Severe Autoinflammatory Manifestations and Antibody Deficiency Due to Novel Hypermorphic PLCG2 Mutations
Martín-Nalda, A.; Fortuny, C.; Rey Cordo, Carmen Lourdes; Bunney, T. D.; Alsina, L.; Esteve-Solé, A.; Bull, D.; Anton, M. C.; Basagaña, M.; Casals, F.; Deyá, A.; García-Prat, M.; Gimeno, R.; Juan, M.; Martinez-Banaclocha, H.; Martinez-Garcia, J. J.; Mensa-Vilaró, A.; Rabionet, R.; Martin-Begue, N.; Rudilla, F.; Yagüe, J.; Estivill, X.; García-Patos, V.; Pujol, R. M.; Soler-Palacín, P.; Katan, M.; Pelegrín, P.; Colobran, R.; Vicente, A.; Arostegui, J. I.
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Identificadores
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Fecha de publicación
2020Título de revista
JOURNAL OF CLINICAL IMMUNOLOGY
Tipo de contenido
Journal Article
DeCS
fenotipo | análisis de mutaciones del ADN | citocinas | caspasa 1 | predisposición genética a la enfermedad | agammaglobulinemia | estudios de asociación genética | autoinmunidad | fosfolipasa C gamma | humanos | relación estructura-actividad | linaje | enfermedades autoinflamatorias hereditarias | inflamasomas | adolescenteMeSH
Cytokines | Inflammasomes | Phospholipase C gamma | Adolescent | Pedigree | Phenotype | Genetic Predisposition to Disease | Autoimmunity | DNA Mutational Analysis | Humans | Genetic Association Studies | Agammaglobulinemia | Structure-Activity Relationship | Caspase 1 | Hereditary Autoinflammatory DiseasesResumen
Autoinflammatory diseases (AIDs) were first described as clinical disorders characterized by recurrent episodes of seemingly unprovoked sterile inflammation. In the past few years, the identification of novel AIDs expanded their phenotypes toward more complex clinical pictures associating vasculopathy, autoimmunity, or immunodeficiency. Herein, we describe two unrelated patients suffering since the neonatal period from a complex disease mainly characterized by severe sterile inflammation, recurrent bacterial infections, and marked humoral immunodeficiency. Whole-exome sequencing detected a novel, de novo heterozygous PLCG2 variant in each patient (p.Ala708Pro and p.Leu845_Leu848del). A clear enhanced PLCgamma2 activity for both variants was demonstrated by both ex vivo calcium responses of the patient's B cells to IgM stimulation and in vitro assessment of PLC activity. These data supported the autoinflammation and PLCgamma2-associated antibody deficiency and immune dysregulation (APLAID) diagnosis in both patients. Immunological evaluation revealed a severe decrease of immunoglobulins and B cells, especially class-switched memory B cells, with normal T and NK cell counts. Analysis of bone marrow of one patient revealed a reduced immature B cell fraction compared with controls. Additional investigations showed that both PLCG2 variants activate the NLRP3-inflammasome through the alternative pathway instead of the canonical pathway. Collectively, the evidences here shown expand APLAID diversity toward more severe phenotypes than previously reported including dominantly inherited agammaglobulinemia, add novel data about its genetic basis, and implicate the alternative NLRP3-inflammasome activation pathway in the basis of sterile inflammation.