Multidrug resistance phenotype in patients with chronic lymphocytic leukemia as detected by immunofluorescence (FACS) and northern blot analysis.

The multidrug resistance (MDR) phenotype has been demonstrated to be related to the overexpression of P-glycoprotein, a 170 kDa transmembrane efflux pump. We studied P-glycoprotein expression in 40 patients with chronic B-cell leukemias by FACS analysis using MoAb c219, which recognizes both the MDR1 and the MDR3 gene product. We found significantly elevated P-glycoprotein expression in these patients as compared with normal controls. Patients who had received previous chemotherapy regimens containing MDR-related drugs showed significantly higher P-glycoprotein expression with MoAb c219 than those patients who had been untreated. Northern blot analysis of MDR1 and MDR3 gene expression in 32 of the patients gave a similar result: in the analysis of total RNA four of six patients (66%) pretreated with either vinca alkaloids or anthracyclines were MDR1 positive as opposed to 6 of 26 (23%) who had no treatment or treatment without these agents. In contrast, MDR3 expression was found more frequently (63%), but was randomly distributed in the differently treated groups. Increasing the sensitivity level by analysis of enriched mRNA (polyA+RNA) led to the detection of MDR1 and MDR3 expression all B-CLL patients. We conclude that a basic elevated P-glycoprotein expression is intrinsic in CLL cells, which is possibly upregulated under chemotherapy. This might be responsible for initial and acquired chemotherapy resistance in CLL patients. Follow-up of the B-CLL patients over 46 months showed that the median survival time for MDR1+ patients was 19 months as opposed to 46 months for MDR1- patients (p < 0.01). There was no statistical difference in survival between MDR3+ and MDR3- patients. In the MDR1+ group, eight of nine patients had developed resistance to the therapy with MDR-related drugs. The expression of MDR1 might, therefore, predict treatment failure with MDR-related drugs and be a negative prognostic factor.