Litcius/Paper detail

Novel imidazopyrimidines-based molecules induce tetramerization of tumor pyruvate kinase M2 and exhibit potent antiproliferative profile

Sagarkumar Patel, Christoph Globisch, Priyanka Pulugu, Prasoon Kumar, Alok Jain, Amit Shard

2021European Journal of Pharmaceutical Sciences40 citationsDOIOpen Access PDF

Abstract

Discovery of novel and potent lead molecules for the specific therapeutic targets by de novo drug design is still in infancy. Here, we disclose the unprecedented development of imidazopyri(mi)dine-based tumor pyruvate kinase M2 (PKM2) modulators by subsequent link and grow strategy. The most potent modulator 15n acts as a PKM2 activator with an AC50 of 90 nM, with considerable cancer cell-selectivity and membrane-permeability. NMR metabolomics studies also revealed that treatment with 15n results in diminution in lactate concentrations in MCF-7 cells. 15n binds to a previously reported site at PKM2 adjacent to the interface of two monomers. In molecular dynamics (MD) simulation studies, it was observed that 15n stabilizes the PKM2 at the dimeric interface, assisting in the formation of a biologically active tetramer conformation. 15n was also screened on MCF-7 breast cancer cell lines grown on 3-D scaffolds, and the results exhibited better anticancer potential compared to control, paving the way for future clinical studies.

Topics & Concepts

PKM2Pyruvate kinaseChemistryTetramerSmall moleculeActivator (genetics)Cancer cellBiophysicsBiochemistryKinaseCancer researchGlycolysisBiologyCancerEnzymeReceptorGeneticsCancer, Hypoxia, and MetabolismCancer therapeutics and mechanismsCancer-related Molecular Pathways