Correlações da expressão de MHC-I e II, C5b-9 e fenotipagem de células inflamatórias em tecido muscular na dermatomiosite juvenil (DMJ) / Correlations of the expression of MHC-I and II, C5b-9 and inflammatory cells phenotyping in juvenile dermatomyositis (JDM)

Adriana Maluf Elias Sallum

23 August 2005

A presença de uma inflamação crônica no músculo, a associação com outras doenças e a presença de auto-anticorpos, sugere o envolvimento de um mecanismo autoimune na patogênese da DMJ. Trinta e sete fragmentos musculares de pacientes com o diagnóstico de DMJ foram estudados com o objetivo de avaliar a expressão de MHC classes I e II, C5b-9 e fenotipagem das células inflamatórias CD4, CD8, CD20 e CD68 em tecido muscular e correlacionar com os principais parâmetros clínicos, laboratoriais, histológicos e terapêuticos desta doença. Os achados foram comparados à expressão em oito fragmentos musculares de pacientes com polimiosite (PM), cinco de dermatomiosite (DM) e quatro de distrofia. As expressões de MHC-I, MHC-II e C5b-9 foram identificadas por imunohistoquímica, através da técnica de imunoperoxidase StreptABComplex/HRP; as células CD20 e CD68, pelo sistema LSAB+ e CD4 e CD8, pela técnica EnVision-AP. A expressão de MHC-I apresentou positividade em 97,2% dos casos, enquanto que a expressão de MHC-II foi observada em apenas 21,6% dos casos. C5b-9 (83,8% de positividade), correlacionou-se com a presença de calcinose e envolvimento cardíaco. A presença de linfócitos CD4 (81,1% de positividade), CD8 (86,5% de positividade) e CD20 (62,2 % de positividade), e CD68 (97,2% de positividade) correlacionaram-se com o grau de inflamação observada na histologia muscular. A presença de CD4 e CD68, e marcação de C5b-9 também se correlacionaram com a intensidade de fraqueza muscular, e laboratorialmente, CD4 correlacionou-se com níveis elevados de CK e CD20 com DHL. Na DMJ observou-se maior expressão de C5b-9, CD4 e CD8 e menor expressão de MHC-I e II em comparação à DM e PM. A expressão destes marcadores foi sempre menor na distrofia. A expressão de MHC-I, adjuvante ao envolvimento dos linfócitos CD4 e CD8, sugere um mecanismo inicial celular citotóxico relacionado a maior gravidade do envolvimento muscular. A concomitância da maior expressão de C5b-9 foi um fator preditivo de comprometimento sistêmico e demanda de terapêutica imunossupresssora. Os resultados deste estudo apontam para o papel do MHC-I e II, C5b-9, CD4, CD8, CD20 e CD68 na patogênese da DMJ / The presence of chronic muscle inflammation, in association with other diseases and seric autoantibodies in JDM patients, suggest the involvement of an autoimmune mechanism in the pathogenesis of this inflammatory myopathy. Thirty seven muscle biopsy specimens from patients with JDM were analyzed in order to assess the expression of MHC-I and II, C5b-9, CD4, CD8, CD20 and CD68 and to correlate with the clinical, laboratorial, histological and therapeutical parameters. These findings were compared to the expression in five dermatomyositis (DM), eight polymyositis (PM) and four dystrophy cases. Immunohistochemical reactions for MHC-I and II and C5b-9 (StreptABCcomplex/HRP), CD4, CD8 (EnVision-AP) and CD20, CD68 (LSAB+) were evaluated. MHC-I expression was positive in 97.2% of the cases, whilst MHC-II was positive in only 21.6% of the cases. C5b-9 expression (positivity of 83.8%) correlated with calcinosis and cardiac involvement. The presence of lymphocytes CD4 (positivity of 81.1%), CD8 (positivity of 86.5%), CD20 (positivity of 62.2%), and CD68 (positivity of 97.2%) correlated with inflammation in muscular histology. The presence of CD4 and CD8 and expression of C5b-9 also correlated with the severity of muscle weakness, and CD4 expression correlated with serum levels of CK and CD20 with LDH. In JDM, the expressions of C5b-9, CD4 and CD8 were statistically more significant when compared to PM and DM, while expressions of MHC-I and II were lower in JDM. All expressions were lower in dystrophy. MHC-I expression, adjuvant to the presence of CD4 and CD8 lymphocytes, corroborates the involvement of the cytotoxic cellular mechanism of muscular lesion in JDM, which correlates to severity. Concomitantly, C5b-9 expression was a predictive factor of systemic involvement and of the need for imunossupressive treatment. The results of this study indicate for the function of MHC-I and II, C5b-9, CD4, CD8, CD20 e CD68 at JDM pathogenesis

Antígenos CD20

Antígenos CD4

Antígenos CD8

Dermatomiosite

Macrófagos

Músculos

Antigens CD20

Antigens CD4

Antigens CD8

Complement membrane attack complex

Dermatomyositis

Genes MHC Class I

Genes MHC Class II

Macrophages

Muscles

Clinical and molecular characterisation of type I interferonopathies / Caractérisation clinique et moléculaire des interféronopathies de type I

Melki, Isabelle

29 November 2017

Les interférons de type I (IFN I) sont des cytokines antivirales aux propriétés puissantes. L’induction, la transmission et la résolution de la réponse immunitaire engendrée par les IFN I est minutieusement régulée. Le concept d’interféronopathie de type I, récemment individualisé par notre équipe, repose sur l’hypothèse que certaines pathologies seraient secondaires au déséquilibre de ces voies de signalisation complexes et à la sécrétion excessive et inappropriée d’IFN I. L’inhibition de celle-ci par des thérapeutiques ciblées permettrait de valider cette hypothèse, si les symptômes allégués s’amélioraient, voire disparaissaient. Ce travail de thèse s’est initialement concentré sur la caractérisation clinique et biologique des interféronopathies monogéniques et polygéniques, et secondairement sur l’identification moléculaire de nouvelles mutations du gène TMEM173 à l’origine de l’interféronopathie liée à STING, également appelée SAVI (STING associated vasculopathy with onset in infancy), syndrome auto-inflammatoire associant une atteinte sévère cutanée et pulmonaire. De nouvelles techniques ont permis la sélection de patients présentant une augmentation de l’IFN I en comparaison à des contrôles sains : la signature IFN I, qPCR de 6 gènes stimulés par l’IFN (IFN stimulated genes – ISGs) et le dosage d’IFN alpha sérique ou plasmatique par méthode du SIMOA (single molecule array) permettant la détection de molécules d’IFN de l’ordre du femtogramme (10-18g). Ces méthodes nous ont ainsi permis d’élargir le spectre clinique phénotypique des interféronopathies de type I, initialement considéré comme essentiellement neurologique. Les patients atteints du syndrome d’Aicardi-Goutières, première interféronopathie monogénique décrite, présentaient les signes suivants : dystonie, spasticité, décalage des acquisitions, calcifications intra-cérébrales et anomalies de la substance blanche. Cependant, l’utilisation systématique de nos méthodes de criblage associée à l’avènement des technologies de séquençage à haut débit (next generation sequencing – NGS) a permis de révéler un phénotype plus large, caractéristique des interféronopathies de type I : sur le plan cutané (engelures, vascularite nécrosante des extrémités, sclérodermie), pulmonaire (pneumopathie interstitielle isolée ou non), musculo-squelettique (arthralgies, arthrites, arthropathie de Jaccoud, myalgies et myosites), ophtalmologique (glaucome), néphrologique (néphropathies lupiques), gastro-entérologique (maladies inflammatoires chroniques intestinales précoces), associées à de l’auto-immunité ou un déficit immunitaire inconstants. Notre méthode de sélection nous a notamment permis d’identifier des patients présentant de manière variable des signes cardinaux de SAVI et une de trois nouvelles mutations activatrices dans une région spécifique du gène TMEM173 (codant pour STING). Ces mutations circonscrivent une région de la protéine à ce jour encore jamais impliquée dans le contrôle de la voie de l’IFN I. STING est une protéine du réticulum endoplasmique qui agit comme adaptateur cytosolique de senseurs intracellulaires d’ADN viral dans une voie de signalisation de l’IFN I. STING active TBK1 (TANK-binding kinase) et permet la transcription des IFN I par la phosphorylation d’IRF3. La Janus Kinase 1 (JAK1) et la tyrosine kinase 2 (TYK2) sont activées suite à la stimulation des récepteurs de l’IFN I et phosphorylent les facteurs de transcription STAT1 et STAT2, conduisant à l’expression de nombreux ISGs. Les analyses génétiques, de conformation tridimensionnelle, sur un modèle cellulaire in vitro (HEK293T) et ex vivo sur cellules mononuclées périphériques des patients nous ont ainsi permis de mettre en évidence pour ces mutations un caractère constitutionnellement activé, indépendant de la liaison au ligand cGAMP, mais transmettant ce signal à travers la voie d’aval par TBK1. (...) / Type I interferons (IFN I) are antiviral cytokines with potent properties. Hence, the induction, transmission and resolution of the immune response generated by IFN I is tightly regulated. The concept of the type I interferonopathies, recently formulated by our team, rests on the assumption that some diseases arise from a disturbance of this complex signalling pathway, leading to excessive and inappropriate IFN I secretion. On this basis, targeted therapeutics should improve or cure features of such type I interferonopathies, thereby providing a validation of the underlying hypothesis. This PhD project initially focused on the clinical and biological characterisation of monogenic and polygenic interferonopathies, and secondarily on the molecular identification of novel mutations in the gene TMEM173 causing the interferonopathy called STING associated vasculopathy with onset in infancy (SAVI), an auto-inflammatory syndrome with severe cutaneous and pulmonary features. Our selection of patients in comparison to healthy controls was made possible through the use of novel screening tools: IFN signature (qPCR of 6 IFN stimulated genes – ISGs), and measurement of IFN alpha protein levels in serum or plasma (SIMOA-single molecule array - enabling the detection of molecules of IFN in the femtogram [10-18g]) range. In this way, we have been able to expand the phenotypic spectrum of the interferonopathies, which was initially considered as primarily neurological. Patients with Aicardi-Goutières syndrome (AGS), the first described of the monogenic interferonopathies, exhibit dystonia, spasticity, developmental delay, intra-cranial calcifications and white matter abnormalities. However, the systematic use of our interferon screening assays, plus the advent of next-generation sequencing technology, has revealed a much broader set of features relevant to this novel disease grouping – involving the skin (chilblains, necrotising vasculitis, scleroderma), lungs (isolated lung interstitial disease or associated with other signs), musculoskeletal system (joint pain, arthritis, Jaccoud’s arthropathy, muscle pain and myositis), eyes (glaucoma), kidneys (lupus nephritis) and gastro-intestinal tract (early inflammatory bowel disease), as well features of autoimmunity and immunodeficiency. Using our screening assays enabled us to identify three patients variably exhibiting the core features of SAVI, all of whom were found to harbour distinct novel activating mutations in STING. These mutations highlight a protein domain not previously implicated in the control of IFN I signalling. STING is an endoplasmic reticulum protein, acting as a cytosolic adaptor of intracellular sensors of viral DNA in the type I IFN signalling pathway. STING activates TANK-binding kinase (TBK1), allowing transcription of IFN I through phosphorylation of IRF3. Janus kinase 1 (JAK1) and tyrosine kinase 2 (TYK2) are activated following stimulation of the IFN I receptor, leading to phosphorylation of the transcription factors STAT1 and STAT2 and the subsequent induction of a large number of ISGs. Genetic analysis, conformational studies, an in vitro cellular model (HEK293T) and ex vivo experimental data (using patient peripheral blood mononuclear cells - PBMCs) enabled us to confirm the constitutive activating nature of these variants, and show that this activation did not require binding with cGAMP, but was dependent on signalling through TBK1. Ruxolitinib, a JAK1/2 inhibitor, could antagonise this constitutive activation ex vivo. These results indicate a promising therapeutic approach in such patients, and more widely in the monogenic, and perhaps even, polygenic, interferonopathy context.

Interféron de type I

Lupus systémique juvénile

Dermatomyosite juvenile

TMEM173

STING

MDA5

Type I interferon

Autoinflammatory diseases

Autoimmune diseases

Juvenile systemic lupus erythematosus

Juvenile dermatomyositis

TMEM173

STING

MDA5

571.96

Imunogenetické a hormonální predispoziční markery systémových revmatických onemocnění,zejména systémového lupus erythematodu / Immunogenetic and hormonal markers of predisposition to systemic rheumatic diseases particularly systemic lupus erythematosus

Fojtíková, Markéta

January 2011

Fojtikova 2011 INTRODUCTION: Several factors like genetic susceptibility is required for systemic rheumatic diseases development. Immunomodulatory PRL effect supports autoimmunity. AIMS: 1. To detect the immunogenetic background (alleles HLA class I, II and microsatellite polymorphism of the transmembrane part exon 5 of MIC-A gene) of SLE and PsA. 2. To detect PRL serum and synovial fluid with regard to clinical and laboratory RA activity. 3. To find the role of the functional polymorphism -1149G/T SNP PRL of extrapituitary promoter of PRL gene in SLE, RA, PsA, SSc and inflammatory myopathies development. METHODS: Genetic analyses of pateints with SLE (n=156), RA (n=173), PsA (n=100), SSc (n=75), PM (n=47) a DM (n=68) and 123 healthy individuals: PCR-SSP (HLA clase I and II), PCR-fragment analysis (MIC-A) a PCR-RFLP (-1149 G/T SNP PRL). In 29 RA a 26 OA PRL serum and synovial fluid concentrations were detected using immunoradiometric assay. RESULTS: 1. The allele HLA-DRB1*03 (pc=0.008; OR 2.5) and haplotype HLA-DRB1*03-DQB1*0201 (pc <0.001; OR 4.54) were determined as risk immunogenetic markers for SLE in Czech population. In SLE versus controls allele MIC-A5.1 was increased (pc =0.005; OR 1.88). MIC-A5.1 together with HLA-DRB1*03 increases the risk for SLE development, pc <0.000001; OR 9.71....

Imunogenetické a hormonální predispoziční markery systémových revmatických onemocnění,zejména systémového lupus erythematodu / Immunogenetic and hormonal markers of predisposition to systemic rheumatic diseases particularly systemic lupus erythematosus

Fojtíková, Markéta

January 2011

Fojtikova 2011 INTRODUCTION: Several factors like genetic susceptibility is required for systemic rheumatic diseases development. Immunomodulatory PRL effect supports autoimmunity. AIMS: 1. To detect the immunogenetic background (alleles HLA class I, II and microsatellite polymorphism of the transmembrane part exon 5 of MIC-A gene) of SLE and PsA. 2. To detect PRL serum and synovial fluid with regard to clinical and laboratory RA activity. 3. To find the role of the functional polymorphism -1149G/T SNP PRL of extrapituitary promoter of PRL gene in SLE, RA, PsA, SSc and inflammatory myopathies development. METHODS: Genetic analyses of pateints with SLE (n=156), RA (n=173), PsA (n=100), SSc (n=75), PM (n=47) a DM (n=68) and 123 healthy individuals: PCR-SSP (HLA clase I and II), PCR-fragment analysis (MIC-A) a PCR-RFLP (-1149 G/T SNP PRL). In 29 RA a 26 OA PRL serum and synovial fluid concentrations were detected using immunoradiometric assay. RESULTS: 1. The allele HLA-DRB1*03 (pc=0.008; OR 2.5) and haplotype HLA-DRB1*03-DQB1*0201 (pc <0.001; OR 4.54) were determined as risk immunogenetic markers for SLE in Czech population. In SLE versus controls allele MIC-A5.1 was increased (pc =0.005; OR 1.88). MIC-A5.1 together with HLA-DRB1*03 increases the risk for SLE development, pc <0.000001; OR 9.71....