Lead optimization of 4-imidazolylflavans: new promising aromatase inhibitors.

Our previous studies have shown that several 7-substituted-4-imidazolylflavans are potent inhibitors of aromatase. These compounds were designed considering the anti-aromatase effect of some natural flavonoids and the importance of an azole ring for synthetic inhibitors such as letrozole or anastrozole towards binding to the heme iron of aromatase. In this study, we report the optimization of these lead compounds by the modulation of flavan A ring.

New 7,8-benzoflavanones as potent aromatase inhibitors: synthesis and biological evaluation.

Some natural compounds such as flavonoids are known to possess a moderate inhibitory activity against aromatase, this enzyme being an interesting target for hormone-dependent breast cancer treatment. It has been demonstrated that the modulation of flavonoid skeleton could increase anti-aromatase effect. Therefore, new 7,8-benzoflavanones were synthesized and tested for their activity toward aromatase inhibition.

Synthesis and biological evaluation of 4-imidazolylflavans as nonsteroidal aromatase inhibitors.

A series of 4-imidazolylflavans having a variety of substituents on the 2-phenyl ring was synthesized and investigated for their inhibitory effect against aromatase. Structure-activity relationships of these compounds were determined. An additional chlorine atom or a cyano group at the 4' position did not enhance aromatase inhibition as well as a 3'-hydroxyl group.

Synthesis and evaluation of 4-triazolylflavans as new aromatase inhibitors.

Aromatase is a target of pharmacological interest for the treatment of estrogen-dependent cancers. Azole derivatives such as letrozole or anastrozole have been developed for aromatase inhibition and are used for the treatment of breast tumors. In this paper, four 4-triazolylflavans were synthesized and were found to exhibit moderate to high inhibitory activity against aromatase.

Design, synthesis and evaluation of 4-imidazolylflavans as new leads for aromatase inhibition.

Two 4-imidazolylflavans were synthesized and their relative stereochemistry was established by 1H and 13C NMR data. These compounds were tested for their activity to inhibit aromatase. It was observed that the introduction of an imidazolyl group at carbon 4 on flavan nucleus led to potent molecules.

Synthesis and aromatase inhibitory activity of flavanones.

Purpose: Aromatase inhibitors are known to prevent the conversion of androgens to estrogens and play a significant role in the treatment of estrogen dependent diseases such as breast cancer. Some flavonoids have been reported as potent aromatase inhibitors; therefore, in an effort to develop novel anti breast cancer agents, B ring substituted flavanones with a 7-methoxy group on A ring were synthesized and tested to assess their ability to inhibit aromatase activity and to determine the optimal B ring substitution pattern.

Methods: A series of flavanones was prepared by cyclisation of 2'-hydroxychalcones previously obtained by Claisen-Schmidt condensation and the aromatase inhibitory activity of these compounds was investigated using human placental microsomes and radiolabeled [1,2,6,7-(3)H]-androstenedione as substrate.

New aromatase inhibitors. Synthesis and inhibitory activity of pyridinyl-substituted flavanone derivatives.

Two (E)-pyridinyl-substituted flavanone derivatives were synthesized and UV irradiation of these compounds afforded a Z-enriched mixture. These products were tested for their ability to inhibit the cytochrome P450 aromatase. It was observed that the introduction of a pyridinylmethylene group at carbon 3 on flavanone nucleus led to a significant increase of aromatase inhibitory effect.