Abstract
Recombination-Activating Genes (RAG) 1 and 2 form the site specific recombinase that mediates V(D)J recombination, a process of DNA editing required for lymphocyte development and responsible for their diverse repertoire of antigen receptors. Mistargeted RAG activity associates with genome alteration and is responsible for various lymphoid tumors. Moreover several non-lymphoid tumors express RAG ectopically. A practical and powerful tool to perform quantitative assessment of RAG activity and to score putative RAG-Recognition signal sequences (RSS) is required in the fields of immunology, oncology, gene therapy, and development. Here we report the detailed characterization of a novel fluorescence-based reporter of RAG activity, named GFPi, a tool that allows measuring recombination efficiency (RE) by simple flow cytometry analysis. GFPi can be produced both as a plasmid for transient transfection experiments in cell lines or as a retrovirus for stable integration in the genome, thus supporting ex vivo and in vivo studies. The GFPi assay faithfully quantified endogenous and ectopic RAG activity as tested in genetically modified fibroblasts, tumor derived cell lines, developing pre-B cells, and hematopoietic cells. The GFPi assay also successfully ranked the RE of various RSS pairs, including bona fide RSS associated with V(D)J segments, artificial consensus sequences modified or not at specific nucleotides known to affect their efficiencies, or cryptic RSS involved in RAG-dependent activation of oncogenes. Our work validates the GFPi reporter as a practical quantitative tool for the study of RAG activity and RSS efficiencies. It should turn useful for the study of RAG-mediated V(D)J and aberrant rearrangements, lineage commitment, and vertebrate evolution.
Highlights
V(D)J recombination, the somatic rearrangement of variable (V), diversity (D), and joining (J) segments of the antigen receptor genes, is the phenomenon responsible for the very large diversity of the B and T cell antigen receptors in jawed vertebrates (Tonegawa, 1983)
GFPi IS A Recombination-Activating Genes (RAG)-DEPENDENT RECOMBINATION REPORTER We have engineered the reporter for RAG1/2 activity (GFPi) in the MSCV-internal ribosomal entry site (IRES)-red fluorescent protein (RFP) retroviral vector backbone that allows the detection of the substrate, revealed by the IRES-driven expression of the RFP
RAG-mediated recombination reporters are included in those tools as they are key for further characterization of the regulation levels underlying the recruitment of a Recognition signal sequences (RSS) or a cryptic RSSs (cRSS)
Summary
V(D)J recombination, the somatic rearrangement of variable (V), diversity (D), and joining (J) segments of the antigen receptor genes, is the phenomenon responsible for the very large diversity of the B and T cell antigen receptors in jawed vertebrates (Tonegawa, 1983). The heptamer and nonamer, but most notably, the spacer sequences are considerably degenerated, which favors a wide range of interactions with RAG and the fine-tuning of the rearrangement efficiency that is important for the generation of antigen receptor diversity (Cowell et al, 2004). A consequence of such degeneracy is that sequences similar to RSSs are found outside of antigen receptor loci. These are named cryptic RSSs (cRSS) and their targeting by RAG has been associated with tumorigenesis (Marculescu et al, 2006; Schlissel et al, 2006). V(D)J recombination challenges genome integrity and has to be kept under tight control at multiple regulatory levels
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