Abstract
P-glycoprotein (P-gp)-caused multidrug resistance (MDR) is a crucial factor in the cancer chemotherapy failure. Herein, a total of twenty two azo-containing WK-X-34 (WK34, a third generation P-gp inhibitor) derivatives were synthesized as novel P-gp inhibitors. Biological evaluation revealed that compound 7i effectively reversed P-gp-mediated MDR in K562/A02 cells, with a higher reversal fold (RF) value than WK34 (142.79 vs. 64.41). Further investigation indicated that 7i dose-dependently inhibited P-gp function, without affecting its expression. CETSA results illustrated that 7i could obviously improve P-gp stability, suggesting its high affinity with P-gp. Molecular docking analysis revealed that 7i fit well into P-gp's binding pocket, thus displaying potent reversal effect on P-gp-mediated tumor MDR Optical properties evaluation confirmed that azo-containing 7i can undergo reversible changes in the cis and trans configurations under the irradiation of 365 nm and 520 nm wavelength of light. Notably, the configuration change of azo might affect the MDR-reversal potency, and cis-7i has a lower RF value than trans-7i (122.70 vs. 142.79), suggesting that development of photoswitchable P-gp inhibitors might be a novel strategy to reduce the systemic toxicity caused by indiscriminate inhibition of P-gp by traditional inhibitors. Collectively, 7i, as a novel P-gp inhibitor, warranted further investigation.
Published Version
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