Mice carrying the full-length human immunoglobulin loci produce antigen-specific human antibodies with the lambda light chain.

The development of antibody drugs through animal immunization typically requires the humanization of host antibodies to address concerns about immunogenicity in humans. However, employing an animal model capable of producing human antibodies presents the opportunity to develop antibody drugs without the need for humanization. Despite the ratio of human immunoglobulin (Ig) κ to Igλ usage being approximately 60%:40%, the majority of approved antibody therapeutics are kappa antibodies, and the development of lambda antibodies as therapeutic agents has lagged behind. Therefore, in this study, we developed mice carrying the and loci (IGHL), which can produce human lambda antibodies, using mouse artificial chromosome (MAC) vectors. We demonstrated that IGHL mice consistently retain the human lambda antibody locus integrated on the MAC across generations and can be induced to produce specific antibodies upon antigen stimulation. These findings provide a promising platform for advancing lambda antibody drugs, which have historically been neglected.