Hepatitis B surface antigen- and tetanus toxoid-specific clonal expansion of CD4+ cells in vitro determined by TCRBV CDR3 length and nucleotide sequence

Rapid T cell receptor delineation reveals clonal expansion limitation of the magnitude of the HIV-1-specific CD8+ T cell response

TCRs mediate CTL specificity, but TCRs recognizing the same epitope often differ between persons due to their stochastic derivation. The role of this variability in the pathogenesis of virus infections and malignancies has been technically difficult to study. We apply an adaptation of TCR spectratyping to study HIV-specific CTLs, defining the clonal breadth and sequences of epitope-specific TCRs from PBMCs without cellular sorting or molecular cloning. Examining 48 CTL responses in 12 persons reveals a mean of 4.5 ± 2.7 clones per response, of both public and private clonotypes. The number of identified epitope-specific TCRs correlates with CTL frequency across epitopes, suggesting that clonal breadth limits the magnitude of the CTL response against HIV-1 in vivo. HLA A- and B-restricted CTLs are similar in their TCR breadth in this small cohort, preliminarily suggesting that qualitative differences may account for their disparate impacts on pathogenesis. Overall, these findings demonstrate that the magnitude of the CTL response in chronic HIV-1 infection is constrained by TCR clonal breadth, suggesting maximal expansion of CTLs in response to chronic antigenic stimulation.

Analysis of the CDR3 region of alpha/beta T-cell receptors (TCRs) and TCR BD gene double-stranded recombination signal sequence breaks end in peripheral blood mononuclear cells of T-lineage acute lymphoblastic leukemia

Recently, numerous reports have highlighted the restriction of the CDR3 length of T-cell receptor (TCR) beta chain in T-cells infiltrating solid tumors and hematological malignancies. However, these studies ignored the restriction of CDR3 length of TCR alpha chain and few of them attempted to reveal the mechanisms of the oligo-clonal expansion of T cells in the tumors. The primary aims of this study were twofold to: (i) analyze the CDR3 length of TCR alpha and beta chain in peripheral blood mononuclear cells of T-lineage acute lymphoblastic leukemia (T-ALL); and (ii) discover the relationship between the clonality of T cells and the process of TCR rearrangement in peripheral T cells. To this end, we investigated the TCR BV and TCR AV family spectratypes of two T-ALL patients and healthy controls using the immunoscope spectratyping technique. We found that the spectratypes exhibited a Gaussian distribution in healthy controls. However, the TCR repertoires of the two patients were highly restricted in the number of different TCR BV and TCR AV family members present. Furthermore, we found that the peripheral blood mononuclear cells (PBMC) of two T-ALL patients had the recombination signal sequence (RSS) 5'- and 3'-breaks end in the TCR BD2 gene using a specialized ligation-mediated polymerase chain reaction, implying the ongoing recombination of the TCR beta gene. Analysis of the particular CDR3 length of TCR alpha/beta T cells might be helpful for further study of the individualized therapy of T-ALL. This information will also be helpful in exploring new immunological pathogenesis and facilitating the design of a T-ALL vaccine, as well as in improving our understanding of healthy human T-cell development.

Persistent alterations in the T-cell repertoires of HIV-1-infected and at-risk uninfected men

OBJECTIVE

We examined the association between immunogenic exposure and T-cell receptor (TCR) diversity to more clearly assess the impact of HIV-1 infection on the T-cell repertoire.

METHODS

: To estimate the extent of T-cell clonality attributable to HIV-1 infection, we evaluated T-cell repertoires in low-risk and at-risk seronegative men and HIV-1 seropositive men by assessment of T-cell receptor beta-chain (TCR beta) complimentary determining region 3 (CDR3) lengths.

RESULTS

The frequency of T-cell clonality in both HIV-1 infected and at-risk uninfected men was elevated in comparison to low-risk uninfected men. Among low-risk and at-risk seronegative, and HIV-1 seropositive men, clonal expansions were present in 3, 8, and 10% of CD4+ CDR3 lengths, and 18, 22, and 28% of CD8+ CDR3 lengths respectively. In addition, the longitudinal conservation of clonal expansions was observed in at-risk seronegative men. Based on comparisons to at-risk seronegative men, we estimate that at-risk seropositive men with chronic HIV-1 infection exhibit a 27% increase in the number of expanded CD8+ CDR3 lengths.

CONCLUSION

These findings provide an approximation of the magnitude of the T-cell response in individuals undergoing chronic HIV-1 infection and demonstrate a significant association between the history of immunogenic challenge and the magnitude of clonality within the T-cell repertoire. In addition, these findings underscore the necessity of selecting controls with similar antigenic exposure histories when investigating T-cell dynamics in HIV-infected individuals.

Analysis of T-cell receptor beta chain variable gene segment usage in healthy adult responders and nonresponders to recombinant hepatitis B vaccine

One to 10 per cent of healthy adult individuals do not produce protective levels of anti-hepatitis B surface (HBs) antibodies, following a standard vaccination protocol. Lack of an HBs antigen (Ag)-specific T-cell repertoire is amongst the possible defects, which may lead to humoral unresponsiveness and is the main objective of this study. We analysed TcR BV (T-cell receptor beta chain variable) gene usage in T lymphocytes from nine healthy adult responders and six nonresponders to recombinant HB vaccine, before and after booster vaccination. CD4+ and CD8+ T-cell populations were isolated from peripheral blood mononuclear cells by magnetic beads, and the expression of TcR BV genes in each population was investigated by reverse transcription polymerase chain reaction and hybridization with specific probe. When the usage of each TcR BV gene within CD4+ and CD8+ T cells of the responders was compared with that of nonresponders, statistically significant difference (P < 0.01) was noted for BV5S2-3 gene family in CD4+ T cells of nonresponders. Furthermore, individual vaccinees were shown to overexpress several TcR BV genes. To characterize the T-cell repertoire and determine their clonal nature, analysis of CDR3 length polymorphism was performed. Our results show that T-cell response to HBsAg is generally oligoclonal and involves multiple BV families. Furthermore, overexpressed individual TcR BV genes and CDR3 length distributions in response to HBsAg are subject-dependent. In conclusion, our results are not in line with the notion that defective TcR repertoire may be an explanation for unresponsiveness to recombinant HBsAg vaccine.