In principle, expressing a catalytically inactive V(D)J recombinase during a developmental stage in which V(D)J rearrangement is initiated may impair this process. To test this idea, we generated transgenic mice expressing a RAG1 active site mutant (dnRAG1 mice); RAG1 transcript was elevated in splenic, but not bone marrow, B cells in dnRAG1
mice click here relative to wild-type mice. The dnRAG1 mice accumulate splenic B cells with a B1-like phenotype that exhibit defects in B-cell activation, and are clonally diverse, yet repertoire restricted with a bias toward Jκ1 gene segment usage. The dnRAG1 mice show evidence of impaired B-cell development at the immature-to-mature transition, immunoglobulin deficiency, and poorer immune responses to thymus-independent antigens. Interestingly, dnRAG1 mice expressing the anti-dsDNA 3H9H56R heavy chain fail to accumulate splenic B1-like cells, yet retain peritoneal B1 cells. Instead, these mice show an expanded marginal see more zone compartment, but no difference is detected in the
frequency of heavy chain gene replacement. Taken together, these data suggest a model in which dnRAG1 expression impairs secondary V(D)J recombination. As a result, selection and/or differentiation processes are altered in a way that promotes expansion of B1-like B cells in the spleen. A key hallmark of B-cell and T-cell maturation is the acquisition of a unique antigen-binding receptor. The antigen-binding regions of these receptors are encoded in germ-line arrays of variable (V), diversity (D) and joining (J) gene segments that undergo rearrangement by the RAG1 and RAG2 proteins during lymphocyte development though a process known as V(D)J recombination to generate functional antigen receptor genes.1 In B cells, primary V(D)J rearrangements of immunoglobulin heavy and light chain genes yield B-cell receptors (BCRs) of diverse
antigenic specificity, some of which exhibit self-reactivity. Three mechanisms are known to help control B-cell autoreactivity.2 Olopatadine In one mechanism, those cells whose BCRs recognize (typically multivalent) self-antigen can undergo developmental arrest and initiate secondary V(D)J rearrangements to ‘edit’ receptor specificity away from autoreactivity (receptor editing). Alternatively, autoreactive B cells may be removed from the repertoire via clonal deletion or silenced through induction of anergy. In this way, the mature naive B-cell repertoire is rendered self-tolerant. V(D)J recombination may also be re-initiated to ‘revise’ the antigenic specificity of B cells in response to immunization or infection, or under conditions of autoimmunity (receptor revision).