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The inhibitor of DNA binding 2 (Id2) is essential for natural killer (NK) cell development with its canonical role being to antagonize E-protein function and alternate lineage fate. Here we have identified a key role for Id2 in regulating interleukin-15 (IL-15) receptor signaling and homeostasis of NK cells by repressing multiple E-protein target genes including Socs3. Id2 deletion in mature NK cells was incompatible with their homeostasis due to impaired IL-15 receptor signaling and metabolic function and this could be rescued by strong IL-15 receptor stimulation or genetic ablation of Socs3. During NK cell maturation, we observed an inverse correlation between E-protein target genes and Id2. These results shift the current paradigm on the role of ID2, indicating that it is required not only to antagonize E-proteins during NK cell commitment, but constantly required to titrate E-protein activity to regulate NK cell fitness and responsiveness to IL-15.
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•Id2 is upregulated during NK cell maturation to titrate E-protein activity•Id2 deletion in mature NK cells results in apoptosis•Id2 suppresses SOCS3 expression to maintain IL-15 receptor signaling•Requirement for Id2 is overcome by strong IL-15 receptor stimulation
Id2 is essential for natural killer cell development. Huntington and colleagues demonstrate that Id2 acts as a rheostat to control IL-15 receptor signaling and natural killer cell fate.