Directed evolution of human scFvs in DT40 cells.

Cells that constitutively diversify their immunoglobulin genes can be used for selection of novel antibodies and for refining existing affinities and specificities. Here, we report an adaptation of the chicken DT40 system wherein its capacity for somatic hypermutation is harnessed to evolve human antibodies expressed as single-chain variable fragments (scFvs). Expression of membrane-anchored scFvs from within the rearranged Igλ locus created self-diversifying scFv libraries from which we could both select scFvs of a desired specificity and evolve both the specificity and affinity of existing scFvs by iterative expansion and selection.

Human monoclonal antibodies to HIV-1 gp140 from mice bearing YAC-based human immunoglobulin transloci.

Mice carrying human immunoglobulin transloci were immunised with HIV-1 gp140 antigen to gain insight into the range and nature of human monoclonal antibodies (mAbs) that can be elicited from such humanised mice. Using five-feature mice that harbour YAC-based germline-configuration human IgM, Igκ and Igλ transloci in a mouse background disrupted for endogenous mouse IgH and Igκ expression, gp140-specific human IgM mAbs were readily elicited following serial immunisation. These mAbs were converted to human IgG1 format and were found to bind diverse epitopes within gp140, exhibiting high functional affinity for the antigen-typically in the nanomolar or sub-nanomolar range.

Dependence of antibody gene diversification on uracil excision.

Activation-induced deaminase (AID) catalyses deamination of deoxycytidine to deoxyuridine within immunoglobulin loci, triggering pathways of antibody diversification that are largely dependent on uracil-DNA glycosylase (uracil-N-glycolase [UNG]). Surprisingly efficient class switch recombination is restored to ung(-/-) B cells through retroviral delivery of active-site mutants of UNG, stimulating discussion about the need for UNG's uracil-excision activity. In this study, however, we find that even with the overexpression achieved through retroviral delivery, switching is only mediated by UNG mutants that retain detectable excision activity, with this switching being especially dependent on MSH2.

Somatic hypermutation at A.T pairs: polymerase error versus dUTP incorporation.

Somatic hypermutation of immunoglobulin genes occurs at both C.G pairs and A.T pairs.

Immunoglobulin isotype switching is inhibited and somatic hypermutation perturbed in UNG-deficient mice.

Background: We have previously proposed that deamination of cytosine to uracil at sites within the immunoglobulin loci by activation-induced deaminase (AID) triggers antibody diversification. The pattern of diversification (phase 1 or 2 hypermutation, gene conversion, or switch recombination) is viewed as depending on the mode of resolution of the dU/dG lesion. A major resolution mode involves excising the uracil, an activity that at least four different enzymes can accomplish in the mouse.

Generation and iterative affinity maturation of antibodies in vitro using hypermutating B-cell lines.

We show that iterative antigen-mediated selection of B-cell lines that constitutively hypermutate their immunoglobulin V genes during culture can be exploited to generate antibodies in vitro. From Ramos, a hypermutating human B-cell line expressing IgM of unknown specificity, we derived descendants that exhibit stepwise improved binding to streptavidin. Binding is initially conferred by mutations in complementarity-determining regions (CDRs), but maturation is due to strategic framework mutations.