Modulation of multidrug resistance in human leukemia cells with mdr1-targeted antisense oligonucleotides using variable treatment schedules.

OBJECTIVE

The purpose of the current study was to characterize the effect of chimeric AS-ODNs encapsulated with cationic lipids on MDR in human leukemia cells and to determine if this modification of the ODN alone or in combination with the cationic lipid might offer advantages over classical ODN treatment with free unmodulated or phosphorothiolated AS-ODNs. Furthermore, we extended the antisense method to the use of AS-ODNs in the parental drug-sensitive leukemia cells which express mdr1-mRNA at a relative low level and lack P170 expression to evaluate the effectiveness of prophylactic AS-ODN treatment.

METHODS

The effect of a 4-day AS-ODN treatment in drug-resistant human leukemia cells which exhibit the classic MDR phenotype at a moderate level was examined. Twenty-four hours after the last ODN administration the cells were analyzed for mdr1-mRNA (quantitative RT-PCR) and P170 expression (FCM), for R123 accumulation/efflux capacity (FCM) and for sensitivity to vincristine (MTT). In the parental drug-sensitive CCRF-CEM cells the mdr1-mRNA expression was assessed 24, 48 and 72 h after AS-ODN treatment administered as free phosphorothioate or conjugated with DMRIE-C.

RESULTS

Cationic lipids produced a clear increase in cellular ODN uptake but also caused an increase in variability of uptake rates (30% vs. 10% variability after free phosphorothioates). Both AS-ODNs inhibit P170 expression whereby the antisense effect of the chimeric ODN seems to be stronger compared to the phosphorothioate (30% vs. 22% MRK16 staining). Consistent with the inhibition of P170 expression, an increased sensitivity to vincristine was observed. In parental drug-sensitive cells, AS-ODN treatment caused nearly complete inhibition of mdr1-mRNA expression (5% of control).

CONCLUSION

The data demonstrate that it is nearly impossible to achieve a complete reversal of the MDR phenotype in drug-resistant cells using AS-ODNs. A more promising approach seems to be the prophylactic treatment with AS-ODNs.