Defects in Nicotinamide-adenine Dinucleotide Phosphate Oxidase Genes NOX1 and DUOX2 in Very Early Onset Inflammatory Bowel Disease

BACKGROUND & AIMS: Defects in intestinal innate defense systems predispose patients to inflammatory bowel disease (IBD). Reactive oxygen species (ROS) generated by nicotinamide-adenine dinucleotide phosphate (NADPH) oxidases in the mucosal barrier maintain gut homeostasis and defend against path...

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Autores principales: Hayes, Patti, Dhillon, Sandeep, O’Neill, Kim, Thoeni, Cornelia, Hui, Ken Y., Elkadri, Abdul, Guo, Conghui H., Kovacic, Lidija, Aviello, Gabriella, Alvarez, Luis A., Griffiths, Anne M., Snapper, Scott B., Brant, Steven R., Doroshow, James H., Silverberg, Mark S., Peter, Inga, McGovern, Dermot P.B., Cho, Judy, Brumell, John H., Uhlig, Holm H., Bourke, Billy, Muise, Aleixo M., Knaus, Ulla G.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2015
Materias:
Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4539615/
https://www.ncbi.nlm.nih.gov/pubmed/26301257
http://dx.doi.org/10.1016/j.jcmgh.2015.06.005
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author Hayes, Patti
Dhillon, Sandeep
O’Neill, Kim
Thoeni, Cornelia
Hui, Ken Y.
Elkadri, Abdul
Guo, Conghui H.
Kovacic, Lidija
Aviello, Gabriella
Alvarez, Luis A.
Griffiths, Anne M.
Snapper, Scott B.
Brant, Steven R.
Doroshow, James H.
Silverberg, Mark S.
Peter, Inga
McGovern, Dermot P.B.
Cho, Judy
Brumell, John H.
Uhlig, Holm H.
Bourke, Billy
Muise, Aleixo M.
Knaus, Ulla G.
author_facet Hayes, Patti
Dhillon, Sandeep
O’Neill, Kim
Thoeni, Cornelia
Hui, Ken Y.
Elkadri, Abdul
Guo, Conghui H.
Kovacic, Lidija
Aviello, Gabriella
Alvarez, Luis A.
Griffiths, Anne M.
Snapper, Scott B.
Brant, Steven R.
Doroshow, James H.
Silverberg, Mark S.
Peter, Inga
McGovern, Dermot P.B.
Cho, Judy
Brumell, John H.
Uhlig, Holm H.
Bourke, Billy
Muise, Aleixo M.
Knaus, Ulla G.
author_sort Hayes, Patti
collection PubMed
description BACKGROUND & AIMS: Defects in intestinal innate defense systems predispose patients to inflammatory bowel disease (IBD). Reactive oxygen species (ROS) generated by nicotinamide-adenine dinucleotide phosphate (NADPH) oxidases in the mucosal barrier maintain gut homeostasis and defend against pathogenic attack. We hypothesized that molecular genetic defects in intestinal NADPH oxidases might be present in children with IBD. METHODS: After targeted exome sequencing of epithelial NADPH oxidases NOX1 and DUOX2 on 59 children with very early onset inflammatory bowel disease (VEOIBD), the identified mutations were validated using Sanger Sequencing. A structural analysis of NOX1 and DUOX2 variants was performed by homology in silico modeling. The functional characterization included ROS generation in model cell lines and in in vivo transduced murine crypts, protein expression, intracellular localization, and cell-based infection studies with the enteric pathogens Campylobacter jejuni and enteropathogenic Escherichia coli. RESULTS: We identified missense mutations in NOX1 (c.988G>A, p.Pro330Ser; c.967G>A, p.Asp360Asn) and DUOX2 (c.4474G>A, p.Arg1211Cys; c.3631C>T, p.Arg1492Cys) in 5 of 209 VEOIBD patients. The NOX1 p.Asp360Asn variant was replicated in a male Ashkenazi Jewish ulcerative colitis cohort. Patients with both NOX1 and DUOX2 variants showed abnormal Paneth cell metaplasia. All NOX1 and DUOX2 variants showed reduced ROS production compared with wild-type enzymes. Despite appropriate cellular localization and comparable pathogen-stimulated translocation of altered oxidases, cells harboring NOX1 or DUOX2 variants had defective host resistance to infection with C. jejuni. CONCLUSIONS: This study identifies the first inactivating missense variants in NOX1 and DUOX2 associated with VEOIBD. Defective ROS production from intestinal epithelial cells constitutes a risk factor for developing VEOIBD.
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spelling pubmed-45396152016-09-01 Defects in Nicotinamide-adenine Dinucleotide Phosphate Oxidase Genes NOX1 and DUOX2 in Very Early Onset Inflammatory Bowel Disease Hayes, Patti Dhillon, Sandeep O’Neill, Kim Thoeni, Cornelia Hui, Ken Y. Elkadri, Abdul Guo, Conghui H. Kovacic, Lidija Aviello, Gabriella Alvarez, Luis A. Griffiths, Anne M. Snapper, Scott B. Brant, Steven R. Doroshow, James H. Silverberg, Mark S. Peter, Inga McGovern, Dermot P.B. Cho, Judy Brumell, John H. Uhlig, Holm H. Bourke, Billy Muise, Aleixo M. Knaus, Ulla G. Cell Mol Gastroenterol Hepatol Original Research BACKGROUND & AIMS: Defects in intestinal innate defense systems predispose patients to inflammatory bowel disease (IBD). Reactive oxygen species (ROS) generated by nicotinamide-adenine dinucleotide phosphate (NADPH) oxidases in the mucosal barrier maintain gut homeostasis and defend against pathogenic attack. We hypothesized that molecular genetic defects in intestinal NADPH oxidases might be present in children with IBD. METHODS: After targeted exome sequencing of epithelial NADPH oxidases NOX1 and DUOX2 on 59 children with very early onset inflammatory bowel disease (VEOIBD), the identified mutations were validated using Sanger Sequencing. A structural analysis of NOX1 and DUOX2 variants was performed by homology in silico modeling. The functional characterization included ROS generation in model cell lines and in in vivo transduced murine crypts, protein expression, intracellular localization, and cell-based infection studies with the enteric pathogens Campylobacter jejuni and enteropathogenic Escherichia coli. RESULTS: We identified missense mutations in NOX1 (c.988G>A, p.Pro330Ser; c.967G>A, p.Asp360Asn) and DUOX2 (c.4474G>A, p.Arg1211Cys; c.3631C>T, p.Arg1492Cys) in 5 of 209 VEOIBD patients. The NOX1 p.Asp360Asn variant was replicated in a male Ashkenazi Jewish ulcerative colitis cohort. Patients with both NOX1 and DUOX2 variants showed abnormal Paneth cell metaplasia. All NOX1 and DUOX2 variants showed reduced ROS production compared with wild-type enzymes. Despite appropriate cellular localization and comparable pathogen-stimulated translocation of altered oxidases, cells harboring NOX1 or DUOX2 variants had defective host resistance to infection with C. jejuni. CONCLUSIONS: This study identifies the first inactivating missense variants in NOX1 and DUOX2 associated with VEOIBD. Defective ROS production from intestinal epithelial cells constitutes a risk factor for developing VEOIBD. Elsevier 2015-06-24 /pmc/articles/PMC4539615/ /pubmed/26301257 http://dx.doi.org/10.1016/j.jcmgh.2015.06.005 Text en © 2015 The Authors http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Original Research
Hayes, Patti
Dhillon, Sandeep
O’Neill, Kim
Thoeni, Cornelia
Hui, Ken Y.
Elkadri, Abdul
Guo, Conghui H.
Kovacic, Lidija
Aviello, Gabriella
Alvarez, Luis A.
Griffiths, Anne M.
Snapper, Scott B.
Brant, Steven R.
Doroshow, James H.
Silverberg, Mark S.
Peter, Inga
McGovern, Dermot P.B.
Cho, Judy
Brumell, John H.
Uhlig, Holm H.
Bourke, Billy
Muise, Aleixo M.
Knaus, Ulla G.
Defects in Nicotinamide-adenine Dinucleotide Phosphate Oxidase Genes NOX1 and DUOX2 in Very Early Onset Inflammatory Bowel Disease
title Defects in Nicotinamide-adenine Dinucleotide Phosphate Oxidase Genes NOX1 and DUOX2 in Very Early Onset Inflammatory Bowel Disease
title_full Defects in Nicotinamide-adenine Dinucleotide Phosphate Oxidase Genes NOX1 and DUOX2 in Very Early Onset Inflammatory Bowel Disease
title_fullStr Defects in Nicotinamide-adenine Dinucleotide Phosphate Oxidase Genes NOX1 and DUOX2 in Very Early Onset Inflammatory Bowel Disease
title_full_unstemmed Defects in Nicotinamide-adenine Dinucleotide Phosphate Oxidase Genes NOX1 and DUOX2 in Very Early Onset Inflammatory Bowel Disease
title_short Defects in Nicotinamide-adenine Dinucleotide Phosphate Oxidase Genes NOX1 and DUOX2 in Very Early Onset Inflammatory Bowel Disease
title_sort defects in nicotinamide-adenine dinucleotide phosphate oxidase genes nox1 and duox2 in very early onset inflammatory bowel disease
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4539615/
https://www.ncbi.nlm.nih.gov/pubmed/26301257
http://dx.doi.org/10.1016/j.jcmgh.2015.06.005
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