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High-resolution crystal structure of human asparagine synthetase enables analysis of inhibitor binding and selectivity

Commun Biol. 2019; 
Zhu W, Radadiya A, Bisson C, Wenzel S, Nordin BE, Martínez-Márquez F, Imasaki T, Sedelnikova SE, Coricello A, Baumann P, Berry AH, Nomanbhoy TK, Kozarich JW, Jin Y, Rice DW, Takagi Y, Richards NGJ,
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Codon Optimization The open reading frame (ORF) of human ASNS containing a Tobacco Etch Virus protease (TEV protease)74 site (ENLYFQS) followed by a C-terminal 10-histidine tag (His10) was codon-optimized, synthesized, and sub-cloned into the EcoRV site of a pUC57 vector by GenScript (Piscataway, NJ), to give the pUC57-BamHI-hASNS-TEVHis10-HindIII vector (Supplementary Data 3). Get A Quote

摘要

Expression of human asparagine synthetase (ASNS) promotes metastatic progression and tumor cell invasiveness in colorectal and breast cancer, presumably by altering cellular levels of L-asparagine. Human ASNS is therefore emerging as a bona fide drug target for cancer therapy. Here we show that a slow-onset, tight binding inhibitor, which exhibits nanomolar affinity for human ASNS in vitro, exhibits excellent selectivity at 10 μM concentration in HCT-116 cell lysates with almost no off-target binding. The high-resolution (1.85 Å) crystal structure of human ASNS has enabled us to identify a cluster of negatively charged side chains in the synthetase domain that plays a key role in inhibitor binding. Compa... More

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