Differences in the intracellular accumulation of HIV protease inhibitors in vitro and the effect of active transport

Abstract

To investigate the intracellular accumulation of HIV protease inhibitors (PI) and to assess the effect of active transport on this accumulation. CEM cells were incubated with a PI for 18 h and the intracellular concentration determined using cell number and radioactivity. The effect of active transport was investigated using cells expressing P-glycoprotein (CEMVBL) and cells expressing multidrug resistance-associated protein 1 (MRP1; CEME1000). Incubations were also carried out at 4°C and in the presence of 2-deoxyglucose plus rotenone to examine the effect of inhibiting active transport. Nelfinavir (NFV) accumulated to the greatest extent (> 80-fold) followed by saquinavir (SQV; ∼ 30-fold), ritonavir (RTV; 3–7-fold) and finally indinavir (IDV; extracellular equivalent to intracellular). In CEMVBL cells there was a significant reduction in the intracellular accumulation of NFV, SQV and RTV and in CEME1000 cells there was reduced accumulation of SQV and RTV. Inhibition of active transport processes caused a reduction in SQV and RTV accumulation but had no effect on IDV accumulation in all cell types. NFV accumulation was increased in CEMVBLcells as a result of inhibition of active transport. Marked differences can be detected in the intracellular accumulation of HIV PI drugs in vitro. Both P-glycoprotein and MRP1 may play a role in limiting the intracellular concentration of the PI and active influx mechanisms may contribute to drug accumulation.