A Chemical Strategy To Manipulate the Intracellular Localization of Drugs in Resistant Cancer Cells

A number of multidrug-resistant (MDR) cancer cells have been shown to have acquired an increased capacity to sequester weakly basic anticancer drugs in their lysosomes relative to drug-sensitive counterparts. In this report we have comparatively evaluated the concentrations of the anticancer agent daunorubicin (DNR) in intracellular compartments of drug-sensitive and MDR HL-60 cell lines, both of which do not express common efflux transporters such as P-glycoprotein at the plasma membrane. Our results suggest that lysosomal sequestration plays a significant role in the emergence of MDR since it effectively limits the drug's ability to interact with target molecules located in the nucleus. Using a series of weakly basic structural isomers with variable basicity, we illustrate that the magnitude of the pK a value correlates with the degree of lysosomal sequestration. Accordingly, a series of structurally modified forms of DNR with reduced basicity were synthesized, and their intracellular distribution was evaluated. Consistent with model compounds, derivatives of DNR with lowered pK a values showed visibly reduced lysosomal sequestration in two separate MDR cell lines. Collectively, this work highlights the importance of understanding the intracellular localization of drugs and proposes a rational strategy to manipulate it.