Abstract
Regulatory cells may have a modulatory effect on alloreactive phenomena following hematopoietic stem cell transplantation (HSCT), although their role in this setting in patients remains controversial. We have analysed the effect of pre-conditioning peripheral blood levels of T-regs on the outcome of 89 adult patients undergoing HLA-identical (10/10) unrelated donor (UD)-HSCT. Allografts were T-cell depleted with Alemtuzumab, which has been described to spare T-regs from, and we found that higher proportion of CD4+CD25hi T-cells correlated with worse survival (p=0.002). This higher proportion also correlated with higher incidence of relapse (p=0.0274) and with higher incidence of chronic (c) GvHD (p=0.033) but not with the incidence of aGvHD.
Regulatory T cells (T-regs) are a naturally occurring regulatory population of CD4+CD25hi T-cells known to express the transcription repressor FoxP3 and to produce anti-inflammatory cytokines such as TGFβ and may therefore affect patient survival. We analyse the profile of the CD4+CD25hiT cells in our cohort. In our healthy donor control group (n=30), CD4+CD25hi-expression associated with both, FoxP3 mRNA-levels (r=0.649; p=0.001) and TGFβ production (r=0.912; p<0.001), as previously described for T-regs. In preconditioning patient samples however, CD4+CD25hi-expression had a strong correlation with TGFβ regulatory cytokine production (r=0.863; p<0.001) as expected. However, FoxP3 mRNA-expression correlated neither with the CD4+CD25hi T-regs phenotype (r=0.280; p=0.040), nor with the production of TGFβ (r=0.229; p=0.156), and appeared not be an accurate marker for regulatory T-cell function in this patient setting. In addition, an inverse correlation with TNFα expression (r=−0.458 p<0.001) was found that may argue that the CD4+CD25hi cells represent a true regulatory population and not activated cells. This suggests either that activated cells that are not expressing FOXP3 might be included in the CD4+CD25hi population or that CD4+CD25loFOXP3+ cells have not acquire the regulatory function (i.e. they are not expressing TGFβ).
In summary, CD4+CD25hi Regulatory T cells may have an impact suppressing allo-responses against the tumour, decreasing the overall survival by increasing the rates of relapse.
Although, in mice CD4+CD25hi population have been clearly identified by the expression of the FOXP3, which encodes a transcription repressor, in humans this remains controversial, where FOXP3 expression is not exclusive of the CD4+CD25hi population.
Relying on the expression of CD4+CD25hi and FOXP3 in patients is insufficient to determine regulatory T cell numbers and suggests that other parameters of regulatory function should be taken in to account.
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