Abstract
The acquisition of multidrug resistance (MDR) to chemotherapy is a major obstacle to successful cancer treatment. Aiming to improve the potency of anthraquinone-derived antitumor compounds against MDR cancer cells, we employed a rational design approach to develop new heteroarene-fused anthraquinones. Shifting the carboxamide group in the naphtho[2,3-f]indole scaffold from the 3-position to 2 increased the lipophilicity and P-glycoprotein (P-gp) binding of the derivatives, potentially enhancing their ability to circumvent P-gp-mediated MDR. To validate the computations, we developed a scheme for heterocyclization into esters of naphtho[2,3-f]indole-2-carboxylic acid, based on the 5-endo-dig cyclization of 2-alkynyl-3-amino-1,4-dimethoxyanthraquinone under mild basic conditions using tetra-n-butylammonium fluoride (TBAF). The synthesized naphthoindole-2-carboxamides, particularly compound 1a bearing (S)-3-aminopyrrolidine in the carboxamide fragment, demonstrated the highest antiproliferative activity. Most importantly, 1a suppressed the growth of the P-gp-positive K562/4 leukemia tumor cell line (resistance index = 2.4), while its 3-isomer LCTA-2640 and Dox did not (RI = 125 and 140, respectively). Studies of intracellular uptake and distribution showed that 1a, unlike its 3-substituted isomer, effectively accumulated in resistant tumor cells, confirming the correlation between in silico and experimental data. The lead compound 1a interacts with DNA duplex and inhibits topoisomerase 1 but does not induce oxidative stress. Treatment with 1a increases the population of apoptotic cells in both K562 and K562/4 sublines, regardless of the cell cycle phase. Taken together, this work provides an interesting example of how a little modification in chemical structure can lead to striking differences in antitumor properties. In conclusion, we have identified a potent class of compounds that offer distinct advantages in combating resistant tumor cells.
Published Version
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