The success of imatinib therapy in chronic myeloid leukemia is highly influenced by its active transport into target cells. However, the methodology for analytical evaluation of intracellular drug concentration is rare and usually reliant upon the use of radioactively labeled drugs. More specifically, there is no published method available in the literature for the determination of imatinib concentration in granulocytes. To gain further insight into the intracellular drug uptake a very reliable two-stage sample concentration procedure was devised and coupled with a sensitive ultra-high performance liquid chromatography tandem mass spectrometry. The reliability of this sample preparation and sensitivity of the analysis was confirmed by a successful validation of all necessary method parameters to an impressive lower limit of quantification of 0.5 ng imatinib per 106 cells still at the signal to noise ratio of 670. The usefulness of the method is further improved with only 6 mL of blood being necessary for patient analysis. The method has been applied to blood samples of 13 CML patients treated with imatinib and all the measured intracellular drug concentrations were within the validated range. These and further measurements will enable the research of factors which may, besides blood plasma concentration, influence the individual's response to imatinib therapy. Furthermore, individualisation of dosing based on the directly measured targeted drug delivery could be possible.
COBISS.SI-ID: 3441521
Imatinib is a potent selective inhibitor of tyrosine kinases and is used primarily in the treatment of chronic myeloid leukemia and the gastrointestinal stromal tumour. Although, it is well established that imatinib is a substrate of several transport proteins which are also active in the intestinal mucosa, the mechanisms of imatinib intestinal absorption and elimination were not systematically investigated yet. To do that, we used a Sweetana-Grass type of diffusion chambers with segments of rat intestine as a model of the intestinal mucosa, measured the permeability coefficients of imatinib and its major metabolite (N-desmethyl imatinib) in both directions with and without specific and general inhibition of active transport, and calculated the efflux ratios. The results show that the good bioavailability of imatinib is highly likely achieved by its active absorption from the intestine and that its active elimination through the intestinal mucosa is mediated by a synergistic activity of organic cation transporter 1 in the basolateral membrane and the added activity of two efflux proteins (P-glycoprotein and breast cancer resistant protein) in the apical membrane of enterocytes of the rat ileum. Interestingly, it was found that N-desmethyl imatinib is only transported by P-glycoprotein.
COBISS.SI-ID: 3566705