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Shotgun Kinetic Target-Guided Synthesis Approach Enables the Discovery of Small-Molecule Inhibitors against Pathogenic Free-Living Amoeba Glucokinases.

Mintesinot KassuPrakash T ParvatkarJillian MilanesNeil P MonaghanChungsik KimMatthew DowgialloYingzhao ZhaoAmi H AsakawaLili HuangAlicia WagnerBrandon MillerKarissa CarterKayleigh F BarrettLogan M TilleryLynn K BarrettIsabelle Q H PhanSandhya SubramanianPeter J MylerWesley C Van VoorhisJames W LeahyChristopher A RiceDennis E KyleJames C MorrisRoman Manetsch
Published in: ACS infectious diseases (2023)
Pathogenic free-living amoebae (pFLA) can cause life-threatening central nervous system (CNS) infections and warrant the investigation of new chemical agents to combat the rise of infection from these pathogens. Naegleria fowleri glucokinase ( Nf Glck), a key metabolic enzyme involved in generating glucose-6-phosphate, was previously identified as a potential target due to its limited sequence similarity with human Glck ( Hs Glck). Herein, we used our previously demonstrated multifragment kinetic target-guided synthesis (KTGS) screening strategy to identify inhibitors against pFLA glucokinases. Unlike the majority of previous KTGS reports, our current study implements a "shotgun" approach, where fragments were not biased by predetermined binding potentials. The study resulted in the identification of 12 inhibitors against 3 pFLA glucokinase enzymes─ Nf Glck, Balamuthia mandrillaris Glck ( Bm Glck), and Acanthamoeba castellanii Glck ( Ac Glck). This work demonstrates the utility of KTGS to identify small-molecule binders for biological targets where resolved X-ray crystal structures are not readily accessible.
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