Abstract
Overexpression of lysine specific demethylase 1 (LSD1) has been found in many cancers. New anticancer drugs targeting LSD1 have been designed. The research on irreversible LSD1 inhibitors has entered the clinical stage, while the research on reversible LSD1 inhibitors has progressed slowly so far. In this study, 41 stilbene derivatives were studied as reversible inhibitors by three-dimensional quantitative structure–activity relationship (3D-QSAR). Comparative molecular field analysis (CoMFA = 0.623, = 0.987, = 0.857) and comparative molecular similarity indices analysis (CoMSIA = 0.728, = 0.960, = 0.899) were used to establish the model, and the structure–activity relationship of the compounds was explained by the contour maps. The binding site was predicted by two different kinds of software, and the binding modes of the compounds were further explored. A series of key amino acids Val288, Ser289, Gly314, Thr624, Lys661 were found to play a key role in the activity of the compounds. Molecular dynamics (MD) simulations were carried out for compounds 04, 17, 21, and 35, which had different activities. The reasons for the activity differences were explained by the interaction between compounds and LSD1. The binding free energy was calculated by molecular mechanics generalized Born surface area (MM/GBSA). We hope that this research will provide valuable information for the design of new reversible LSD1 inhibitors in the future.
Highlights
Epigenetic post-transcriptional modifications of DNA or histone, such as methylation, acetylation, and phosphorylation, can remodel the chromatin structure to regulate the expression of genes [1,2]
(SAR) information obtained from three-dimensional quantitative structure–activity relationship study
Results and detailed analysis of the Ramachandran plot, verify 3D, and ERRAT used to test protein structure are shown in Supplementary Information S3
Summary
Epigenetic post-transcriptional modifications of DNA or histone, such as methylation, acetylation, and phosphorylation, can remodel the chromatin structure (heterochromatin or Epigenetic post-transcriptional modifications of DNA or histone, such as methylation, acetylation, euchromatin) to regulate the expression of genes [1,2]. Histone methylation has been considered and phosphorylation, can remodel the chromatin structure (heterochromatin or euchromatin) to irreversible. Histone methylation has been considered revealed histone methylation was 1a(LSD1, dynamically adjustable process. LSD1 belongs flavin discoverythat of lysine-specific demethylase known as KDM1A). In 2004 revealed thatto histone adenine dinucleotide (FAD)-dependent amine oxidase family [3], and LSD1 functions as an enzyme methylation was a dynamically adjustable process. LSD1 belongs to flavin adenine dinucleotide that demethylates amine mono-oxidase and dimethylated histone
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