Immunodeficiency, auto-inflammation and amylopectinosis in humans with inherited HOIL-1 and LUBAC deficiency

We report the clinical description and molecular dissection of a new fatal human inherited disorder characterized by chronic auto-inflammation, invasive bacterial infections and muscular amylopectinosis. Patients from two kindreds carried biallelic loss-of-expression and loss-of-function mutations in HOIL1, a component the linear ubiquitination chain assembly complex (LUBAC). These mutations resulted in impairment of LUBAC stability. NF-κB activation in response to interleukin-1β (IL-1β) was compromised in the patients’ fibroblasts. By contrast, the patients’ mononuclear leukocytes, particularly monocytes, were hyperresponsive to IL-1β. The consequences of human HOIL-1 and LUBAC deficiencies for IL-1β responses thus differed between cell types, consistent with the unique association of auto-inflammation and immunodeficiency in these patients. These data suggest that LUBAC regulates NF-κB-dependent IL-1β responses differently in different cell types

Human genetic susceptibility to infectious disease : NEMO and NRAMP1 deficiencies

Chaque individu est exposé quotidiennement à des agents infectieux comme les bactéries, les champignons, les virus et les parasites sans pour autant développer une maladie. Cependant, certains vont développer des infections graves et récurrentes, causées par des microbes dont certains ont un faible pouvoir pathogène pour l’homme. Ceci suggère, qu’il existe entre les individus sensibles et résistants une variabilité au niveau du système immunitaire. Deux types de déficits immunitaires primitifs (DIP) de transmission mendélienne ont été décrits. Les DIP dit « classiques » sont monogéniques et prédisposent majoritairement à une susceptibilité infectieuse à large spectre d’agents pathogènes (un gène, plusieurs infections). Les seconds DIP sont également monogéniques mais sont responsables d’une susceptibilité infectieuse réduite à un groupe de pathogènes (un gène, un seul type d’infection). Chez de nombreux, patients, le défaut génétique responsable de DIP n’est pas identifié. Dans ce contexte, l’objectif de recherche de mon doctorat a été de caractériser deux DIP responsables d’une susceptibilité aux infections bactériennes. J’ai tout d’abord mis en évidence un nouveau mécanisme physiopathologique de la protéine NEMO, régulateur de la voie NF-κB, responsable d’un DIP associé à une dysplasie ectodermale anhidrotique (EDA). Ce mécanisme pathologique est caractérisé par une expression et une structure protéique conservées mais confère sélectivement un défaut de liaison de NEMO à l’ubiquitine, interaction essentielle dans l’activation de la voie NF-κB. Ceci démontre qu’une expression et une structure protéique normales n'excluent en rien un rôle pathologique de mutations dans le gène NEMO, dans un EDA-DIP. Dans un deuxième temps, j’ai mis en évidence un nouveau DIP affectant la voie de l’explosion oxydative spécifiquement dans les polymorphonucléaires et qui confère une susceptibilité sélective aux infections bactériennes de type pyogènes. Le patient étudié est né de parents consanguins et a présenté des infections récurrentes des voies respiratoires supérieures ainsi qu’une cellulite à Staphylococcus epidermidis. Par une approche génétique associant analyse de liaison et séquençage de l'exome, une mutation homozygote rare a été identifiée dans le gène codant NRAMP1. Cette mutation co-ségrège avec la maladie selon un mode de transmission autosomique récessif et altère spécifiquement l’expression de la protéine dans les granulocytes. Ce premier déficit en NRAMP1 décrit chez l’homme, compromet à la fois la voie de l’explosion oxydative et le contrôle de l’infection in vitro par Staphylococcus aureus dans les granulocytes. Cette étude implique NRAMP1 dans l'immunité contre les bactéries pyogènes via son rôle dans la production des espèces réactives de l’oxygène dans les granulocytes. Ce travail ouvre la voie vers un meilleur diagnostique et conseil génétique pour les patients souffrant de PID.Human populations are exposed to infectious agents such as bacteria, fungi, viruses and parasites on a daily basis without developing any disease. However, a minority of individuals will suffer from infections to some microbes that are usually non-pathogenic to man, or will undergo severe and/or recurrent diseases usually easily treatable for others. This means that there is variability among individuals regarding their immune system, underlined by genetics between susceptible and resistant individuals. Two types of primary immuno deficiencies with a Mendelian mode of inheritance have been described. The first known as the classical primary immunodeficiency and is monogenic and predisposes in general to infections with a broad spectrum of infectious agents (one gene, multiple infections). The second type is also monogenic but predisposes generally to infections limited to a particular group of pathogens (one gene, one type of infection). The aim of my doctoral research was to characterize two new immunodeficiencies. First I highlighted a new physiopathological mechanism of the NEMO protein, a regulator of NF-κB pathway. This defect is characterized by normal protein expression and folding, but a specific defect of NEMO’s ubiquitin binding, which is an essential mechanism for the activation and regulation of the NF-κB pathway. This demonstrates that normal expression and structure of the protein do not exclude a pathological role of NEMO mutations in EDA-ID. I also described a new immune deficiency affecting the respiratory burst pathway in granulocytes which specifically confers a selective susceptibility to pyogenic bacterial infections. We studied a patient who was born from consanguineous parents, and who suffered from recurrent infections of the upper respiratory tract and cellulitis to S. epidermidis. By a genetic approach involving linkage analysis and exome sequencing, I identified a rare homozygous mutation (V484M) in the gene encoding for the NRAMP1 protein that co segregates with the disease with an autosomal recessive transmission. Specifically, this mutation impairs NRAMP1 protein expression in granulocytes, while expression remains normal in other phagocytic cells. NRAMP1 deficiency impairs both the respiratory burst and control of in vitro infection by S. aureus in granulocytes. Therefore, we identified the first NRAMP1 human deficiency. The mutation selectively affects granulocytes and is clinically responsible for pyogenic infections. This study helps to delineate the role of NRAMP1 in immunity against pyogenic bacteria through its involvement in reactive oxygen species production in granulocytes

Susceptibilité mendélienne aux maladies infectieuses chez l'homme (déficits en NEMO et NRAMP1)

Chaque individu est exposé quotidiennement à des agents infectieux comme les bactéries, les champignons, les virus et les parasites sans pour autant développer une maladie. Cependant, certains vont développer des infections graves et récurrentes, causées par des microbes dont certains ont un faible pouvoir pathogène pour l homme. Ceci suggère, qu il existe entre les individus sensibles et résistants une variabilité au niveau du système immunitaire. Deux types de déficits immunitaires primitifs (DIP) de transmission mendélienne ont été décrits. Les DIP dit classiques sont monogéniques et prédisposent majoritairement à une susceptibilité infectieuse à large spectre d agents pathogènes (un gène, plusieurs infections). Les seconds DIP sont également monogéniques mais sont responsables d une susceptibilité infectieuse réduite à un groupe de pathogènes (un gène, un seul type d infection). Chez de nombreux, patients, le défaut génétique responsable de DIP n est pas identifié. Dans ce contexte, l objectif de recherche de mon doctorat a été de caractériser deux DIP responsables d une susceptibilité aux infections bactériennes. J ai tout d abord mis en évidence un nouveau mécanisme physiopathologique de la protéine NEMO, régulateur de la voie NF- B, responsable d un DIP associé à une dysplasie ectodermale anhidrotique (EDA). Ce mécanisme pathologique est caractérisé par une expression et une structure protéique conservées mais confère sélectivement un défaut de liaison de NEMO à l ubiquitine, interaction essentielle dans l activation de la voie NF- B. Ceci démontre qu une expression et une structure protéique normales n'excluent en rien un rôle pathologique de mutations dans le gène NEMO, dans un EDA-DIP. Dans un deuxième temps, j ai mis en évidence un nouveau DIP affectant la voie de l explosion oxydative spécifiquement dans les polymorphonucléaires et qui confère une susceptibilité sélective aux infections bactériennes de type pyogènes. Le patient étudié est né de parents consanguins et a présenté des infections récurrentes des voies respiratoires supérieures ainsi qu une cellulite à Staphylococcus epidermidis. Par une approche génétique associant analyse de liaison et séquençage de l'exome, une mutation homozygote rare a été identifiée dans le gène codant NRAMP1. Cette mutation co-ségrège avec la maladie selon un mode de transmission autosomique récessif et altère spécifiquement l expression de la protéine dans les granulocytes. Ce premier déficit en NRAMP1 décrit chez l homme, compromet à la fois la voie de l explosion oxydative et le contrôle de l infection in vitro par Staphylococcus aureus dans les granulocytes. Cette étude implique NRAMP1 dans l'immunité contre les bactéries pyogènes via son rôle dans la production des espèces réactives de l oxygène dans les granulocytes. Ce travail ouvre la voie vers un meilleur diagnostique et conseil génétique pour les patients souffrant de PID.Human populations are exposed to infectious agents such as bacteria, fungi, viruses and parasites on a daily basis without developing any disease. However, a minority of individuals will suffer from infections to some microbes that are usually non-pathogenic to man, or will undergo severe and/or recurrent diseases usually easily treatable for others. This means that there is variability among individuals regarding their immune system, underlined by genetics between susceptible and resistant individuals. Two types of primary immuno deficiencies with a Mendelian mode of inheritance have been described. The first known as the classical primary immunodeficiency and is monogenic and predisposes in general to infections with a broad spectrum of infectious agents (one gene, multiple infections). The second type is also monogenic but predisposes generally to infections limited to a particular group of pathogens (one gene, one type of infection). The aim of my doctoral research was to characterize two new immunodeficiencies. First I highlighted a new physiopathological mechanism of the NEMO protein, a regulator of NF- B pathway. This defect is characterized by normal protein expression and folding, but a specific defect of NEMO s ubiquitin binding, which is an essential mechanism for the activation and regulation of the NF- B pathway. This demonstrates that normal expression and structure of the protein do not exclude a pathological role of NEMO mutations in EDA-ID. I also described a new immune deficiency affecting the respiratory burst pathway in granulocytes which specifically confers a selective susceptibility to pyogenic bacterial infections. We studied a patient who was born from consanguineous parents, and who suffered from recurrent infections of the upper respiratory tract and cellulitis to S. epidermidis. By a genetic approach involving linkage analysis and exome sequencing, I identified a rare homozygous mutation (V484M) in the gene encoding for the NRAMP1 protein that co segregates with the disease with an autosomal recessive transmission. Specifically, this mutation impairs NRAMP1 protein expression in granulocytes, while expression remains normal in other phagocytic cells. NRAMP1 deficiency impairs both the respiratory burst and control of in vitro infection by S. aureus in granulocytes. Therefore, we identified the first NRAMP1 human deficiency. The mutation selectively affects granulocytes and is clinically responsible for pyogenic infections. This study helps to delineate the role of NRAMP1 in immunity against pyogenic bacteria through its involvement in reactive oxygen species production in granulocytes.PARIS5-Bibliotheque electronique (751069902) / SudocSudocFranceF

Phagocyte nicotinamide adenine dinucleotide phosphate oxidase activity in patients with inherited IFN-gammaR1 or IFN-gammaR2 deficiency

An understanding of protective immunity to mycobacterial infection is critical for the development of effective strategies to control tuberculosis (TB), a major public health problem worldwide. Mendelian susceptibility to mycobacterial disease (MSMD) is a rare condition characterized by clinical disease caused by weakly virulent mycobacteria, such as Mycobacterium bovis Bacille Calmette-Guérin (BCG) vaccines and nontuberculous, environmental mycobacteria (EM) (OMIM209950). ... We therefore tested the hypothesis that the function of the NADPH oxidase complex might be partly dependent on IFN-γ, at least in human MDMs in vitro

New mechanism of X-linked anhidrotic ectodermal dysplasia with immunodeficiency: impairment of ubiquitin binding despite normal folding of NEMO protein

International audienceNuclear factor-κB essential modulator (NEMO), the regulatory subunit of the IκB kinase complex, is a critical component of the NF-κB pathway. Hypomorphic mutations in the X-linked human NEMO gene cause various forms of anhidrotic ectodermal dysplasia with immunodeficiency (EDA-ID). All known X-linked EDA-ID–causing mutations impair NEMO protein expression, folding, or both. We describe here 2 EDA-ID–causing missense mutations that affect the same residue in the CC2-LZ domain (D311N and D311G) that do not impair NEMO production or folding. Structural studies based on pull-down experiments showed a defect in noncovalent interaction with K63-linked and linear polyubiquitin chains for these mutant proteins. Functional studies on the patients' cells showed an impairment of the classic NF-κB signaling pathways after activation of 2 NEMO ubiquitin-binding–dependent receptors, the TNF and IL-1β receptors, and in the CD40-dependent NF-κB pathway. We report the first human NEMO mutations responsible for X-linked EDA-ID found to affect the polyubiquitin binding of NEMO rather than its expression and folding. These experiments demonstrate that the binding of human NEMO to polyubiquitin is essential for NF-κB activation. They also demonstrate that the normal expression and folding of NEMO do not exclude a pathogenic role for NEMO mutations in patients with EDA-ID

Immunodeficiency, autoinflammation and amylopectinosis in humans with inherited HOIL-1 and LUBAC deficiency

International audienceWe report the clinical description and molecular dissection of a new fatal human inherited disorder characterized by chronic autoinflammation, invasive bacterial infections and muscular amylopectinosis. Patients from two kindreds carried biallelic loss-of-expression and loss-of-function mutations in HOIL1 (RBCK1), a component of the linear ubiquitination chain assembly complex (LUBAC). These mutations resulted in impairment of LUBAC stability. NF-κB activation in response to interleukin 1β (IL-1β) was compromised in the patients' fibroblasts. By contrast, the patients' mononuclear leukocytes, particularly monocytes, were hyper-responsive to IL-1β. The consequences of human HOIL-1 and LUBAC deficiencies for IL-1β responses thus differed between cell types, consistent with the unique association of autoinflammation and immunodeficiency in these patients. These data suggest that LUBAC regulates NF-κB–dependent IL-1β responses differently in different cell types

Germline CYBB mutations that selectively affect macrophages in kindreds with X-linked predisposition to tuberculous mycobacterial disease

Germline mutations in CYBB, the human gene encoding the gp91(phox) subunit of the phagocyte NADPH oxidase, impair the respiratory burst of all types of phagocytes and result in X-linked chronic granulomatous disease (CGD). We report here two kindreds in which otherwise healthy male adults developed X-linked recessive Mendelian susceptibility to mycobacterial disease (MSMD) syndromes. These patients had previously unknown mutations in CYBB that resulted in an impaired respiratory burst in monocyte-derived macrophages but not in monocytes or granulocytes. The macrophage-specific functional consequences of the germline mutation resulted from cell-specific impairment in the assembly of the NADPH oxidase. This \u27experiment of nature\u27 indicates that CYBB is associated with MSMD and demonstrates that the respiratory burst in human macrophages is a crucial mechanism for protective immunity to tuberculous mycobacteria

IRF8 Mutations and Human Dendritic-Cell Immunodeficiency

BACKGROUND The genetic analysis of human primary immunodeficiencies has defined the contribution of specific cell populations and molecular pathways in the host defense against infection. Disseminated infection caused by bacille Calmette-Guerin (BCG) vaccines is an early manifestation of primary immunodeficiencies, such as severe combined immunodeficiency. In many affected persons, the cause of disseminated BCG disease is unexplained. METHODS We evaluated an infant presenting with features of severe immunodeficiency, including early-onset disseminated BCG disease, who required hematopoietic stem-cell transplantation. We also studied two otherwise healthy subjects with a history of disseminated but curable BCG disease in childhood. We characterized the monocyte and dendritic-cell compartments in these three subjects and sequenced candidate genes in which mutations could plausibly confer susceptibility to BCG disease. RESULTS We detected two distinct disease-causing mutations affecting interferon regulatory factor 8 (IRF8). Both K108E and T80A mutations impair IRF8 transcriptional activity by disrupting the interaction between IRF8 and DNA. The K108E variant was associated with an autosomal recessive severe immunodeficiency with a complete lack of circulating monocytes and dendritic cells. The T80A variant was associated with an autosomal dominant, milder immunodeficiency and a selective depletion of CD11c+CD1c+ circulating dendritic cells. CONCLUSIONS These findings define a class of human primary immunodeficiencies that affect the differentiation of mononuclear phagocytes. They also show that human IRF8 is critical for the development of monocytes and dendritic cells and for antimycobacterial immunity. (Funded by the Medical Research Council and others.)Medical Research Council[G0701897]Medical Research Council[G0800358]Medical Research Council[G0900867]National Institutes of Health (NIH)[AI035237]National Institutes of Health (NIH)[AI089970]Canadian Institutes of Health Research[MOP106424]Agence Nationale de la Recherche (ANR)St. Giles FoundationJeffrey Modell FoundationTalecris BiotherapeuticsRockefeller University Center for Clinical and Translational Science[5UL1RR024143-03]European Union[HOMITB-CEE E08153KK]European Union[NEOTIM 018736]March of Dimes[RO5050KK]Wellcome Trust[WT088555MA]Leukaemia and Lymphoma Research Fund[LRF060169]Arthritis Research UK Chair in Inflammation BiologyMedical Research CouncilEuropean Research Council[ERC 2010-StG 261299]Fundacao Calouste GulbenkianFundacao ChampalimaudMinisterio da Saude e Fundacao para a Ciencia e Tecnologia, Portuga