Irradiation-mediated rescue of T cell-specific V(D)J recombination and thymocyte differentiation in severe combined immunodeficient mice by bone marrow cells

Perturbation of B-cell development in mice overexpressing the Bcl-2 homolog A1

Decisions about cell survival or death are central components of adaptive immunity and occur at several levels in immune system development and function. The Bcl-2 family of homologous proteins plays an important role in these decisions in lymphoid cells. Bcl-2, Bcl-xL, and A1 are differentially expressed during B- and T-cell development, and they have shared and distinct roles in regulating cell death. We sought to gain insight into the role of A1 in immune system development and function. A murine A1-a transgene was expressed under the control of the Emu enhancer, and mice with A1 overexpression in B- and T-cell lineages were derived. Thymocytes and early B cells in Emu-A1 mice showed extended survival. B-lineage development was altered, with expansion of the pro-B cell subset at the expense of pre-B cells, suggesting an impairment of the pro- to pre-B-cell transition. This early B-cell phenotype resembled Emu-Bcl-xL mice but did not preferentially rescue cells with completed V(D)J rearrangements of the immunoglobulin heavy chain. In contrast to Emu-Bcl-2 transgenes, A1 expression in pro-B cells did not rescue pre-B-cell development in SCID mice. These studies indicate that A1 protects lymphocytes from apoptosis in vitro but that it has lineage- and stage-specific effects on lymphoid development. Comparison with the effects of Bcl-2 and Bcl-xL expressed under similar control elements supports the model that antiapoptotic Bcl-2 homologs interact differentially with intracellular pathways affecting development and apoptosis in lymphoid cells.

Irradiation-Induced Rescue of Thymocyte Differentiation and V(D)J Recombination in Mice Lacking the Catalytic Subunit of DNA-Dependent Protein Kinase

Scid mice express a truncated form of the catalytic subunit of the DNA-dependent protein kinase (DNA-PKcs) and are unable to properly rearrange their Ig and TCR genes, resulting in a severe combined immunodeficiency that is characterized by arrested differentiation of B and T lymphocytes. Treatment of scid mice with low doses of gamma irradiation rescues rearrangements at several TCR loci and promotes limited thymocyte differentiation. The machinery responsible for sensing DNA damage and the mechanism by which irradiation compensates for the scid defect in TCR recombination remain unknown. Because DNA-PKcs is present in scid thymocytes, it may mediate some or all of the irradiation effects. To test this hypothesis, we examined the effects of irradiation on DNA-PKcs-deficient (slip) mice. Our data provide the first evidence that DNA-PKcs is not required for limited rescue of thymocyte differentiation or TCR rearrangements.