Catherine E. Maynard-Currie scite author profile

We describe a strategy for producing human monoclonal antibodies in mice by introducing large segments of the human heavy and kappa light chain loci contained on yeast artificial chromosomes into the mouse germline. Such mice produce a diverse repertoire of human heavy and light chains, and upon immunization with tetanus toxin have been used to derive antigen-specific, fully human monoclonal antibodies. Breeding such animals with mice engineered by gene targeting to be deficient in mouse immunoglobulin (Ig) production has led to a mouse strain in which high levels of antibodies are produced, mostly comprised of both human heavy and light chains. These strains should provide insight into the adoptive human antibody response and permit the development of fully human monoclonal antibodies with therapeutic potential.

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Germ-line transmission and expression of a human-derived yeast artificial chromosome

Jakobovits

Moore

Green

et al. 1993

Nature

146

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Introduction of DNA fragments, hundreds of kilobases in size, into mouse embryonic stem (ES) cells would greatly advance the ability to manipulate the mouse genome. Mice generated from such modified cells would permit investigation of the function and expression of very large or crudely mapped genes. Large DNA molecules cloned into yeast artificial chromosomes (YACs) are stable and genetically manipulable within yeast, suggesting yeast-cell fusion as an ideal method for transferring large DNA segments into mammalian cells. Introduction of YACs into different cell types by this technique has been reported; however, the incorporation of yeast DNA along with the YAC has raised doubts as to whether ES cells, modified in this way, would be able to recolonize the mouse germ line. Here we provide, to our knowledge, the first demonstration of germ-line transmission and expression of a large human DNA fragment, introduced into ES cells by fusion with yeast spheroplasts. Proper development was not impaired by the cointegration of a large portion of the yeast genome with the YAC.

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Analysis of the structural integrity of YACs comprising human immunoglobulin genes in yeast and in embryonic stem cells

et al. 1995

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Inactivation of the MouseHPRTLocus by a 203-bp Retroposon Insertion and a 55-kb Gene-Targeted Deletion: Establishment of New HPRT-Deficient Mouse Embryonic Stem Cell Lines

et al. 1997

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Production of Antigen‐Specific Human Antibodies from Mice Engineered with Human Heavy and Light Chain YACs^a

Jakobovits

Green

Hardy

et al. 1995

Annals of the New York Academy of Sciences

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