[HTML][HTML] The RAG recombinase dictates functional heterogeneity and cellular fitness in natural killer cells

JM Karo, DG Schatz, JC Sun - Cell, 2014 - cell.com
JM Karo, DG Schatz, JC Sun
Cell, 2014cell.com
The emergence of recombination-activating genes (RAGs) in jawed vertebrates endowed
adaptive immune cells with the ability to assemble a diverse set of antigen receptor genes.
In contrast, innate lymphocytes, such as natural killer (NK) cells, are not believed to require
RAGs. Here, we report that NK cells unable to express RAGs or RAG endonuclease activity
during ontogeny exhibit a cell-intrinsic hyperresponsiveness but a diminished capacity to
survive following virus-driven proliferation, a reduced expression of DNA damage response …
Summary
The emergence of recombination-activating genes (RAGs) in jawed vertebrates endowed adaptive immune cells with the ability to assemble a diverse set of antigen receptor genes. In contrast, innate lymphocytes, such as natural killer (NK) cells, are not believed to require RAGs. Here, we report that NK cells unable to express RAGs or RAG endonuclease activity during ontogeny exhibit a cell-intrinsic hyperresponsiveness but a diminished capacity to survive following virus-driven proliferation, a reduced expression of DNA damage response mediators, and defects in the repair of DNA breaks. Evidence for this novel function of RAG has also been observed in T cells and innate lymphoid cells (ILCs), revealing an unexpected role for RAG proteins beyond V(D)J recombination. We propose that DNA cleavage events mediated by RAG endow developing adaptive and innate lymphocytes with a cellular "fitness" that safeguards their persistence later in life during episodes of rapid proliferation or cellular stress.
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