Expression of Immunoglobulin Genes in Transgenic Mice and Transfected Cellsa

Storb, Ursula; Engler, Peter; Manz, J; Gollahon, Katherine A.; Denis, Kathleen A.; Lo, David; Brinster, Ralph L.

doi:10.1111/j.1749-6632.1988.tb21618.x

Cited by 14 publications

(15 citation statements)

References 19 publications

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“…There are few data relevant to allelic exclusion in y heavy chain transgenic mice. A lack of allelic exclusion has been reported in mice transgenic for a yl transgene (32) and generally in mice transgenic for a y2b transgene (33 (1992) the simultaneous production of protective and pathogenic antibodies may underlie the need for allelic exclusion.…”

Section: Discussionmentioning

confidence: 99%

Induction of tolerance to an IgG autoantibody.

Offen

Spatz

Escowitz

et al. 1992

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

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Nonautoimmune mice transgenic for the heavy chain of an IgG2b anti-double-stranded-DNA antibody express the transgene in lymphoid organs and display partial allelic exclusion of this y2b transgene. The spleens ofthese mice are characterized by marked B-cell depletion. Although there are B cells in these mice that express the transgene and recognize double-stranded DNA, they are anergic in vivo. Recovery from the state of anergy occurs in vitro after lipopolysaccharide stimulation. Thus this transgenic model demonstrates the induction ofselftolerance to an IgG autoantibody.

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Section: Discussionmentioning

confidence: 99%

Induction of tolerance to an IgG autoantibody.

Offen

Spatz

Escowitz

et al. 1992

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

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“…In contrast, Storb and coworkers (Ritchie et al 1984, Gollahon et al 1988, Hagman et al 1989 find it necessary to treat each of their findings with different light chain transgenics as independent, unrelated phenomena; each observation is interpreted by a unique mechanism. They characterize two types of transgenic, one K (Ritchie et al 1984, Gollahon et al 1988, the other Xj (Hagman et al 1989). Hybridomas from the K-transgenic (TGK) were analyzed for the rearrangement of endogenous (E) IgK (Ritchie et al 1984) and for the expression of both K and X (TGA:-|-E^.)…”

Section: Assays On H~'~ Hybridomasmentioning

confidence: 96%

“…The only expected difTerences between given L-chain transgenics is quantitative and determined by the probability, on average, that complementation with an H-chain will effect the (LH)2-ST0P. In contrast, Storb and coworkers (Ritchie et al 1984, Gollahon et al 1988, Hagman et al 1989 find it necessary to treat each of their findings with different light chain transgenics as independent, unrelated phenomena; each observation is interpreted by a unique mechanism. They characterize two types of transgenic, one K (Ritchie et al 1984, Gollahon et al 1988, the other Xj (Hagman et al 1989).…”

Section: Assays On H~'~ Hybridomasmentioning

confidence: 99%

“…Hybridomas from the K-transgenic (TGK) were analyzed for the rearrangement of endogenous (E) IgK (Ritchie et al 1984) and for the expression of both K and X (TGA:-|-E^.) in EX expressing cells (Gollahon et al 1988). The argument used by Ritchieet al (1984)foran(LH)2-STOPisbasedon the finding that, in hybridomas that secrete Ig containing the transgenic K, the endogenous Igsr-loci are not rearranged (i.e., >90%).…”

Section: Assays On H~'~ Hybridomasmentioning

confidence: 99%

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The Protection: The Unit of Humoral Immunity Selected by Evolution

Cohn

Langman

1990

Immunological Reviews

228

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“…Whereas this rule seems to be quite effective in the case of the HC (4,5), it suffers remarkable exceptions at light chain (LC) loci. Indeed, several studies reported the presence of double-expressing ͞ B cells either at very low frequencies in normal mice or in human, and more abundantly in transgenic mice (6)(7)(8)(9) and plasmocytomas (10). Little is known about the mechanisms involved in the allelic exclusion of LC even if recent studies highlighted the importance of asymmetric demethylation of the locus (11,12) and feedback inhibition of the recombination machinery after the assembly and signaling by a non-self-reactive BCR (13)(14)(15)(16).…”

mentioning

confidence: 99%

Light chain inclusion permits terminal B cell differentiation and does not necessarily result in autoreactivity

Sirac

Carrion

Duchez

et al. 2006

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

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Mice in which the J cluster was replaced with a V J rearranged gene were studied. More than 90% of B cells from homozygous mutant mice expressed the transgenic chain but showed a slightly reduced level of transcripts compared with WT B lymphocytes. Light chain inclusion was apparent in 10% of B cells from these mice and raised 25% in hemizygous mice with a still lower expression of the knockin chain. Beyond the rules of clonal selection, peripheral B cells developed in such animals, with included cells being activated and differentiating into class-switched or antibody-secreting cells. The high amount of included mature B cells was associated with an increase of hybrid ͞ immunoglobulins but not with the increased prevalence of autoantibodies. Altogether, these data suggest that light chain exclusion prevalent in normal B cells mostly results from ordered rearrangements and stochastic mechanisms but is neither tightly ensured by a stringent cell selection process nor absolutely required for normal B cell function.antibodies ͉ autoimmunity ͉ B lymphocytes ͉ gene regulation D uring B cell development, B cell receptor (BCR) assembly relies on an ordered process of rearrangements remodeling first the heavy chain (HC) locus and later on the and loci. Cells achieving expression of functional H and L chains and able to pair them can then express a unique form of functionally competent Ig at the cell surface and be selected according to the specificity of this receptor (1, 2). With very rare exceptions, B lymphocytes are thus monospecific and express a single H and L chain. This allelic and isotypic exclusion is fundamental to the establishment of the B cell repertoire and is in agreement with the clonal selection theory (3), first allowing during ontogeny the tolerization of clonal cells carrying a self-reactive BCR and later ensuring the specificity of antibody responses. Whereas this rule seems to be quite effective in the case of the HC (4, 5), it suffers remarkable exceptions at light chain (LC) loci. Indeed, several studies reported the presence of double-expressing ͞ B cells either at very low frequencies in normal mice or in human, and more abundantly in transgenic mice (6-9) and plasmocytomas (10). Little is known about the mechanisms involved in the allelic exclusion of LC even if recent studies highlighted the importance of asymmetric demethylation of the locus (11, 12) and feedback inhibition of the recombination machinery after the assembly and signaling by a non-self-reactive BCR (13-16). Beyond the initial rearrangements, exclusion also has to be maintained despite the accumulation of secondary rearrangements. The latter were first reported at high frequency in LC loci of mice transgenic for an autoreactive BCR, in which receptor editing restored self-tolerance (17-19). Receptor editing also occurs in normal mice during the selection of immature B cells and may be a major pathway of tolerance induction by rescuing cells with autoreactive BCR from deletion (or anergy) provided that they express a new recept...

show abstract

Expression of Immunoglobulin Genes in Transgenic Mice and Transfected Cellsa

Cited by 14 publications

References 19 publications

Induction of tolerance to an IgG autoantibody.

Induction of tolerance to an IgG autoantibody.

The Protection: The Unit of Humoral Immunity Selected by Evolution

Light chain inclusion permits terminal B cell differentiation and does not necessarily result in autoreactivity

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