Epigallocatechin-3-gallate inhibit the protein arginine methyltransferase 5 and Enhancer of Zeste homolog 2 in breast cancer bothin vitroandin vivo

Abstract

AbstractHistone methyltransferases are selectively catalyzing the methylation of lysine or arginine residues of target histone and non-histone proteins, classified as lysine methyltransferases and arginine methyltransferases. The EZH2 and PRMT5 catalyze trimethylation of H3 at K27 and symmetric dimethylation of H4 at R3 respectively. These histone repressive marks have been considered as hallmarks in cancer. Both PRMT5 and EZH2 over expressed in several cancers and have been considered as important target of drug development. As a result, many synthetic molecules as inhibitors of both PRMT5 and EZH2 are at different level of preclinical and clinical phases. Cancer atlas data analysis revealed that both PRMT5 and EZH2 had shown more than 90% amplification in breast cancer alone. We screened an array of phytocompounds towards the inhibition of PRMT5 and EZH2 usingin silico, in vitroassays. Among them Epigallocatechin-3-gallate (EGCG) has interacted with human PRMT5: MEP50 and EZH2 efficiently. The EGCG interacted within the SAM binding site, with a π-cation interaction at Lys 333 and H-bonds with Tyr324, Tyr334, Gly365, Leu437, and Glu444. Surface plasmon resonance analysis revealed that EGCG has strong binding affinity in nanomolar concentrations with both PRMT5-MEP50 than EZH2. Further in vitro methylation and cell-based assays proved the inhibitory potential of EGCG by reducing the catalytic products of PRMT5 and EZH2 i.e., H4R3me2s & H3K27me3 respectively and showed that it induced autophagy and apoptosis. Furthermorein vivo, mouse xenografts studies demonstrated that oral dosage, reduced tumor size significantly with reduction in proliferation marker Ki67 and these histone repressive marks. Finally conclude that inhibition of PRMT5 and EZH2 by EGCG potentially can be used to develop combined therapeutic approaches.