Fatal combined immunodeficiency associated with heterozygous mutation in STAT1 - 01/03/14
Abstract |
Background |
Mutations in the gene for the signal transducer and activator of transcription 1, STAT1, have been shown to be associated with death at an early age due to overwhelming viral infection (complete STAT1 deficiency) or, more commonly, selective deficiencies to mycobacterial or fungal infection (typically heterozygous STAT1 mutations).
Objectives |
To define the molecular basis of progressive combined immunodeficiency in a group of patients with fatal infections.
Methods |
We studied a group of unrelated patients who displayed an unusual progressive form of combined immunodeficiency. Whole exome sequencing assisted in confirming a common genetic defect in this group, which consisted of a heterozygous mutation of the STAT1 gene. STAT1 protein level as well as function was assessed, and a detailed evaluation of the immune system, including analysis of thymus tissue, was performed.
Results |
Patients were found to carry de novo heterozygous mutations in STAT1 encoding T385A, I294T, or C284R amino acid substitutions. STAT1 expression appeared significantly decreased as a result of these changes but not completely absent, with diminished signaling responses. This group display progressive loss in lymphocyte number and function accompanied by increasing autoimmune features as well as severe, fatal infections.
Conclusions |
These findings show that some heterozygous aberrations of STAT1 can be associated with progressive combined immunodeficiency, quite distinct from the limited susceptibilities to infection previously reported for heterozygous STAT1 mutations. These mutations were not inherited, rather, arose de novo in each case. Accompanied by significant patient mortality, this finding suggests that this class of STAT1 mutation is ultimately fatal due to overwhelming infection.
Le texte complet de cet article est disponible en PDF.Key words : Combined immunodeficiency, STAT1, mutation
Abbreviations used : BCG, BSA, CMCC, CMV, DNA, EBV, ELISA, FOXP3, IFN, IL, JC, mRNA, NK, PAGE, PBL, PBMC, PBS, PHA, STAT1
Plan
| This work was supported by Immunodeficiency Canada Distinguished professor in Immunology, the Canadian Center for Primary Immunodeficiency, the Program for Immunogenomics, and the Jeffrey Modell Foundation; and the Centre for Applied Genomics at the Hospital for Sick Children was supported by Genome Canada through the Ontario Genomics Institute, Canada Foundation for Innovation, and the Ontario Ministry of Research and Innovation. |
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| Disclosure of potential conflict of interest: S.L. Pereira has received support from Genome Canada for his salary. J.-A. Herbrick has received research support from Genome Canada. The rest of the authors declare that they have no relevant conflicts of interest. |
Vol 133 - N° 3
P. 807-817 - mars 2014 Retour au numéro
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