Inês Trancoso scite author profile

SignificanceCytidine deaminases of the AID/APOBEC family mutate the genetic material of pathogens or contribute to the generation and diversification of antibody repertoires in jawed vertebrates. In the extant jawless vertebrate, the lamprey, two members of the AID/APOBEC family are implicated in the somatic diversification of variable lymphocyte receptor (VLR) repertoires. We discovered an unexpected diversity of cytidine deaminase genes within and among lamprey species. The cytidine deaminases with features comparable to jawed vertebrate AID are always present, suggesting that they are involved in essential processes, such as VLR assembly. In contrast, other genes show a remarkable copy number variation, like the APOBEC3 genes in mammals. This suggests an unexpected similarity in functional deployment of AID/APOBEC cytidine deaminases across all vertebrates.

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A Novel Quantitative Fluorescent Reporter Assay for RAG Targets and RAG Activity

Trancoso¹,

Bonnet²,

Gardner³

et al. 2013

Front. Immunol.

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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.

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Cytidine deaminase 2 is required for VLRB antibody gene assembly in lampreys

et al. 2020

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The antibodies of jawless vertebrates consist of leucine-rich repeat arrays encoded by somatically assembled VLRB genes. It is unknown how the incomplete germline VLRB loci are converted into functional antibody genes during B lymphocyte development in lampreys. In Lampetra planeri larvae lacking the cytidine deaminase CDA2 gene, VLRB assembly fails, whereas the T lineage–associated VLRA and VLRC antigen receptor gene assemblies occur normally. Thus, CDA2 acts in a B cell lineage–specific fashion to support the somatic diversification of VLRB antibody genes. CDA2 is closely related to activation-induced cytidine deaminase (AID), which is essential for the elaboration of immunoglobulin gene repertoires in jawed vertebrates. Our results thus identify a convergent mechanism of antigen receptor gene assembly and diversification that independently evolved in the two sister branches of vertebrates.

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Epigenetic Protection of Vertebrate Lymphoid Progenitor Cells by Dnmt1

et al. 2020

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DNA methylation is a universal epigenetic mechanism involved in regulation of gene expression and genome stability. The DNA maintenance methylase DNMT1 ensures that DNA methylation patterns are faithfully transmitted to daughter cells during cell division. Because loss of DNMT1 is lethal, a pan-organismic analysis of DNMT1 function is lacking. We identified new recessive dnmt1 alleles in medaka and zebrafish and, guided by the structures of mutant proteins, generated a recessive variant of mouse Dnmt1. Each of the three missense mutations studied here distorts the catalytic pocket and reduces enzymatic activity. Because all three DNMT1 mutant animals are viable, it was possible to examine their phenotypes throughout life. The consequences of genome-wide hypomethylation of DNA of somatic tissues in the Dnmt1 mutants are surprisingly mild but consistently affect the development of the lymphoid lineage. Our findings indicate that developing lymphocytes in vertebrates are sensitive to perturbations of DNA maintenance methylation.

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Co-evolution of mutagenic genome editors and vertebrate adaptive immunity

Trancoso

Morimoto

Boehm

2020

Current Opinion in Immunology

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The adaptive immune systems of all vertebrates rely on self-DNA mutating enzymes to assemble their antigen receptors in lymphocytes of their two principal lineages. In jawed vertebrates, the RAG1/2 recombinase directs V(D)J recombination of B cell and T cell receptor genes, whereas the activation-induced cytidine deaminase AID engages in their secondary modification. The recombination activating genes ( RAG) 1 and 2 evolved from an ancient transposon-encoded genome modifier into a self-DNA mutator serving adaptive immunity; this was possible as a result of domestication, involving several changes in RAG1 and RAG2 proteins suppressing transposition and instead facilitating-coupled cleavage and recombination. By contrast, recent evidence supports the notion that the antigen receptors of T-like and B-like cells of jawless vertebrates, designated variable lymphocyte receptors (VLRs), are somatically assembled through a process akin to gene conversion that is believed to be dependent on the activities of distant relatives of AID, the cytidine deaminases CDA1 and CDA2, respectively. It appears, therefore, that the precursors of AID and CDAs underwent a domestication process that changed their target range from foreign nucleic acids to self-DNA; this multi-step evolutionary process ensured that the threat to host genome integrity was minimized. Here, we review recent findings illuminating the evolutionary steps associated with the domestication of the two groups of genome editors, RAG1/2 and cytidine deaminases, indicating how they became the driving forces underlying the emergence of vertebrate adaptive immune systems.

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Inês Trancoso

Expansions, diversification, and interindividual copy number variations of AID/APOBEC family cytidine deaminase genes in lampreys

A Novel Quantitative Fluorescent Reporter Assay for RAG Targets and RAG Activity

Cytidine deaminase 2 is required for VLRB antibody gene assembly in lampreys

Epigenetic Protection of Vertebrate Lymphoid Progenitor Cells by Dnmt1

Co-evolution of mutagenic genome editors and vertebrate adaptive immunity

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