Double trans-chromosomic mice:: Maintenance of two individual human chromosome fragments containing Ig heavy and κ loci and expression of fully human antibodies

The use of a human chromosome or its fragment as a vector for animal transgenesis may facilitate functional studies of large human genomic regions. We describe here the generation and analysis of double trans-chromosomic (Tc) mice harboring two individual human chromosome fragments (hCFs), Two transmittable hCFs, one containing the Ig heavy chain locus (IgH, approximate to 1.5 Mb) and the other the kappa light chain locus (Ig kappa c, approximate to 2 Mb), were introduced into a mouse strain whose endogenous IgH and Ig kappa loci were inactivated. In the resultant double-Tc/double-knockout mice, substantial proportion of the somatic cells retained both hCFs, and the rescue in the defect of Ig production was shown by high level expression of human Ig heavy and kappa chains in the absence of mouse heavy and kappa chains. In addition, serum expression profiles of four human Ig gamma subclasses resembled those seen in humans. They mounted an antigen-specific human antibody response upon immunization with human serum albumin, and human serum albumin-specific human monoclonal antibodies with various isotypes were obtained from them. These results represent a generation of mice with humanized loci by using the transmittable hCFs, which suggest that the Tc technology may allow for the humanization of over megabase-sized, complex loci in mice or other animals. Such animals may he useful not only for studying in vivo functions of the human genome but also for obtaining various therapeutic products.