TY - JOUR
T1 - Evidence of T cell clonality in the infectious tolerance pathway
T2 - Implications toward identification of regulatory T cells
AU - Zhai, Yuan
AU - Li, Jiye
AU - Hammer, Markus
AU - Busuttil, Ronald W.
AU - Volk, Hans Dieter
AU - Kupiec-Weglinski, Jerzy W.
PY - 2001/6/27
Y1 - 2001/6/27
N2 - We have shown that a rare population of regulatory CD4+ T cells plays a key role in the acquisition of infectious tolerance in rat sensitized recipients of cardiac allografts pretreated with nondepleting anti-CD4 mAb. This study was designed to analyze the TCR Vβ expression patterns in this transplantation model. First, we used Vβ-specific RT-PCR to show that there was no differential usage of TCR Vβ genes by T cells mediating rejection or tolerance. Indeed, graft-infiltrating lymphocytes expressed most of the 22 known rat TCR Vβ genes in both recipient groups, suggesting unrestricted TCR Vβ repertoire in alloreactive T cells. Then, we applied CDR3 spectrotyping of TCR β-chain to assess the clonality of T cells at different anatomic sites. CDR3 size restriction, indicative of the presence of T cell clones, was observed in graft-infiltrating lymphocytes but not in draining lymph nodes or spleen of tolerant hosts. Consisent with the clonal expansion, T cells in tolerated grafts exhibited the memory phenotype at a much higher percentage as compared with peripheral lymphoid organs. Moreover, in tolerated graft-infiltrating lymphocytes, the CD3 size restriction occurred in limited Vβ gene families, with V β8.1 and V β18 most frequently detected. Hence, T cells at the graft site of tolerant recipients contain T cell clones expressing selective Vβ genes. This phenotypic characteristics of the tolerogenic GILs may potentially be used as a novel marker to identify operational regulatory T cells in organ allograft recipients.
AB - We have shown that a rare population of regulatory CD4+ T cells plays a key role in the acquisition of infectious tolerance in rat sensitized recipients of cardiac allografts pretreated with nondepleting anti-CD4 mAb. This study was designed to analyze the TCR Vβ expression patterns in this transplantation model. First, we used Vβ-specific RT-PCR to show that there was no differential usage of TCR Vβ genes by T cells mediating rejection or tolerance. Indeed, graft-infiltrating lymphocytes expressed most of the 22 known rat TCR Vβ genes in both recipient groups, suggesting unrestricted TCR Vβ repertoire in alloreactive T cells. Then, we applied CDR3 spectrotyping of TCR β-chain to assess the clonality of T cells at different anatomic sites. CDR3 size restriction, indicative of the presence of T cell clones, was observed in graft-infiltrating lymphocytes but not in draining lymph nodes or spleen of tolerant hosts. Consisent with the clonal expansion, T cells in tolerated grafts exhibited the memory phenotype at a much higher percentage as compared with peripheral lymphoid organs. Moreover, in tolerated graft-infiltrating lymphocytes, the CD3 size restriction occurred in limited Vβ gene families, with V β8.1 and V β18 most frequently detected. Hence, T cells at the graft site of tolerant recipients contain T cell clones expressing selective Vβ genes. This phenotypic characteristics of the tolerogenic GILs may potentially be used as a novel marker to identify operational regulatory T cells in organ allograft recipients.
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U2 - 10.1097/00007890-200106270-00001
DO - 10.1097/00007890-200106270-00001
M3 - Article
C2 - 11455246
AN - SCOPUS:0035958209
SN - 0041-1337
VL - 71
SP - 1701
EP - 1708
JO - Transplantation
JF - Transplantation
IS - 12
ER -