Revision of T cell receptor α chain genes is required for normal T lymphocyte development

Huang, Ching-Yu; Sleckman, Barry P.; Kanagawa, Osami

doi:10.1073/pnas.0505564102

Cited by 42 publications

(48 citation statements)

References 43 publications

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“…Some i.c.TCR␤ ϩ DP cells may remain CD5 Ϫ because they either lack correct TCR␣␤ pairing or functional TCR␣ rearrangements. Secondary TCR␣ rearrangements might allow some CD5 Ϫ i.c.TCR␤ ϩ DP cells to up-regulate CD5 expression (40). However, our results suggest that only ϳ15% of pT␣ Ϫ/Ϫ DP, namely, i.c.TCR␤ ϩ CD5 ϩ cells, are potentially capable of being positively selected.…”

Section: Discussioncontrasting

confidence: 51%

Peripheral T Cell Lymphopenia and Concomitant Enrichment in Naturally Arising Regulatory T Cells: The Case of the Pre-Tα Gene-Deleted Mouse

Bosco

Agenès

Rolink

et al. 2006

The Journal of Immunology

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In pre-Tα (pTα) gene-deleted mice, the positively selectable CD4+CD8+ double-positive thymocyte pool is only 1% that in wild-type mice. Consequently, their peripheral T cell compartment is severely lymphopenic with a concomitant increase in proportion of CD25+FoxP3+ regulatory T cells. Using mixed bone marrow chimeras, where thymic output was 1% normal, the pTα−/− peripheral T cell phenotype could be reproduced with normal cells. In the pTα−/− thymus and peripheral lymphoid organs, FoxP3+CD4+ cells were enriched. Parabiosis experiments showed that many pTα−/−CD4+ single-positive thymocytes represented recirculating peripheral T cells. Therefore, the enrichment of FoxP3+CD4+ single-positive thymocytes was not solely due to increased thymic production. Thus, the pTα−/− mouse serves as a model system with which to study the consequences of chronic decreased thymic T cell production on the physiology of the peripheral T cell compartment.

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Section: Discussioncontrasting

confidence: 51%

Peripheral T Cell Lymphopenia and Concomitant Enrichment in Naturally Arising Regulatory T Cells: The Case of the Pre-Tα Gene-Deleted Mouse

Bosco

Agenès

Rolink

et al. 2006

The Journal of Immunology

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“…A transgenic Rag-reconstitution model allowed analysis of DP thymocytes that rapidly lose expression of Rag-1 and can only undergo an early, single round of TCR␣ recombination (22). In another model, a modified TCR␣ locus was generated by gene targeting that has a very limited capacity for revision of TCR␣ rearrangement (TCR␣ sJ ) (23). In both of these models, the limited ability to rearrange the TCR␣ locus results in decreased SP maturation, as well as accumulation of the TCR lo DP thymocytes.…”

Section: Discussionmentioning

confidence: 99%

ATM deficiency impairs thymocyte maturation because of defective resolution of T cell receptor α locus coding end breaks

Vacchio

Olaru

Livák

et al. 2007

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

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The ATM (ataxia telangiectasia mutated) protein plays a central role in sensing and responding to DNA double-strand breaks. Lymphoid cells are unique in undergoing physiologic doublestrand breaks in the processes of Ig class switch recombination and T or B cell receptor V(D)J recombination, and a role for ATM in these processes has been suggested by clinical observations in ataxia telangiectasia patients as well as in engineered mice with mutations in the Atm gene. We demonstrate here a defect in thymocyte maturation in ATM-deficient mice that is associated with decreased efficiency in V-J rearrangement of the endogenous T cell receptor (TCR)␣ locus, accompanied by increased frequency of unresolved TCR J␣ coding end breaks. We also demonstrate that a functionally rearranged TCR␣␤ transgene is sufficient to restore thymocyte maturation, whereas increased thymocyte survival by bcl-2 cannot improve TCR␣ recombination and T cell development. These data indicate a direct role for ATM in TCR gene recombination in vivo that is critical for surface TCR expression in CD4 ؉ CD8 ؉ cells and for efficient thymocyte selection. We propose a unified model for the two major clinical characteristics of ATM deficiency, defective T cell maturation and increased genomic instability, frequently affecting the TCR␣ locus. In the absence of ATM, delayed TCR␣ coding joint formation results both in a reduction of ␣␤ TCR-expressing immature cells, leading to inefficient thymocyte selection, and in accumulation of unstable open chromosomal DNA breaks, predisposing to TCR␣ locus-associated chromosomal abnormalities.ataxia telangiectasia mutated ͉ recombination ͉ T cell development T he ATM (ataxia telangiectasia mutated) protein, first identified in patients with ataxia telangiectasia syndrome, plays a critical role in sensing and responding to chromatin changes such as DNA double-strand breaks induced by ionizing irradiation (1, 2). ATM is a member of a family of phosphatidylinositol 3-kinase-related proteins that function in cell cycle regulation, monitoring of telomere length, meiotic recombination, and DNA repair (1, 2). After activation by as-yet-incompletely understood signals associated with changes in DNA structure, ATM mediates an early step in the damage response, by phosphorylating a variety of protein targets and activating multiple signal transduction pathways (3-5). The downstream outcomes of these events can include cell cycle arrest and apoptotic cell death.In addition to the well characterized role of ATM in responses to DNA damage caused by environmental insults such as ionizing radiation, both clinical and laboratory observations have indicated that ATM also plays an important role in the unique physiological instances of DNA recombination that occur during development and differentiation of T and B lymphocytes (6-8). The generation of diversity in the antigen-specific receptors of T and B lymphocytes is mediated by induction of DNA breaks by recombinationactivating gene recombinase followed by repair through the nonhomol...

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“…Generation of c-Myc G/G mice Embryonic stem cell transfection, selection and Cre-mediated deletion were carried out as previously described [28]. The pLNTK-c-Myc-GFP targeting vector was generated using a 4.1-kb SphI-DraIII 5 0 homology arm and a 4.4-kb DraIII-HindIII 3 0 homology arm (Fig.…”

Section: Methodsmentioning

confidence: 99%

“…Southern and Northern blot analyses were carried out as previously described [28]. Probe A is a 1.7-kb XbaI genomic fragment from the c-Myc locus and probe C is a 0.4-kb HindIIIKpnI fragment from the c-Myc locus.…”

Section: Southern and Northern Blot Analysesmentioning

confidence: 99%

Dynamic regulation of c‐Myc proto‐oncogene expression during lymphocyte development revealed by a GFP‐c‐Myc knock‐in mouse

et al. 2008

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Abstractc‐Myc induces widely varying cellular effects, including cell proliferation and cell death. These different cellular effects are determined, in part, by c‐Myc protein expression levels, which are regulated through several transcriptional and post‐transcriptional pathways. c‐Myc transcripts can be detected in cells at all stages of B and T lymphocyte development. However, little is known about c‐Myc protein expression, and how it varies, in developing lymphocytes. Here mice have been generated in which the endogenous c‐Myc locus has been modified (c‐MycG) so that it encodes a GFP‐c‐Myc fusion protein. c‐MycG/G mice are viable, appear normal and exhibit grossly normal lymphocyte development. Flow cytometric analyses revealed significant heterogeneity in c‐Myc protein expression levels in developing c‐MycG/G B and T lymphocytes. GFP‐c‐Myc expression levels were highest in proliferating lymphocytes, suggesting that c‐Myc up‐regulation is important for promoting lymphocyte cell division, and demonstrating that GFP‐c‐Myc expression is a marker of proliferating lymphocytes in vivo.

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Revision of T cell receptor α chain genes is required for normal T lymphocyte development

Cited by 42 publications

References 43 publications

Peripheral T Cell Lymphopenia and Concomitant Enrichment in Naturally Arising Regulatory T Cells: The Case of the Pre-Tα Gene-Deleted Mouse

Peripheral T Cell Lymphopenia and Concomitant Enrichment in Naturally Arising Regulatory T Cells: The Case of the Pre-Tα Gene-Deleted Mouse

ATM deficiency impairs thymocyte maturation because of defective resolution of T cell receptor α locus coding end breaks

Dynamic regulation of c‐Myc proto‐oncogene expression during lymphocyte development revealed by a GFP‐c‐Myc knock‐in mouse

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