Optimizing the Flavanone Core Toward New Selective Nitrogen-Containing Modulators of ABC Transporters

Ricardo J. Ferreira; Rafael Baptista; Alexis Moréno; Patricia G Madeira; Ruttiros Khonkarn; Hélène Baubichon‐Cortay; Daniel J. V. A. dos Santos; Pierre Falson; Maria‐José U. Ferreira

doi:10.4155/fmc-2017-0228

Optimizing the Flavanone Core Toward New Selective Nitrogen-Containing Modulators of ABC Transporters

Ricardo J. Ferreira(University of Lisbon), Rafael Baptista(University of Lisbon), Alexis Moréno(Institut de Biologie et de Chimie des Protéines), Patricia G Madeira(Université Claude Bernard Lyon 1), Ruttiros Khonkarn(Institut de Biologie et de Chimie des Protéines), Hélène Baubichon‐Cortay(Institut de Biologie et de Chimie des Protéines), Daniel J. V. A. dos Santos(University of Lisbon), Pierre Falson(Université Claude Bernard Lyon 1), Maria‐José U. Ferreira(GTx (United States))

Future Medicinal Chemistry

March 23, 2018

10.4155/fmc-2017-0228

Cited by 33

Abstract

AIM: Naringenin (1), isolated in large amount from the aerial parts of Euphorbia pedroi, was chemically derivatized to yield 18 imine derivatives (2-19) and three alkylated derivatives through a Mannich-type reaction (20-22) that were tested as multidrug resistance (MDR) reversers in cancer cells. Results/methodology: While hydrazone (2-4) and azine (5-13) derivatives showed an improvement in their MDR reversal activities against the breast cancer resistance protein, carbohydrazides 14-19 revealed an enhancement in MDR reversal activity toward the multidrug resistance protein 1. CONCLUSION: The observed activities, together with pharmacophoric analysis and molecular docking studies, identified the spatial orientation of the substituents as a key structural feature toward a possible mechanism by which naringenin derivatives may reverse MDR in cancer.

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