Genetic removal of the CH1 exon leads to the production of hypofunctional heavy chain-only IgG2a in rats.

Despite great values in many applications, heavy chain-only antibodies (HcAbs) are naturally only produced in camelids and sharks, which are not easy to access and handle. Production of the type of antibodies in small laboratory animals would remarkably facilitate their applications. We previously reported a mouse line in which the CH1 exon of mouse γ1 was deleted that could express heavy chain-only IgG1 antibodies. However, these mice showed an extremely weak IgG1 response to specific antigens when immunized, and we could only achieve single VH domains with low affinity to antigens using these mice. One possibility is that the mouse germline VH repertoire was not sufficient to support the expression of functional heavy chain-only antibodies. In this study, we report the generation of a rat line in which the CH1 exon of the γ2a gene was removed and the γ1 and γ2b genes were silenced. Although the genetically modified rats expressed heavy chain-only IgG2a, they also exhibited a very weak IgG2a response to antigen immunization. Panning of a phage library constructed using IgG2a VH segments amplified from immunized rats identified antigen-specific single VH antibodies, which also exhibited much lower affinity than that of commercial mAbs. Together with our previous report, this study suggests that the simple genetic removal of the CH1 exon does not guarantee the successful expression of functional heavy chain-only antibodies.