Human ALPI deficiency causes inflammatory bowel disease and highlights a key mechanism of gut homeostasis

Human ALPI deficiency causes inflammatory bowel disease and highlights a key mechanism of gut homeostasis

Abstract Herein, we report the first identification of biallelic‐inherited mutations in ALPI as a Mendelian cause of inflammatory bowel disease in two unrelated patients. ALPI encodes for intestinal phosphatase alkaline, a brush border metalloenzyme that hydrolyses phosphate from the lipid A moiety...

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Main Authors: Marianna Parlato, Fabienne Charbit‐Henrion, Jie Pan, Claudio Romano, Rémi Duclaux‐Loras, Marie‐Helene Le Du, Neil Warner, Paola Francalanci, Julie Bruneau, Marc Bras, Mohammed Zarhrate, Bernadette Bègue, Nicolas Guegan, Sabine Rakotobe, Nathalie Kapel, Paola De Angelis, Anne M Griffiths, Karoline Fiedler, Eileen Crowley, Frank Ruemmele, Aleixo M Muise, Nadine Cerf‐Bensussan
Format: Article
Language:English
Published: Wiley 2018-04-01
Series:EMBO Molecular Medicine
Subjects:
inflammatory bowel diseases
intestinal phosphatase alkaline
monogenic disease
Online Access:https://doi.org/10.15252/emmm.201708483
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author Marianna Parlato
Fabienne Charbit‐Henrion
Jie Pan
Claudio Romano
Rémi Duclaux‐Loras
Marie‐Helene Le Du
Neil Warner
Paola Francalanci
Julie Bruneau
Marc Bras
Mohammed Zarhrate
Bernadette Bègue
Nicolas Guegan
Sabine Rakotobe
Nathalie Kapel
Paola De Angelis
Anne M Griffiths
Karoline Fiedler
Eileen Crowley
Frank Ruemmele
Aleixo M Muise
Nadine Cerf‐Bensussan
spellingShingle Marianna Parlato
Fabienne Charbit‐Henrion
Jie Pan
Claudio Romano
Rémi Duclaux‐Loras
Marie‐Helene Le Du
Neil Warner
Paola Francalanci
Julie Bruneau
Marc Bras
Mohammed Zarhrate
Bernadette Bègue
Nicolas Guegan
Sabine Rakotobe
Nathalie Kapel
Paola De Angelis
Anne M Griffiths
Karoline Fiedler
Eileen Crowley
Frank Ruemmele
Aleixo M Muise
Nadine Cerf‐Bensussan
Human ALPI deficiency causes inflammatory bowel disease and highlights a key mechanism of gut homeostasis
EMBO Molecular Medicine
inflammatory bowel diseases
intestinal phosphatase alkaline
monogenic disease
author_facet Marianna Parlato
Fabienne Charbit‐Henrion
Jie Pan
Claudio Romano
Rémi Duclaux‐Loras
Marie‐Helene Le Du
Neil Warner
Paola Francalanci
Julie Bruneau
Marc Bras
Mohammed Zarhrate
Bernadette Bègue
Nicolas Guegan
Sabine Rakotobe
Nathalie Kapel
Paola De Angelis
Anne M Griffiths
Karoline Fiedler
Eileen Crowley
Frank Ruemmele
Aleixo M Muise
Nadine Cerf‐Bensussan
author_sort Marianna Parlato
title Human ALPI deficiency causes inflammatory bowel disease and highlights a key mechanism of gut homeostasis
title_short Human ALPI deficiency causes inflammatory bowel disease and highlights a key mechanism of gut homeostasis
title_full Human ALPI deficiency causes inflammatory bowel disease and highlights a key mechanism of gut homeostasis
title_fullStr Human ALPI deficiency causes inflammatory bowel disease and highlights a key mechanism of gut homeostasis
title_full_unstemmed Human ALPI deficiency causes inflammatory bowel disease and highlights a key mechanism of gut homeostasis
title_sort human alpi deficiency causes inflammatory bowel disease and highlights a key mechanism of gut homeostasis
publisher Wiley
series EMBO Molecular Medicine
issn 1757-4676
1757-4684
publishDate 2018-04-01
description Abstract Herein, we report the first identification of biallelic‐inherited mutations in ALPI as a Mendelian cause of inflammatory bowel disease in two unrelated patients. ALPI encodes for intestinal phosphatase alkaline, a brush border metalloenzyme that hydrolyses phosphate from the lipid A moiety of lipopolysaccharides and thereby drastically reduces Toll‐like receptor 4 agonist activity. Prediction tools and structural modelling indicate that all mutations affect critical residues or inter‐subunit interactions, and heterologous expression in HEK293T cells demonstrated that all ALPI mutations were loss of function. ALPI mutations impaired either stability or catalytic activity of ALPI and rendered it unable to detoxify lipopolysaccharide‐dependent signalling. Furthermore, ALPI expression was reduced in patients’ biopsies, and ALPI activity was undetectable in ALPI‐deficient patient's stool. Our findings highlight the crucial role of ALPI in regulating host–microbiota interactions and restraining host inflammatory responses. These results indicate that ALPI mutations should be included in screening for monogenic causes of inflammatory bowel diseases and lay the groundwork for ALPI‐based treatments in intestinal inflammatory disorders.
topic inflammatory bowel diseases
intestinal phosphatase alkaline
monogenic disease
url https://doi.org/10.15252/emmm.201708483
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spelling doaj-9e8cd61beb77431d8b75bee63fbb72fe2021-08-02T10:36:22ZengWileyEMBO Molecular Medicine1757-46761757-46842018-04-01104n/an/a10.15252/emmm.201708483Human ALPI deficiency causes inflammatory bowel disease and highlights a key mechanism of gut homeostasisMarianna Parlato0Fabienne Charbit‐Henrion1Jie Pan2Claudio Romano3Rémi Duclaux‐Loras4Marie‐Helene Le Du5Neil Warner6Paola Francalanci7Julie Bruneau8Marc Bras9Mohammed Zarhrate10Bernadette Bègue11Nicolas Guegan12Sabine Rakotobe13Nathalie Kapel14Paola De Angelis15Anne M Griffiths16Karoline Fiedler17Eileen Crowley18Frank Ruemmele19Aleixo M Muise20Nadine Cerf‐Bensussan21INSERM, UMR1163 Laboratory of Intestinal Immunity and Institut Imagine Paris FranceINSERM, UMR1163 Laboratory of Intestinal Immunity and Institut Imagine Paris FranceSickKids Inflammatory Bowel Disease Center and Cell Biology Program Research Institute Hospital for Sick Children Toronto ON CanadaGENIUS group from ESPGHANINSERM, UMR1163 Laboratory of Intestinal Immunity and Institut Imagine Paris FranceDepartment of Biochemistry, Biophysics and Structural Biology Institute for Integrative Biology of the Cell (I2BC) CEA UMR 9198 CNRS Université Paris‐Sud Gif‐sur‐Yvette FranceSickKids Inflammatory Bowel Disease Center and Cell Biology Program Research Institute Hospital for Sick Children Toronto ON CanadaDigestive Endoscopy and Surgery Unit and Pathology Unit Bambino Gesù Children Hospital IRCCS Rome ItalyUniversité Paris Descartes‐Sorbonne Paris Cité Paris FranceBioinformatics Platform Université Paris‐Descartes‐Paris Sorbonne Centre and Institut Imagine Paris FranceGenomic Platform INSERM, UMR1163 Imagine Institute Paris Descartes‐Sorbonne Paris Cite University Paris FranceINSERM, UMR1163 Laboratory of Intestinal Immunity and Institut Imagine Paris FranceINSERM, UMR1163 Laboratory of Intestinal Immunity and Institut Imagine Paris FranceINSERM, UMR1163 Laboratory of Intestinal Immunity and Institut Imagine Paris FranceDepartment of Functional Coprology Pitié Salpêtrière Hospital Assistance publique‐Hôpitaux de Paris (AP‐HP) Paris FranceDigestive Endoscopy and Surgery Unit and Pathology Unit Bambino Gesù Children Hospital IRCCS Rome ItalySickKids Inflammatory Bowel Disease Center and Cell Biology Program Research Institute Hospital for Sick Children Toronto ON CanadaSickKids Inflammatory Bowel Disease Center and Cell Biology Program Research Institute Hospital for Sick Children Toronto ON CanadaSickKids Inflammatory Bowel Disease Center and Cell Biology Program Research Institute Hospital for Sick Children Toronto ON CanadaINSERM, UMR1163 Laboratory of Intestinal Immunity and Institut Imagine Paris FranceSickKids Inflammatory Bowel Disease Center and Cell Biology Program Research Institute Hospital for Sick Children Toronto ON CanadaINSERM, UMR1163 Laboratory of Intestinal Immunity and Institut Imagine Paris FranceAbstract Herein, we report the first identification of biallelic‐inherited mutations in ALPI as a Mendelian cause of inflammatory bowel disease in two unrelated patients. ALPI encodes for intestinal phosphatase alkaline, a brush border metalloenzyme that hydrolyses phosphate from the lipid A moiety of lipopolysaccharides and thereby drastically reduces Toll‐like receptor 4 agonist activity. Prediction tools and structural modelling indicate that all mutations affect critical residues or inter‐subunit interactions, and heterologous expression in HEK293T cells demonstrated that all ALPI mutations were loss of function. ALPI mutations impaired either stability or catalytic activity of ALPI and rendered it unable to detoxify lipopolysaccharide‐dependent signalling. Furthermore, ALPI expression was reduced in patients’ biopsies, and ALPI activity was undetectable in ALPI‐deficient patient's stool. Our findings highlight the crucial role of ALPI in regulating host–microbiota interactions and restraining host inflammatory responses. These results indicate that ALPI mutations should be included in screening for monogenic causes of inflammatory bowel diseases and lay the groundwork for ALPI‐based treatments in intestinal inflammatory disorders.https://doi.org/10.15252/emmm.201708483inflammatory bowel diseasesintestinal phosphatase alkalinemonogenic disease

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