Toronto, Hospital for Sick Children, Toronto, Ontario, Canada. 11. Department of Biochemistry, University of Toronto, Toronto, Ontario, Canada. 12. Division of Gastroenterology, Brigham and Women's Hospital, Boston, Massachusetts, USA. 13. PEDI-CODE Consortium, Boston, Massachusetts, USA. 14. VEO-IBD Consortium, Munich, Germany.
Abstract
BACKGROUND: Genetic defects of pediatric-onset inflammatory bowel disease (IBD) provide critical insights into molecular factors controlling intestinal homeostasis. NOX1 has been recently recognized as a major source of reactive oxygen species (ROS) in human colonic epithelial cells. Here we assessed the functional consequences of human NOX1 deficiency with respect to wound healing and epithelial migration by studying pediatric IBD patients presenting with a stop-gain mutation in NOX1. METHODS: Functional characterization of the NOX1 variant included ROS generation, wound healing, 2-dimensional collective chemotactic migration, single-cell planktonic migration in heterologous cell lines, and RNA scope and immunohistochemistry of paraffin-embedded patient tissue samples. RESULTS: Using exome sequencing, we identified a stop-gain mutation in NOX1 (c.160C>T, p.54R>*) in patients with pediatric-onset IBD. Our studies confirmed that loss-of-function of NOX1 causes abrogated ROS activity, but they also provided novel mechanistic insights into human NOX1 deficiency. Cells that were NOX1-mutant showed impaired wound healing and attenuated 2-dimensional collective chemotactic migration. High-resolution microscopy of the migrating cell edge revealed a reduced density of filopodial protrusions with altered focal adhesions in NOX1-deficient cells, accompanied by reduced phosphorylation of p190A. Assessment of single-cell planktonic migration toward an epidermal growth factor gradient showed that NOX1 deficiency is associated with altered migration dynamics with loss of directionality and altered cell-cell interactions. CONCLUSIONS: Our studies on pediatric-onset IBD patients with a rare sequence variant in NOX1 highlight that human NOX1 is involved in regulating wound healing by altering epithelial cytoskeletal dynamics at the leading edge and directing cell migration.
BACKGROUND: Genetic defects of pediatric-onset inflammatory bowel disease (IBD) provide critical insights into molecular factors controlling intestinal homeostasis. NOX1 has been recently recognized as a major source of reactive oxygen species (ROS) in human colonic epithelial cells. Here we assessed the functional consequences of humanNOX1 deficiency with respect to wound healing and epithelial migration by studying pediatric IBDpatients presenting with a stop-gain mutation in NOX1. METHODS: Functional characterization of the NOX1 variant included ROS generation, wound healing, 2-dimensional collective chemotactic migration, single-cell planktonic migration in heterologous cell lines, and RNA scope and immunohistochemistry of paraffin-embedded patient tissue samples. RESULTS: Using exome sequencing, we identified a stop-gain mutation in NOX1 (c.160C>T, p.54R>*) in patients with pediatric-onset IBD. Our studies confirmed that loss-of-function of NOX1 causes abrogated ROS activity, but they also provided novel mechanistic insights into humanNOX1 deficiency. Cells that were NOX1-mutant showed impaired wound healing and attenuated 2-dimensional collective chemotactic migration. High-resolution microscopy of the migrating cell edge revealed a reduced density of filopodial protrusions with altered focal adhesions in NOX1-deficient cells, accompanied by reduced phosphorylation of p190A. Assessment of single-cell planktonic migration toward an epidermal growth factor gradient showed that NOX1 deficiency is associated with altered migration dynamics with loss of directionality and altered cell-cell interactions. CONCLUSIONS: Our studies on pediatric-onset IBDpatients with a rare sequence variant in NOX1 highlight that humanNOX1 is involved in regulating wound healing by altering epithelial cytoskeletal dynamics at the leading edge and directing cell migration.
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