The interleukin 7 receptor is required for T cell receptor gamma locus accessibility to the V(D)J recombinase.

ABSTRACT

Defects in the interleukin (IL)-7 signal transduction pathway lead to severe immunodeficiency in humans and in mice. In IL-7 receptor-deficient (IL-7R-/-) mice, lymphoid precursors show a reduced survival rate and variable/diversity/joining region V(D)J recombination is variously affected in different loci, being arrested in the T cell receptor (TCR)-gamma locus, aberrant in the immunoglobulin heavy chain (IgH) locus, and delayed in the TCR-beta locus. Here, we analyze the recombination defect of the TCR-gamma locus. Using ligation-mediated polymerase chain reaction, we sought intermediates of the recombination process. In the absence of the IL-7 signal, no initiation of recombination of the TCR-gamma locus was observed, whereas recombination intermediates at the TCR-beta locus could be detected. Thus, the failure to rearrange the TCR-gamma locus is due to a failure to initiate cleavage rather than a failure to religate broken DNA ends. V(D)J recombination was previously thought to begin at the pro-T2 stage of T cell development after the arrest of IL-7R-/- thymocytes at the pro-T1 stage. However, here we show that both TCR-gamma and -beta recombination intermediates are readily detectable in normal T1 cells, but only TCR-beta intermediates were detected in IL-7R-/- T1 cells, supporting a mechanistic role for IL-7 in TCR-gamma locus rearrangement. Since reduced recombination activating gene (rag) expression has been reported in the absence of the IL-7 signal, we directly tested whether the TCR-gamma locus is accessible to cleavage by recombinant Rag proteins in vitro. We found a reduction in chromatin accessibility for Rag-mediated cleavage in IL-7R-/- thymocytes compared with wild-type. Thus, IL-7 controls recombination at the TCR-gamma locus by regulating locus accessibility.