High-sequence diversity and structural conservation in the human T-cell receptor β junctional region during thymic development (original) (raw)
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Proceedings of the National Academy of Sciences, 1998
A rearranged T cell receptor (TCR) V␣ and J␣ gene from a cytochrome c-specific T cell hybridoma was introduced into the genomic J␣ region. The introduced TCR ␣ chain gene is expressed in a majority of CD3 positive and CD4 CD8 double-negative immature thymocytes. However, only a few percent of the double-positive and single-positive thymocytes express this TCR ␣ chain. This decrease is caused by a rearrangement of TCR ␣ chain locus, which deletes the introduced TCR gene. Analysis of the mice carrying the introduced TCR ␣ chain and the transgenic TCR  chain from the original cytochrome c-specific T cell hybridoma revealed that positive selection efficiently rescues double-positive thymocytes from the loss of the introduced TCR ␣ chain gene. In the mice with negatively selecting conditions, T cells expressing the introduced TCR ␣ chains were deleted at the double-positive stage. However, a large number of thymocytes escape negative selection by using an endogenous TCR ␣ chain created by secondary rearrangement maintaining normal thymocyte development. These results suggest that secondary rearrangements of the TCR ␣ chain gene play an important role in the formation of the T cell repertoire.
Alteration of T-cell Receptor Repertoires During Thymic T-cell Development
Scandinavian Journal of Immunology, 2006
The majority of thymocytes die in the thymus, whereas small populations of T cells that are able to specifically recognize an antigen are considered to survive. Although the thymic selection is thought to have a profound effect on T-cell receptor (TCR) repertoire, little is known how TCR repertoire is formed during the thymocyte developmental process. We examined TCRa-and b-chain variable regions (TCRAV and TCRBV) repertoire in thymic T-cell subpopulations from mice bearing different major histocompatibility (MHC) haplotypes. In Balb/c mice, but not C57BL/6, remarkable alterations of the TCR repertoire were observed in mature T-cell subpopulations as previously reported. In contrast, there were no significant differences of TCRBV repertoire between DN3 (CD25 + CD44 ) ) and DN4 (CD25 ) CD44 ) ), and between DN4 and DP. These results suggest that (1) TCR repertoire of mature T cells was formed mainly under the influence of endogenous superantigens, while MHC haplotypes played the least role; (2) the 'b-selection' process during immature stages had little impact on TCRBV repertoire formation; and (3) TCR repertoire in immature T-cell subpopulations was extremely similar between different strains of mice. We thus consider that pre-selection TCR repertoire in immature T cells could be determined by some genetic factors conserved among different strains.
Blood, 1999
Recent studies have identified several populations of progenitor cells in the human thymus. The hematopoietic precursor activity of these populations has been determined. The most primitive human thymocytes express high levels of CD34 and lack CD1a. These cells acquire CD1a and differentiate into CD4(+)CD8(+) through CD3(-)CD4(+)CD8(-) and CD3(-)CD4(+) CD8alpha+beta- intermediate populations. The status of gene rearrangements in the various TCR loci, in particular of TCRdelta and TCRgamma, has not been analyzed in detail. In the present study we have determined the status of TCR gene rearrangements of early human postnatal thymocyte subpopulations by Southern blot analysis. Our results indicate that TCRdelta rearrangements initiate in CD34(+)CD1a- cells preceding those in the TCRgamma and TCRbeta loci that commence in CD34(+)CD1a+ cells. Furthermore, we have examined at which cellular stage TCRbeta selection occurs in humans. We analyzed expression of cytoplasmic TCRbeta and cell-su...
Crossreactive public TCR sequences undergo positive selection in the human thymic repertoire
Journal of Clinical Investigation
We investigated human T-cell repertoire formation using high throughput TCRβ CDR3 sequencing in immunodeficient mice receiving human hematopoietic stem cells (HSCs) and human thymus grafts. Replicate humanized mice generated diverse and highly divergent repertoires. Repertoire narrowing and increased CDR3β sharing was observed during thymocyte selection. While hydrophobicity analysis implicated self-peptides in positive selection of the overall repertoire, positive selection favored shorter shared sequences that had reduced hydrophobicity at positions 6 and 7 of CDR3βs, suggesting weaker interactions with self-peptides than unshared sequences, possibly allowing escape from negative selection. Sharing was similar between autologous and allogeneic thymi and occurred between different cell subsets. Shared sequences were enriched for allo-crossreactive CDR3βs and for Type 1 diabetes-associated autoreactive CDR3βs. Single-cell TCR-sequencing showed increased sharing of CDR3αs compared to CDR3βs between mice. Our data collectively implicate preferential positive selection for shared human CDR3βs that are highly cross-reactive. While previous studies suggested a role for recombination bias in producing "public" sequences in mice, our study is the first to demonstrate a role for thymic selection. Our results implicate positive selection for promiscuous TCRβ sequences that likely evade negative selection, due to their low affinity for self-ligands, in the abundance of "public" human TCRβ sequences.
TCR repertoire selection in the thymus and peripheral T cell
2007
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Nature Communications, 2019
The αβ T cell receptor (TCR) repertoire on mature T cells is selected in the thymus, but the basis for thymic selection of MHC-restricted TCRs from a randomly generated pre-selection repertoire is not known. Here we perform comparative repertoire sequence analyses of pre-selection and post-selection TCR from multiple MHC-sufficient and MHC-deficient mouse strains, and find that MHC-restricted and MHC-independent TCRs are primarily distinguished by features in their non-germline CDR3 regions, with many pre-selection CDR3 sequences not compatible with MHC-binding. Thymic selection of MHC-independent TCR is largely unconstrained, but the selection of MHC-specific TCR is restricted by both CDR3 length and specific amino acid usage. MHC-restriction disfavors TCR with CDR3 longer than 13 amino acids, limits positively charged and hydrophobic amino acids in CDR3β, and clonally deletes TCRs with cysteines in their CDR3 peptide-binding regions. Together, these MHC-imposed structural constrai...
Regulation of pre-T cell receptor (pTα-TCRβ) gene expression during human thymic development
Journal of Experimental Medicine
In murine T cell development, early thymocytes that productively rearrange the T cell receptor (TCR) beta locus are selected to continue maturation, before TCR alpha expression, by means of a pre-TCR alpha- (pT alpha-) TCR beta heterodimer (pre-TCR). The aim of this study was to identify equivalent stages in human thymocyte development. We show here that variable-diversity-joining region TCR beta rearrangement and the expression of full-length TCR beta transcripts have been initiated in some immature thymocytes at the TCR alpha/beta- CD4+CD8- stage, and become common in a downstream subset of TCR alpha/beta- CD4+CD8+ thymocytes that is highly enriched in large cycling cells. TCR beta chain expression was hardly detected in TCR alpha/beta- CD4+CD8- thymocytes, whereas cytoplasmic TCR beta chain was found in virtually all TCR alpha/beta- CD4+CD8+ blasts. In addition, a TCR beta complex distinct from the mature TCR alpha/beta heterodimer was immunoprecipitated only from the latter subs...
Analysis of T cell receptor ? chains in rat thymus, and rat C? and C ? sequences
Immunogenetics, 1988
In development, T cells first express their c~/3 antigen receptors in the thymus, where they may undergo selection processes leading to major histocompatibility complex (MHC) restriction and tolerance. A high proportion of thymocytes are thought to fail this selection in some way and to be destined for intrathymic death. These cells are categorized as the" cortical type" since they constitute most of the cortical cells; they express both CD4 and CD8 antigens but only very low levels of MHC class I antigens. One suggested cause of thymocyte death is a failure to produce a functional c~/3 T cell receptor (Tcr) due to errors in the rearrangements of germline DNA, resulting in V regions being absent or incorrectly spliced to the other segments of the transcribed gene. We have sequenced from the C region through to the V region of 14 rat Tcr /3 Chain clones isolated from thymocyte cDNA libraries. Of the 14, 13 have complete and correct rearrangements, whereas one was expressed from an unrearranged gene. Most of these clones are likely to be derived from the cortical population, for Northern blot analysis showed that these cells and total thymocytes expressed similar amounts of/3 chain mRNA. Furthermore, the RNA from cortical-type cells contained a very similar ratio of full-length to truncated/3 chain mRNA as did activated thymocytes and mature T lymphocytes. The data imply that defective/3 chain gene rearrangement is not a major cause of failure in the selection of thymocytes. The sequences of the rat Tcr c~ and /3 chain constant regions are also reported.