posted on 2023-05-03, 13:34authored byWei Hou, Zhao Chen, Chuqiao Pan, Maowei Ni, Haoqiang Ruan, Jun Song, Shiying Lu, Aman Bhasin, Benfang Helen Ruan
Allosteric glutaminase inhibitors
demonstrate inhibition of glutamine-dependent
cancer cells with low general drug toxicity, but have issues with
efficacy in vivo. Here, we designed a series of diselenide
compounds with 6 atoms in the middle, aiming to target the allosteric
site of kidney type glutaminase (KGA) with a covalent linkage to strengthen
the interaction. Proteomic analysis demonstrated that the diselenide
compounds cross-linked with the Lys320 residue at the KGA allosteric
site; this was confirmed by the KGA K320A mutant which showed essentially
no binding to the diselenide. Further, structure–activity relationship
(SAR) analysis demonstrated that growth inhibition correlated well
with KGA inhibition and was enhanced by thioredoxin reductase (TrxR)
inhibition. Interestingly, diselenide compounds showed no inhibition
of glutamate dehydrogenase (GDH), indicating some enzyme selectivity.
Importantly, the designed novel diselenides are glutaminase allosteric
inhibitors that showed in vivo efficacy and survival
in the xenograft animal model.