Amplification of TCRβ gene rearrangements from micromanipulated single cells:: T cells resetting around Hodgkin and Reed-Sternberg cells in Hodgkin's disease are polyclonal

Despite accounting for only a minor fraction of all cells in Hodgkin's lymphoma tissue, the Hodgkin and Reed-Sternberg (HRS) cells represent the malignant tumor cell clone in Hodgkin's disease (HD). By far the most abundant cell type in the tumor tissue are CD4(+) T cells. Some of them intimately associate with HRS cells forming rosettes around them. This study addresses the question whether the resetting phenomenon reflects a specific interaction between T and HRS cells by asking whether the rosettes are composed of T cells expressing a restricted TCR repertoire. Single rosetting T cells were micromanipulated from frozen sections of tumor tissue in two cases of nodular sclerosing HD and one case of lymphocyte predominant HD. TCR V beta gene rearrangements were amplified from these single cells by PCR. Of 83 potentially functional V beta gene rearrangements obtained altogether from the three cases, 81 were found to be clonally unrelated. Furthermore, they did not show signs of selection of the receptor chains for recognition of common epitopes: The usage of V beta and J beta gene segments as well as the distribution of complementarity-determining region (CDR) 3 lengths was similar to what was seen in a collection of 60 V beta gene rearrangements from blood of healthy donors and no recurrent CDR3 amino acid motifs were found. These data suggest that the HRS cells attract CD4(+) T cells nonspecifically.