Hijacking DNA methyltransferase transition state analogues to produce chemical scaffolds for PRMT inhibitors - Aix-Marseille Université
Journal Articles Philosophical Transactions of the Royal Society B: Biological Sciences Year : 2018

Hijacking DNA methyltransferase transition state analogues to produce chemical scaffolds for PRMT inhibitors

Patrick Page
  • Function : Author

Abstract

DNA, RNA and histone methylation is implicated in various human diseases such as cancer or viral infections, playing a major role in cell process regulation, especially in modulation of gene expression. Here we developed a convergent synthetic pathway starting from a protected bromomethylcytosine derivative to synthesize transition state analogues of the DNA methyltransferases. This approach led to seven 5-methylcytosine-adenosine compounds that were, surprisingly, inactive against hDNMT1, hDNMT3Acat, TRDMT1 and other RNA human and viral methyltransferases. Interestingly, compound 4 and its derivative 2 showed an inhibitory activity against PRMT4 in the micromolar range. Crystal structures showed that compound 4 binds to the PRMT4 active site, displacing strongly the S-adenosyl-l-methionine cofactor, occupying its binding site, and interacting with the arginine substrate site through the cytosine moiety that probes the space filled by a substrate peptide methylation intermediate. Furthermore, the binding of the compounds induces important structural switches. These findings open new routes for the conception of new potent PRMT4 inhibitors based on the 5-methylcytosine-adenosine scaffold.This article is part of a discussion meeting issue 'Frontiers in epigenetic chemical biology'.

Dates and versions

hal-02094589 , version 1 (09-04-2019)

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Ludovic Halby, Nils Marechal, Dany Pechalrieu, Vincent Cura, Don-Marc Franchini, et al.. Hijacking DNA methyltransferase transition state analogues to produce chemical scaffolds for PRMT inhibitors. Philosophical Transactions of the Royal Society B: Biological Sciences, 2018, 373 (1748), pp.20170072. ⟨10.1098/rstb.2017.0072⟩. ⟨hal-02094589⟩
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