Protein arginine methyltransferases(PRMTs)are attractive targets for developing therapeutic agents,but selective PRMT inhibitors targeting the cofactor SAM binding site are limited.Herein,we report the discovery of a ...Protein arginine methyltransferases(PRMTs)are attractive targets for developing therapeutic agents,but selective PRMT inhibitors targeting the cofactor SAM binding site are limited.Herein,we report the discovery of a noncanonical but less polar SAH surrogate YD1113 by replacing the benzyl guanidine of a pan-PRMT inhibitor with a benzyl urea,potently and selectively inhibiting PRMT3/4/5.Importantly,crystal structures reveal that the benzyl urea moiety of YD1113 induces a unique and novel hydrophobic binding pocket in PRMT3/4,providing a structural basis for the selectivity.In addition,YD1113 can be modified by introducing a substrate mimic to form a“T-shaped”bisubstrate analogue YD1290 to engage both the SAM and substrate binding pockets,exhibiting potent and selective inhibition to typeⅠPRMTs(IC_(50)<5 nmol/L).In summary,we demonstrated the promise of YD1113 as a general SAH mimic to build potent and selective PRMT inhibitors.展开更多
The WD40 domain exhibits aβ-propeller architecture,often comprising seven blades.The WD40 domain is one of the most abundant domains and also among the top interacting domains in eukaryotic genomes.In this review,we ...The WD40 domain exhibits aβ-propeller architecture,often comprising seven blades.The WD40 domain is one of the most abundant domains and also among the top interacting domains in eukaryotic genomes.In this review,we will discuss the identification,definition and architecture of the WD40 domains.WD40 domain proteins are involved in a large variety of cellular processes,in which WD40 domains function as a protein-protein or protein-DNA interaction platform.WD40 domain mediates molecular recognition events mainly through the smaller top surface,but also through the bottom surface and sides.So far,no WD40 domain has been found to display enzymatic activity.We will also discuss the different binding modes exhibited by the large versatile family of WD40 domain proteins.In the last part of this review,we will discuss how post-translational modifications are recognized by WD40 domain proteins.展开更多
基金support from NIH P30 CA023168(Purdue University Center for Cancer Research)the NSERC grant(RGPIN-2021-02728(Jinrong Min)).
文摘Protein arginine methyltransferases(PRMTs)are attractive targets for developing therapeutic agents,but selective PRMT inhibitors targeting the cofactor SAM binding site are limited.Herein,we report the discovery of a noncanonical but less polar SAH surrogate YD1113 by replacing the benzyl guanidine of a pan-PRMT inhibitor with a benzyl urea,potently and selectively inhibiting PRMT3/4/5.Importantly,crystal structures reveal that the benzyl urea moiety of YD1113 induces a unique and novel hydrophobic binding pocket in PRMT3/4,providing a structural basis for the selectivity.In addition,YD1113 can be modified by introducing a substrate mimic to form a“T-shaped”bisubstrate analogue YD1290 to engage both the SAM and substrate binding pockets,exhibiting potent and selective inhibition to typeⅠPRMTs(IC_(50)<5 nmol/L).In summary,we demonstrated the promise of YD1113 as a general SAH mimic to build potent and selective PRMT inhibitors.
基金This research was supported by the Structural Genomics Consortium,a registered charity(No.1097737)that receives funds fromthe Canadian Institutes for Health Research,the Canadian Foundation for Innovation,Genome Canada through the Ontario GenomicsInstitute,Glaxo Smith Kline,Karolinska Institutet,the Knut and Alice Wallenberg Foundation,the Ontario lnnovation Trust,the Ontario Ministry for Research and Innovation,Merck&Co.,Inc.,the Novartis Research Foundation,the Swedish Agency for Innovation Systems,the Swedish Foundation for Strategic Research and the Wellcome Trust.
文摘The WD40 domain exhibits aβ-propeller architecture,often comprising seven blades.The WD40 domain is one of the most abundant domains and also among the top interacting domains in eukaryotic genomes.In this review,we will discuss the identification,definition and architecture of the WD40 domains.WD40 domain proteins are involved in a large variety of cellular processes,in which WD40 domains function as a protein-protein or protein-DNA interaction platform.WD40 domain mediates molecular recognition events mainly through the smaller top surface,but also through the bottom surface and sides.So far,no WD40 domain has been found to display enzymatic activity.We will also discuss the different binding modes exhibited by the large versatile family of WD40 domain proteins.In the last part of this review,we will discuss how post-translational modifications are recognized by WD40 domain proteins.
