作为DNA甲基化抑制剂的N-苯甲酰基氨基酸衍生物的设计与合成

Design and synthesis of N-benzoyl amino acid derivatives as DNA methylation inhibitors.

作者信息

Garella Davide, Atlante Sandra, Borretto Emily, Cocco Mattia, Giorgis Marta, Costale Annalisa, Stevanato Livio, Miglio Gianluca, Cencioni Chiara, Fernández-de Gortari Eli, Medina-Franco José L, Spallotta Francesco, Gaetano Carlo, Bertinaria Massimo

机构信息

Dipartimento di Scienza e Tecnologia del Farmaco, Università degli Studi di Torino, Torino, Italy.

Division of Cardiovascular Epigenetics, Department of Cardiology, Goethe University, Frankfurt am Main, Germany.

出版信息

Chem Biol Drug Des. 2016 Nov;88(5):664-676. doi: 10.1111/cbdd.12794. Epub 2016 Jun 24.

DOI:10.1111/cbdd.12794

PMID:27225604

Abstract

The inhibition of human DNA Methyl Transferases (DNMT) is a novel promising approach to address the epigenetic dysregulation of gene expression in different diseases. Inspired by the validated virtual screening hit NSC137546, a series of N-benzoyl amino acid analogues was synthesized and obtained compounds were assessed for their ability to inhibit DNMT-dependent DNA methylation in vitro. The biological screening allowed the definition of a set of preliminary structure-activity relationships and the identification of compounds promising for further development. Among the synthesized compounds, L-glutamic acid derivatives 22, 23, and 24 showed the highest ability to prevent DNA methylation in a total cell lysate. Compound 22 inhibited DNMT1 and DNMT3A activity in a concentration-dependent manner in the micromolar range. In addition, compound 22 proved to be stable in human serum and it was thus selected as a starting point for further biological studies.

摘要

抑制人类DNA甲基转移酶（DNMT）是一种全新且有前景的方法，用于解决不同疾病中基因表达的表观遗传失调问题。受经过验证的虚拟筛选命中物NSC137546的启发，合成了一系列N-苯甲酰基氨基酸类似物，并对所得化合物在体外抑制DNMT依赖性DNA甲基化的能力进行了评估。生物学筛选确定了一组初步的构效关系，并鉴定出有进一步开发潜力的化合物。在合成的化合物中，L-谷氨酸衍生物22、23和24在全细胞裂解物中显示出最高的预防DNA甲基化的能力。化合物22在微摩尔范围内以浓度依赖性方式抑制DNMT1和DNMT3A的活性。此外，化合物22在人血清中被证明是稳定的，因此被选为进一步生物学研究的起点。

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作为DNA甲基化抑制剂的N-苯甲酰基氨基酸衍生物的设计与合成

Design and synthesis of N-benzoyl amino acid derivatives as DNA methylation inhibitors.

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