iPSC-based modeling of RAG2 severe combined immunodeficiency reveals multiple T cell developmental arrests

Summary RAG2 severe combined immune deficiency (RAG2-SCID) is a lethal disorder caused by the absence of functional T and B cells due to a differentiation block. Here, we generated induced pluripotent stem cells (iPSCs) from a RAG2-SCID patient to study the nature of the T cell developmental blockade. We observed a strongly reduced capacity to differentiate at every investigated stage of T cell development, from early CD7−CD5− to CD4+CD8+. The impaired differentiation was accompanied by an increase in CD7−CD56+CD33+ natural killer (NK) cell-like cells. T cell receptor D rearrangements were completely absent in RAG2SCID cells, whereas the rare T cell receptor B rearrangements were likely the result of illegitimate rearrangements. Repair of RAG2 restored the capacity to induce T cell receptor rearrangements, normalized T cell development, and corrected the NK cell-like phenotype. In conclusion, we succeeded in generating an iPSC-based RAG2-SCID model, which enabled the identification of previously unrecognized disorder-related T cell developmental roadblocks.
Graphical Abstract
Highlights • RAG2-SCID cells show impaired differentiation at several stages of T cell development • RAG2-SCID T and NK cells fail to undergo legitimate RAG-driven TCR rearrangements • RAG2-SCID cells exhibit a skewed differentiation toward NK cell-like cells • RAG2-SCID phenotype is rescued by gene correction
In this article, Mikkers and colleagues model RAG2-SCID using iPSCs and show that the capacity of RAG2-SCID cells to go through T cell development is hampered at multiple transitions from the earliest stage onwards. As a consequence RAG2 mutant cells generate more CD7−CD56+ CD33+ cells with NK cell properties.