Girls homozygous for an IL-2–inducible T cell kinase mutation that leads to protein deficiency develop fatal EBV-associated lymphoproliferation
Kirsten Huck, … , Hassan Jumaa, Arndt Borkhardt
Kirsten Huck, … , Hassan Jumaa, Arndt Borkhardt
Published April 1, 2009
Citation Information: J Clin Invest. 2009;119(5):1350-1358. https://doi.org/10.1172/JCI37901.
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Research Article Immunology

Girls homozygous for an IL-2–inducible T cell kinase mutation that leads to protein deficiency develop fatal EBV-associated lymphoproliferation

Abstract

The fatal immune dysregulation that sometimes follows EBV infection in boys has been linked to mutations in two X chromosome–encoded genes, SLAM-associated protein (SAP) and X-linked inhibitor of apoptosis (XIAP). In this study we describe 2 girls from a consanguineous Turkish family who died after developing severe immune dysregulation and therapy-resistant EBV-positive B cell proliferation following EBV infection. SNP array–based genome-wide linkage analysis revealed IL-2–inducible T cell kinase (ITK) as a candidate gene for this immunodeficiency syndrome. Both girls harbored a homozygous missense mutation that led to substitution of a highly conserved residue (R335W) in the SH2 domain of ITK. Characteristics of ITK deficiency in mouse models, such as absence of NKT cells and high levels of eomesodermin in CD8+ cells, were seen in either one or both of the girls. Two lines of evidence suggested that R335W caused instability of the ITK protein. First, in silico modeling of the mutant protein predicted destabilization of the SH2 domain. Additionally, Western blot analysis revealed that, unlike wild-type ITK, the R335W mutant was nearly undetectable when expressed in 293 T cells. Our results suggest that ITK deficiency causes what we believe to be a novel immunodeficiency syndrome that leads to a fatal inadequate immune response to EBV. Because ITK deficiency resembles EBV-associated lymphoproliferative disorders in boys, we suggest that this molecular cause should be considered during diagnosis and treatment.

Authors

Kirsten Huck, Oliver Feyen, Tim Niehues, Franz Rüschendorf, Norbert Hübner, Hans-Jürgen Laws, Tanja Telieps, Stefan Knapp, Hans-Heinrich Wacker, Alfons Meindl, Hassan Jumaa, Arndt Borkhardt

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Figure 1

Lymph node histology and NKT cells in patients 1 and 2.

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Lymph node histology and NKT cells in patients 1 and 2. (A) Immuno­histo...
(A) Immuno­histochemical staining of CD20 antigen in an axillary lymph node of patient 1 with hyperimmune reaction and medium-sized blast reacting with CD20. Hodgkin-like cells were not detected (alkaline phosphatase anti–alkaline-phosphatase reaction; hematoxilin). Original magnification, ×200. (B) Immunohistochemical staining of CD20 antigen in an inguinal lymph node biopsy of patient 2 with positivity in Hodgkin- and Sternberg-Reed–like cells (avidin-biotin complex staining; hematoxilin). Original magnification, ×100. (C) Staining of the same lymph node specimen from patient 1 with an intracellular polyclonal antibody gave only very weak signals. Original magnification, ×500. (D) In contrast, a strong ITK expression was observed in control lymph node tissue. Original magnification, ×500. (E and F) Measurement of NKT cells by FACS. After gating on CD3+ T cells, NKT cells were determined as TCR Vβ11 and TCR Vα24 double-positive cells. In patient 2 (E) NKT cells were virtually absent, whereas the percentage of NKT cells was 0.35% in the healthy control subject (F).