Potential Role of γδ T Cell-Derived IL-17 in Acute Cardiac Allograft Rejection
Naoyuki KimuraSusumu NakaeSatoshi ItohDenis R. MerkXi WangYongquan GongHomare OkamuraPaul ChangHideo AdachiRobert C. RobbinsMichael P. Fischbein
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Abstract Determination of percentages of CD4+ and CD8+ T cells from patients with human immunodeficiency virus infection is usually done by flow cytometric analysis. We compared a cell marker ELISA with flow cytometry for quantitation of CD4 and CD8 molecules on T lymphocytes, and correlated the values both with the number of CD4+ and CD8+ T lymphocytes and with clinical data. Results by cell marker ELISA (y) correlated well with those by flow cytometric analysis (x); r = 0.69, P < 0.001 (y = 0.01x + 3.9) for CD4; r = 0.81, P < 0.001 (y = 0.03x + 5.4) for CD8; n = 343. The ELISA detected changes in numbers of CD8 molecules on the cells earlier than flow cytometry recognized changes in CD8+ T-cell counts. The advantages of the ELISA are the small sample volume required (0.5 mL of blood), its internal standardization by a CD4+/CD8+ cell line, and its simple and fast performance. The cell marker ELISA appears to be an efficient alternative to flow cytometry.
CD4-CD8 Ratio
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Intratumor heterogeneity (ITH) of T cell receptor (TCR) repertoire in different T-cell subsets and locations in lung adenocarcinomas was unclear. Here, we investigated percentages and TCR repertoire of freshly isolated CD4+ and CD8+ tumor infiltrating lymphocytes (TILs) in tumor centers and margins by flow cytometry on 80 tumor samples from 20 patients and high-throughput TCR sequencing on 27 and 25 samples of CD4+ and CD8+ TILs from seven patients. Our results demonstrated that amount and TCR repertoire diversity of CD4+ TILs were significantly higher than those of CD8+ TILs and moreover substantial ITH regarding amount and TCR repertoire of CD4+ and CD8+ TILs were observed. Additionally, ITH of CD4/CD8 T-cell ratio and CD8+ TIL repertoire across center regions was lower than that across margin regions. The amount and TCR repertoire ITH of CD4+ and CD8+ TILs and mean clonality of CD8+ TILs in tumor centers were associated with relapse. Our study provides insights into amount and TCR repertoire ITH of CD4+ and CD8+ TILs in tumor centers and margins as well as corresponding association with prognosis in lung adenocarcinoma patients, suggesting potential clinical significance of TCR repertoire.
Tumor-infiltrating lymphocytes
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Differentiation of immature CD4+ CD8+ thymocytes into mature CD4+ or CD8+ T cells occurs within the thymus and is dependent upon expression of antigen receptor complexes (T cell receptor [TCR]) containing clonotypic alpha/beta proteins. We have recently found that CD4+ CD8+ thymocytes express low levels of surface TCR because of limitations placed on TCR assembly by the instability of nascent TCR-alpha proteins within the endoplasmic reticulum (ER) of immature thymocytes. Because TCR-alpha/beta expression increases during development, a molecular mechanism must exist for increasing the number of assembled TCR complexes present in immature CD4+ CD8+ thymocytes that have been signaled to differentiate into mature T cells, although no such mechanism has yet been described. In the current report we have examined the molecular consequences of intracellular signals generated by engagement of surface TCR complexes on immature CD4+ CD8+ thymocytes. Isolated TCR engagement generated signals that increased TCR-alpha RNA levels and increased synthesis of TCR-alpha proteins, which, in turn, significantly increased assembly of complete TCR-alpha/beta complexes in CD4+ CD8+ thymocytes. Increased TCR-alpha protein levels in TCR-signaled CD4+ CD8+ thymocytes was the result of increased synthesis and not increased stability of TCR-alpha proteins, indicating that TCR engagement compensates for, but does not correct, the inherent instability of TCR-alpha proteins in the ER of immature thymocytes. Consistent with the delivery by TCR engagement of a positive selection signal, TCR engagement also increased CD5 expression, decreased RAG-1 expression, and decreased CD4/CD8 coreceptor expression in immature CD4+ CD8+ thymocytes. These data identify amplified TCR-alpha expression as an initial response of immature CD4+ CD8+ thymocytes to TCR-mediated positive selection signals and provide a molecular basis for increased surface TCR density on developing thymocytes undergoing selection events within the thymus.
Thymocyte
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CD4(-)CD8(-) thymocytes expressing a transgenic T cell receptor (TCR) alpha chain have decreased capacity to give rise to CD4(+)CD8(+) thymocytes when compared with wild-type thymocytes. This inefficient CD4(-)CD8(-) to CD4(+)CD8(+) maturation is mediated by the transgenic TCR alpha chain pairing with endogenous TCR beta chain but not with endogenous TCR gamma chain. Comparison between TCR alpha chain-transgenic mice with or without a functional pre-TCR alpha (pT alpha ) chain reveals that the formation of transgenic alpha/endogenous beta TCR on CD4(-)CD8(-) thymocytes inhibits the formation of pre-TCR, but at the same time mediates CD4(-)CD8(-) to CD4(+)CD8(+) maturation in the absence of pre-TCR, albeit inefficiently. These results indicate that alpha beta TCR and pre-TCR provide different signals for thymocyte development. They also suggest that the precise regulation of the sequential rearrangements of TCR beta and alpha loci and the cellular expansion induced by the pre-TCR may both be evolved to ensure the efficient generation of mature alpha beta T cells.
Thymocyte
BETA (programming language)
Allelic exclusion
Alpha chain
Alpha (finance)
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Abstract While a highly diverse T-cell receptor (TCR) repertoire is the hallmark of a healthy adaptive immune system, relatively little is understood about how the CD4 + and CD8 + TCR repertoires differ from one another. We here utilize high-throughput single T-cell sequencing to obtain approximately 100,000 TCR αβ chain pairs from human subjects, stratified into CD4 + and CD8 + lineages. We reveal that substantial information about T-cell lineage is encoded by V αβ gene pairs and, to a lesser extent, by several other TCR features such as CDR3 length and charge. We further find that the strength of association between the β chain and T-cell lineage is surprisingly weak, similar in strength to that of the α chain. Using machine learning classifiers to predict T-cell lineage from TCR features, we demon-strate that αβ chain pairs are significantly more informative than individual chains alone. These findings provide unprecedented insight into the CD4 + and CD8 + TCR repertoires and highlight the importance of αβ chain pairing in TCR function and specificity.
Lineage (genetic)
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Objective To investigate the variation of T lymphocyte subsets in peripheral blood of the patients with tumor and their clinical significance.Methods The T lymphocyte subsets in peripheral blood from patients with tumor n = 27 and healthy controls n = 25 were detected with flow cytometry.Results The CD3+ T cells,CD4+ T cells and CD4+/CD8+ ratio in patients with tumor were significantly lower than that in the control group.Comparied with the control group the CD8+ T cells in patients with tumor were significantly higher P 0.01 .Conclusion The immunological function of patients with tumor was decreased.The flow cytometry is a rapid,sensitive and accurate measure to detect the immunological function of patients with tumor.It can play an important role in evaluating the curative effect and prognosis of the disease.
Cytometry
Peripheral blood lymphocyte
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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 subset. cDNA derived from TCR alpha/beta- CD4+CD8+ blasts allowed us to identify and clone the gene encoding the human pT alpha chain, and to examine its expression at different stages of thymocyte development. Our results show that high pT alpha transcription occurs only in CD4+CD8- and CD4+CD8+ TCR alpha/beta- thymocytes, whereas it is weaker in earlier and later stages of development. Based on these results, we propose that the transition from TCR alpha/beta- CD4+CD8- to TCR alpha/beta- CD4+CD8+ thymocytes represents a critical developmental stage at which the successful expression of TCR beta promotes the clonal expansion and further maturation of human thymocytes, independent of TCR alpha.
Thymocyte
BETA (programming language)
Alpha (finance)
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