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Publication

Structural insights into substrate selectivity and activity of bacterial polyphosphate kinases

Authors

Nocek, Boguslaw; Khusnutdinova, Anna; Ruszkowski, Milosz; Flick, Robert; Burda, Malgorzata; Batyrova, Khorcheska; Brown, Greg; Mucha, Artur; Joachimiak, Andrzej; Berlicki, Lukasz; Yakuninb, Alexander

Abstract

Polyphosphate (polyP) kinases are widely conserved enzymes with importance in basic bacterial metabolism and virulence in many pathogens. However, the molecular mechanisms of their substrate specificity and catalysis remain unknown. Here, we present the results of comprehensive biochemical and structural studies of three polyP kinases from different bacteria, which belong to different clusters of the PPK2 class III family. Purified PPK2 proteins catalyzed polyP-dependent phosphorylation of AMP, ADP, GMP, and GDP to corresponding nucleoside di- and triphosphates. Crystal structures of these proteins in complex with substrates, products, Mg2+, and inhibitors revealed the binding sites for the nucleotide and polyP substrates overlapping at the Walker A and B loops. The Walker A loop is involved in the binding of polyP and the Mg2+ ion, whereas the Walker B loop coordinates the nucleotide phosphate groups. Structure-based site-directed mutagenesis of CHU0107 from Cytophaga hutchinsonii demonstrated the critical role of several conserved residues from the PPK2 core and lid domains, involved in the coordination of both substrates and two Mg2+ ions. Additionally, a two-times higher activity was observed following deletion of the C-terminal tail in the CHU0107 mutant protein L285Stop. Crystal structures of PPK2 in complex with three aryl phosphonate inhibitors indicated the presence of at least two binding pockets for inhibitors located close to the Walker A loop and the catalytic residues Lys81 and Arg208. Our findings provide a molecular framework for understanding the molecular mechanisms of PPK2 kinases and have implications for future drug design and biocatalytic applications