We compared bcl-2 with P-glycoprotein expression (C494 and JSB1), and both with ex vivo chemosensitivity by Differential Staining Cytotoxicity (DiSC) assay (25 cytotoxic drugs), in 76 fresh haematological specimens, including 51 chronic lymphocytic leukaemias (CLL). Strong correlations were seen between bcl-2 and Pgp expression in both CLL (r = 0.5; p < 0.001) and AML (r = 0.9; p < 0.001) although bcl-2 expression was only raised in Pgp positive cells. However, there was no correlation between high or low marker levels and either ex vivo drug sensitivity (-0.30 < r < 0.37; p all > 0.1) or patient survival (chi 2 < or = 0.1; p > 0.7). One B-CLL, one PLL and one hairy cell leukaemia were negative for both bcl-2 and Pgp, whilst 3 T-cell specimens were bcl-2 negative but strongly positive for Pgp. These results suggest that the expression of Pgp and bcl-2 may be interlinked and related to immunophenotype and that clinical sensitivity to MDR-inducing and/or apoptosis-inducing drugs is best determined by ex vivo chemosensitivity testing rather than measurement of Pgp or bcl-2 expression.
The drug sensitivity of normal cells provides a baseline for determining the therapeutic index, and therefore the effectiveness, of cytotoxic drugs, yet little is known about the factors that affect normal cell chemosensitivity. Some parameters are known to have a profound effect on tumor cell sensitivity. The purpose of this study was to determine how cytotoxic drug sensitivity of hematopoietic cells isolated from cancer patients was affected by various parameters. These included previous chemotherapy (yes or no), sex, age, tumor type (leukemias or solid tumors), sample source (blood, bone marrow, serous effusions, or tumor biopsies) and predominant cell lineage (lymphoid, myeloid, macrophage, or mixed). Mononuclear cells isolated from blood, bone marrow, serous effusions, and tumor biopsies were incubated for four days with a median of 16 drugs. The differential staining cytotoxicity assay, an ex vivo apoptotic drug sensitivity test in which cell survival is determined morphologically, was used to assess normal hematopoietic and tumor cell response to cytotoxic drugs. One hundred forty-six specimens yielded hematopoietic cell chemosensitivity results with 3-36 drugs. Compared with tumor cells, there was far less interpatient variation in chemosensitivity of hematopoietic cells. Mean hematopoietic cell drug sensitivity showed little variation due to previous chemotherapy, sex, age, tumor type, and sample source or cell lineage. We therefore concluded that cytotoxic drug sensitivity of hematopoietic cells from a variety of sources could be used for assessment of therapeutic index. Drug therapeutic index results are a valuable tool in identifying novel cytotoxic agents and individually tailored chemotherapy regimens.
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