Analysis of human immunoglobulin gene repertoire in NOD/scid IL2Rγ null mice engrafted with human cord blood derived hematopoietic stem cells (36.14)

Abstract

Abstract The humanized NOD/scid IL2rg-/- (hNSG) and similar mouse models hold promise as testing platforms for preclinical studies. Here, we analyzed the human immunoglobulin (IG) variable heavy and light chain gene repertoire from sorted single B-cells of hNSG mice engrafted with cord blood derived hematopoietic stem cells. Unique IGHV (339) and IGLV (364, kappa and lambda) gene segments were derived from major B cell subsets identified in a largely normal B cell development pathway. However, the hNSG mice expressed elevated CD5+ mature B-1-like cells in the periphery. In mice and humans, B-1 cells are the major source of autoantibodies. Although the hNSG mice expressed a highly diverse repertoire comparable to humans, detailed genetic analysis of IG gene segments from the mature B cell subset revealed the presence of long IGH-CDR3 regions with positive charges—a hallmark for auto/polyreactivity. For functional tests, several in vitro expressed scFv-Fc IG candidates, derived from cloned heavy and light chain cognate pairs of single B cells, tested positive in an anti-nuclear antibody assay for auto/polyreactivity and/or bound to HIVgp120 in ELISA assays. The natural induction during HIV-1 infection of broadly neutralizing antibodies (BnAbs) which display autoantibody-like characteristics may be curtailed by the checkpoint control mechanisms during B cell ontogeny. We propose the hNSG mouse can be a model platform to test this hypothesis and interrogate how BnAbs are formed.