V(D)J recombination: a functional definition of the joining signals.
Two conserved DNA sequences serve as joining signals in the assembly of immunoglobulins and T-cell receptors from V-, (D)-, and J-coding segments during lymphoid differentiation. We have examined V(D)J recombination as a function of joining signal sequence. Plasmid substrates with mutations in one or both of the heptamer-spacer-nonamer sequences were tested for recombination in a pre-B-cell line active in V(D)J recombination. No signal variant recombines more efficiently than the consensus forms of the joining signals. We find the heptamer sequence to be the most important; specifically, the three bases closest to the recombination crossover site are critical. The nonamer is not as rigidly defined, and it is not important to maintain the five consecutive As that distinguish the consensus nonamer sequence. Both types of signals display very similar sequence requirements and have in common an intolerance for changes in spacer length greater than 1 bp. Although the two signal types share sequence motifs, we find no evidence of a role in recombination for homology between the signals, suggesting that they serve primarily as protein recognition and binding sites.
Ku80 is required for immunoglobulin isotype switching
Isotype switching is the DNA recombination mechanism by which antibody genes diversify immunoglobulin effector functions. In contrast to V(D)J recombination, which is mediated by RAG1, RAG2 and DNA double‐stranded break (DSB) repair proteins, little is known about the mechanism of switching. We have investigated the role of DNA DSB repair in switch recombination in mice that are unable to repair DSBs due to a deficiency in Ku80 (Ku80−/−). B‐cell development is arrested at the pro‐B cell stage in Ku80−/− mice because of abnormalities in V(D)J recombination, and there are no mature B cells. To reconstitute the B‐cell compartment in Ku80−/− mice, pre‐rearranged VB1−8 DJH2 (μi) and V3−83JK2 (κi) genes were introduced into the Ku80−/− background (Ku80−/−μi/+κi/+). Ku80−/−μi/+ κi/+ mice develop mature mIgM+ B cells that respond normally to lipopolysaccharide (LPS) or LPS plus interleukin‐4 (IL‐4) by producing specific germline Ig constant region transcripts and by forming switch region‐specific DSBs. However, Ku80−/−μi/+κi/+ B cells are unable to produce immunoglobulins of secondary isotypes, and fail to complete switch recombination. Thus, Ku80 is essential for switch recombination in vivo, suggesting a significant overlap between the molecular machinery that mediates DNA DSB repair, V(D)J recombination and isotype switching.
V(D)J recombination defects in lymphocytes due to RAG mutations: severe immunodeficiency with a spectrum of clinical presentations.
Severe combined immunodeficiency (SCID) comprises a heterogeneous group of primary immunodeficiencies, a proportion of which are due to mutations in either of the 2 recombination activating genes (RAG)-1 and -2, which mediate the process of V(D)J recombination leading to the assembly of antigen receptor genes. It is reported here that the clinical and immunologic phenotypes of patients bearing mutations in RAGs are more diverse than previously thought and that this variability is related, in part, to the specific type of RAG mutation. By analyzing 44 such patients from 41 families, the following conclusions were reached: (1) null mutations on both alleles lead to the T-B-SCID phenotype; (2) patients manifesting classic Omenn syndrome (OS) have missense mutations on at least one allele and maintain partial V(D)J recombination activity, which accounts for the generation of residual, oligoclonal T-lymphocytes; (3) in a third group of patients, findings were only partially compatible with OS, and these patients, who also carried at least one missense mutation, may be considered to have atypical SCID/OS; (4) patients with engraftment of maternal T cells as a complication of a transplacental transfusion represented a fourth group, and these patients, who often presented with a clinical phenotype mimicking OS, may be observed regardless of the type of RAG gene mutation. Analysis of the RAG genes by direct sequencing is an effective way to provide accurate diagnosis of RAG-deficient as opposed to RAG-independent V(D)J recombination defects, a distinction that cannot be made based on clinical and immunologic phenotype alone.
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