De Novo Expression of ATP Binding Cassette C1 (ABCC1) on T-ALL Cells Confers Resistance to Vincristine Independent of an MDR1 Phenotype.

Acquired drug resistance eventually leads to treatment failure in T-cell acute lymphoblastic leukemia (T-ALL). To define mechanisms of vincristine (VCR)-resistance, and to address whether inducible resistance in T-ALL might be mechanistically-dependent on ABC drug transporter expression, we developed VCR-resistant Sup T1 and Jurkat by incrementally growing cells in increasing drug concentrations. Jurkat (CD1a⁻, sCD3⁺) and Sup T1 (CD1a⁺, sCD3⁻) are arrested at “mature” and “cortical” stages of T-cell development and, respectively, showed 1190-fold (0.0006 μM to 0.714 μM) and 790-fold (0.0006 μM to 0.474 μM) increased resistance to VCR. Microarray analysis showed that expression of the ATP Binding Cassette C1 (ABCC1; Multidrug Resistance Protein, MDR2) was increased more than 29-fold in VCR-resistant cells as compared to the parental controls; fold increases in mRNA of ABCC1 were confirmed by RT-PCR, and cell surface expression by flow cytometric analysis. We then employed a flow cytometry-based assay that measures the ability of ABC pumps to extrude fluorescent dyes (Calcein AM). We confirmed that VCR-resistant Jurkat and Sup T1 actively extrude Calcein AM; drug extrusion was also effectively blocked by verapamil and other known ABCB1 antagonists. In contrast to our previous observations for ABCB1-mediated multidrug resistance (