HLA-Dr-expressing CD8bright cells are only temporarily present in the circulation during subcutaneous recombinant interleukin-2 therapy in renal cell carcinoma patients

Abstract

The effect of subcutaneous recombinant interleukin-2 (rIL-2) therapy on the “activation status” of peripheral blood lymphocytes (PBL) of 17 renal cell carcinoma patients was investigated in a longitudinal study. The expression of the activation markers HLA-Dr and CD25 on cytotoxic T cells, helper T cells, and natural killer (NK) cells, was analysed using two-colour flow cytometry of whole-blood samples. In addition, the ability of isolated PBL to proliferate in vitro in response to various stimuli was investigated. The absolute amounts of NK cells and HLA-DR-expressing NK cells increased continuously during the whole course of therapy. The absolute amounts of T cells and HLA-Dr-expressing T cells, however, showed an early increase only during the first 1 or 2 weeks of therapy, after which the absolute amounts of HLA-Dr-expressing T cells decreased. In particular, the absolute amount of HLA-Dr-expressing CD8bright⁺ T cells was significantly lowered in the second half of therapy. PBL collected on day 7 of therapy (post-cycle-1 PBL) showed, as compared to those collected prior to therapy (pretherapy PBL), a decreased proliferative response in vitro after stimulation with phytohaemagglutinin, concanavalin A, soluble CD3 mAb (WT32) or rIL-2. This decreased in vitro response of post-cycle-1 PBL was also reflected in a decrease in the percentage of CD8bright⁺ T cells expressing HLA-Dr in cultures with rIL-2 or CD3 mAb, in contrast to cultures of pretherapy PBL, which showed an increase of this percentage. We conclude that T cells are the predominantly stimulated subpopulation during the first 2 weeks of subcutaneous rIL-2 therapy. The significant decrease in the absolute amounts of HLA-Dr-expressing T cells in the peripheral blood during the second half of therapy may partly be explained by a decreased responsiveness to rIL-2, but a selective redistribution of HLA-Dr-expressing cells may also be involved.