In a recent investigation carried out on a panel of trimethoxybenzanilides, we showed that the formation of an intramolecular hydrogen bond is a key element for tuning P-gp inhibitory activity. In this study, we designed new structurally simplified trimethoxy benzamides (5-17, Table) with the aim to uncover the minimal molecular requirements needed for P-gp inhibition. The new prepared smaller-sized compounds exhibited IC50 in the low micromolar range. The combined use of NMR and DFT studies suggested that molecular flatness is causatively related to the P-gp inhibition. Our results clearly pointed out that concerted theoretical and experimental approaches herein presented might be very helpful in addressing the design of structurally simplified and highly efficient compounds biasing P-gp protein.
Design, synthesis, biological evaluation, NMR and DFT studies of structurally simplified trimethoxy benzamides as selective P-glycoprotein inhibitors: the role of molecular flatness
Mangiatordi Giuseppe Felice;
2016
Abstract
In a recent investigation carried out on a panel of trimethoxybenzanilides, we showed that the formation of an intramolecular hydrogen bond is a key element for tuning P-gp inhibitory activity. In this study, we designed new structurally simplified trimethoxy benzamides (5-17, Table) with the aim to uncover the minimal molecular requirements needed for P-gp inhibition. The new prepared smaller-sized compounds exhibited IC50 in the low micromolar range. The combined use of NMR and DFT studies suggested that molecular flatness is causatively related to the P-gp inhibition. Our results clearly pointed out that concerted theoretical and experimental approaches herein presented might be very helpful in addressing the design of structurally simplified and highly efficient compounds biasing P-gp protein.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
