Human immunoglobulin transgenes undergo rearrangement, somatic mutation and class switching in mice that lack endogenous IgM

Taylor, Lisa D.; Carmack, Condie E.; Huszar, Dennis; Higgins, Kay M.; Mashayekh, Roshanak; Sequar, Getachew; Schramm, Stephen R.; Kuo, Chlung-Chi; O'Donnell, Susan L.; Kay, Robert M.; Woodhouse, Cllve S.; Lönberg, Nils

doi:10.1093/intimm/6.4.579

Cited by 66 publications

(23 citation statements)

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“…the production of human monoclonal antibodies (Brü gHere, we have examined the possibility of using gemann et al, 1989, 1991; Brü ggemann and Neu-bacteriophage P1 clones to reconstitute a core human berger, 1991; Davies et al, 1993;Green et al, 1994; IgH locus in transgenic mice. Phage P1 clones contain Lonberg et al, 1994;Taylor et al, 1992Taylor et al, , 1993; Wagner about 100 kb of inserted DNA and are propagated in The EcoRI restriction map is taken from Shin et al (1991). The end probes derived from the NotI and SalI sides of P128 are shown as gray bars.…”

Section: Introductionmentioning

confidence: 99%

Antibody Expression from the Core Region of the Human IgH Locus Reconstructed in Transgenic Mice Using Bacteriophage P1 Clones

et al. 1996

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Section: Introductionmentioning

confidence: 99%

Antibody Expression from the Core Region of the Human IgH Locus Reconstructed in Transgenic Mice Using Bacteriophage P1 Clones

et al. 1996

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“…The basic structure of S-sequences and the mechanism of their activation are highly conserved, so that human S-sequences are recombined in transgenic mice (33). The selected promoters function in most cell types, and the termination signal has so far been shown to work in murine and human cells (13).…”

Section: Discussionmentioning

confidence: 99%

Sensitive analysis of recombination activity using integrated cell surface reporter substrates

Christine

Siebenkotten²,

Radbruch

1999

Cytometry

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“…pHC1, the construct used to establish the transgenic founder line 119, is 60 kb long and has been described (16)(17)(18)(19)(20). TdT Ϫ/Ϫ mice have been described (11,26).…”

Section: Methodsmentioning

confidence: 99%

“…To study the mechanisms of Ig V H DJ H recombination, we engineered mice transgenic for a human Ig heavy chain minilocus, pHC1 (15)(16)(17)(18)(19)(20)(21)(22). One of the D gene segments present in the transgenic minilocus belongs to the D gene segments with irregular spacers (DIR) family.…”

mentioning

confidence: 99%

Use of D gene segments with irregular spacers in terminal deoxynucleotidyltransferase (TdT)^+/+and TdT^−/−mice carrying a human Ig heavy chain transgenic minilocus

Tuaillon

1998

Proc. Natl. Acad. Sci. U.S.A.

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D gene segments with irregular spacers (DIR) are D gene segments that are specific to higher primates. Their use is controversial because of their G؉C-rich long sequences. In the human, it has always been tempting to assume that a complementarity-determining region 3 sequence has been added by terminal deoxynucleotidyltransferase (TdT) activity and is not derived from DIR recombination. Herein, we examine the use of human DIR gene segments by cross-breeding the human Ig heavy chain minilocus pHC1 transgenic mice and TdT-deficient mice. In the absence of TdT and with a defined set of human D gene segments, it is relatively easy to demonstrate that DIR2 is used to form human Ig heavy chains, contributing to 7% of the human heavy chain rearrangements. V H DJ H rearrangements (where H is heavy chain) in the minilocus TdT ؊/؊ mice use small portions of DIR2 located throughout the coding sequence. These results constitute the strongest evidence to date that DIR gene segments are used to form human antibodies. Additionally, we show that direct and inverted DIR2J H and V H DIR2 rearrangements occur in the minilocus transgenic mice. During these rearrangements, D M2 3 signal sequence and a new DIR2 5 signal sequence are used. These rearrangements generally follow the 12͞23 recombination rule. Our results at the V H DJ H , DJ H , and V H D levels indicate that DIR2 is used to form human heavy chains in transgenic mice. The rearrangement of this gene segment likely involves, however, other mechanisms in addition to the classical V H DJ H recombination.The variable region of Ig heavy chains (IgH) and T cell receptor ␤ and ␦ chains derive from the combination of three separate DNA elements termed the variability (V), diversity (D), and junctional (J) gene segments through a cell-specific process termed V H DJ H recombination (where H is heavy chain). Typically, the recombination process is performed in two steps with D to J H rearrangement preceding V H to DJ H rearrangement (1-3). The rearrangement is directed by recombination signal sequences (RSSs) flanking each coding gene segment. RSSs are formed of a consensus palindromic heptamer related to the sequence CACAGTG and a nonamer related to the sequence ACAAAAACC separated by 12 Ϯ 1 or 23 Ϯ 1 nucleotide spacers. D gene segments are flanked on both sides by 12 Ϯ 1 spacer RSSs, whereas V H and J H gene segments are flanked by 23 Ϯ 1 spacer RSSs at the 3Ј and 5Ј sides, respectively.

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Human immunoglobulin transgenes undergo rearrangement, somatic mutation and class switching in mice that lack endogenous IgM

Cited by 66 publications

References 0 publications

Antibody Expression from the Core Region of the Human IgH Locus Reconstructed in Transgenic Mice Using Bacteriophage P1 Clones

Antibody Expression from the Core Region of the Human IgH Locus Reconstructed in Transgenic Mice Using Bacteriophage P1 Clones

Sensitive analysis of recombination activity using integrated cell surface reporter substrates

Use of D gene segments with irregular spacers in terminal deoxynucleotidyltransferase (TdT)^+/+and TdT^−/−mice carrying a human Ig heavy chain transgenic minilocus

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Human immunoglobulin transgenes undergo rearrangement, somatic mutation and class switching in mice that lack endogenous IgM

Cited by 66 publications

References 0 publications

Antibody Expression from the Core Region of the Human IgH Locus Reconstructed in Transgenic Mice Using Bacteriophage P1 Clones

Antibody Expression from the Core Region of the Human IgH Locus Reconstructed in Transgenic Mice Using Bacteriophage P1 Clones

Sensitive analysis of recombination activity using integrated cell surface reporter substrates

Use of D gene segments with irregular spacers in terminal deoxynucleotidyltransferase (TdT)+/+and TdT−/−mice carrying a human Ig heavy chain transgenic minilocus

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Use of D gene segments with irregular spacers in terminal deoxynucleotidyltransferase (TdT)^+/+and TdT^−/−mice carrying a human Ig heavy chain transgenic minilocus