IKAROS regulates human T cell phenotype at a thymic and postthymic level
Jennifer Stoddard, Hye Sun Kuehn, Ravichandra Tagirasa, Marita Bosticardo, Francesca Pala, Julie E. Niemela, Agustin A. Gil Silva, Kayla Amini, Eduardo Anaya, Mario Framil Seoane, Carolina Bouso, Dimana Dimitrova, Jennifer A. Kanakry, Laia Alsina, Matias Oleastro, Steven M. Holland, Thomas A. Fleisher, Richard L. Wasserman, Luigi D. Notarangelo, Sergio D. Rosenzweig
Jennifer Stoddard, Hye Sun Kuehn, Ravichandra Tagirasa, Marita Bosticardo, Francesca Pala, Julie E. Niemela, Agustin A. Gil Silva, Kayla Amini, Eduardo Anaya, Mario Framil Seoane, Carolina Bouso, Dimana Dimitrova, Jennifer A. Kanakry, Laia Alsina, Matias Oleastro, Steven M. Holland, Thomas A. Fleisher, Richard L. Wasserman, Luigi D. Notarangelo, Sergio D. Rosenzweig
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Research Article Cell biology Genetics Immunology

IKAROS regulates human T cell phenotype at a thymic and postthymic level

Abstract

The transcription factor IKAROS, encoded by IKZF1, is crucial for lymphocyte development and differentiation. Germline heterozygous IKZF1 mutations cause B cell immunodeficiency, but also affect T cells. Patients with IKZF1 haploinsufficiency (HI) or dimerization-defective (DD) variants show reduced naive and increased memory T cells, while dominant-negative (DN) mutations result in the opposite phenotype. Gain-of-function patients display variable patterns. To investigate IKAROS’s role in shaping the human naive/memory T cell phenotype, we performed IKAROS immunomodulation and knockdown experiments and analyzed early T cell development in an artificial thymic organoid (ATO) system using CD34+ cells from patients with representative IKZF1 variants. IKAROS inhibition by lenalidomide or silencing by small hairpin RNA directly altered expression of HNRNPLL, the master regulator of CD45 isoform splicing that defines CD45RA+/naive and CD45RO+/memory phenotypes. In the ATO system, IKAROS-DN precursor cells were blocked at the CD4–CD8–/double-negative stage and retained a CD45RA+ phenotype, whereas IKAROS-HI cells inefficiently reached the CD4+CD8+/double-positive stage and partially transitioned from CD45RA to CD45RO. Analysis of public gene expression data showed high HNRNPLL expression in double-positive thymic cells, beyond the stages affected by IKZF1 DN and HI mutations. Collectively, these findings indicate that IKAROS regulates early and late T cell development by mechanisms, including HNRNPLL modulation.

Authors

Jennifer Stoddard, Hye Sun Kuehn, Ravichandra Tagirasa, Marita Bosticardo, Francesca Pala, Julie E. Niemela, Agustin A. Gil Silva, Kayla Amini, Eduardo Anaya, Mario Framil Seoane, Carolina Bouso, Dimana Dimitrova, Jennifer A. Kanakry, Laia Alsina, Matias Oleastro, Steven M. Holland, Thomas A. Fleisher, Richard L. Wasserman, Luigi D. Notarangelo, Sergio D. Rosenzweig

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Figure 4

Mutations in IKZF1 lead to altered T cell development in the thymus.

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Mutations in IKZF1 lead to altered T cell development in the thymus. (A)...
(A) Representative flow cytometry analysis of T cell differentiation in a healthy donor (HC), a IKZF1 DN patient (N159S), and a IKZF1 HI patient (N159K) after 6 weeks of culture in the ATO system (n = 1). Cells were gated on live/deadCD45+CD56 cells and stained for CD4, CD8a, CD45RA, and CD45RO. The left column shows the progression of T cell differentiation from CD4CD8 double-negative (CD4CD8, green box), to immature CD4+ (CD4+CD8, turquoise box) to CD4+CD8+ double-positive (CD4+CD8+, orange box) cells in the ATO system. The right column shows CD45RA and CD45RO expression in the same 3 subsets. (B) Bar graph showing the frequency of CD4CD8, CD4+CD8, and CD4+CD8+ cells in ATOs of the HC and patients. (C) Bar graph showing the frequency of CD45RA+CD45RO (brown gate), CD45RAintCD45ROint (yellow gate), and CD45RACD45RO+ (blue gate) cells among CD4CD8, CD4+CD8, and CD4+CD8+ cells in ATOs of the HC and patients. (D and E) Bar graphs showing the mean fluorescence intensity (MFI) of CD45RA (D) and CD45RO (E) expression in CD4CD8, CD4+CD8, and CD4+CD8+ cells from the ATOs of the HC and patients. (F and G) UMAP (F) and dot plot (G) showing the expression level of HNRNPLL in the different cell subsets of the human thymus atlas. The data was obtained from the collection of single-cell datasets available on the UCSC Cell Browser (https://fetal-thymus.cells.ucsc.edu) (33) (H) HNRNPLL MFI values in CD4 cells were normalized to the average of corresponding HC subset (set to 100%), and relative protein expression is displayed. Data are from 3 experiments; N159K patient points reflect the average of 2–3 replicates. Mutation N159S was studied in patient A.I.1; mutation N159K was studied in patients B.I.1 (diamond), B.II.1 (square) and B.II.2 (triangle). Gray boxes represent HC values from 12 individuals. Significance was determined using ordinary 1-way ANOVA (Dunnett’s multiple comparisons test).