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From Proteopedia
UBE2N/UBE2V2 complexed with a covalent inhibitor
Structural highlights
FunctionUBE2N_HUMAN The UBE2V1-UBE2N and UBE2V2-UBE2N heterodimers catalyze the synthesis of non-canonical 'Lys-63'-linked polyubiquitin chains. This type of polyubiquitination does not lead to protein degradation by the proteasome. Mediates transcriptional activation of target genes. Plays a role in the control of progress through the cell cycle and differentiation. Plays a role in the error-free DNA repair pathway and contributes to the survival of cells after DNA damage. Acts together with the E3 ligases, HLTF and SHPRH, in the 'Lys-63'-linked poly-ubiquitination of PCNA upon genotoxic stress, which is required for DNA repair. Appears to act together with E3 ligase RNF5 in the 'Lys-63'-linked polyubiquitination of JKAMP thereby regulating JKAMP function by decreasing its association with components of the proteasome and ERAD. Promotes TRIM5 capsid-specific restriction activity and the UBE2V1-UBE2N heterodimer acts in concert with TRIM5 to generate 'Lys-63'-linked polyubiquitin chains which activate the MAP3K7/TAK1 complex which in turn results in the induction and expression of NF-kappa-B and MAPK-responsive inflammatory genes (By similarity).[1] [2] [3] [4] [5] Publication Abstract from PubMedBroadening the application of covalent inhibitors requires the exploration of nucleophilic residues beyond cysteine. The covalent DNA-encoded chemical library (CoDEL) represents an advanced technology for covalent drug discovery. However, its application in lysine-targeting inhibitors remains uncharted territory. Here, we report the utilization of CoDEL selection guided by proteome-wide data to identify lysine-targeting covalent inhibitors. A comprehensive assessment of activity-based protein profiling (ABPP) data on lysine distribution and ligandability reveals potential targets for selective covalent inhibition, including phosphoglycerate mutase 1 (PGAM1), bromodomain (BRD) family proteins, and ubiquitin-conjugating enzyme E2 N (UBE2N). The 10.7-million-member CoDELs, featuring diverse lysine-reactive warheads, enable the discovery of a series of covalent inhibitors, covering photo-covalent, reversible covalent, and irreversible covalent reaction mechanisms. In-depth characterization of binding sites and modes of action provides structural and functional insights. Notably, irreversible covalent inhibitors unveil a novel mechanism for regulating UBE2N-mediated ubiquitination by modulating the conformation of the protein complex. Our work adopts the ABPP-CoDEL strategy, offering an efficient and versatile selection method for the development of covalent inhibitors targeting functional lysines. Proteome-Wide Data Guides the Discovery of Lysine-Targeting Covalent Inhibitors Using DNA-Encoded Chemical Libraries.,Wu X, Li S, Liang T, Yu Q, Zhang Y, Liu J, Li K, Liu Z, Cui M, Zhao Y, Han X, Jin R, Tan M, Chen XH, Zhao Y, Zheng M, Sun Y, Zhou L, Lu X Angew Chem Int Ed Engl. 2025 Apr 13:e202505581. doi: 10.1002/anie.202505581. PMID:40223230[6] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. References
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Categories: Homo sapiens | Large Structures | Li S | Lu X | Wu X | Zhou L