Abstract

ABSTRACTThe disaccharide trehalose is critical to the survival of pathogenic fungi in their human host. Trehalose-6-phosphate synthase (Tps1) catalyzes the first step of trehalose biosynthesis in fungi. Here, we report the first structures of eukaryotic Tps1s in complex with substrates or substrate analogues. The overall structures of Tps1 from Candida albicans and Aspergillus fumigatus are essentially identical and reveal N- and C-terminal Rossmann fold domains that form the glucose-6-phosphate and UDP-glucose substrate binding sites, respectively. These Tps1 structures with substrates or substrate analogues reveal key residues involved in recognition and catalysis. Disruption of these key residues severely impaired Tps1 enzymatic activity. Subsequent cellular analyses also highlight the enzymatic function of Tps1 in thermotolerance, yeast-hypha transition, and biofilm development. These results suggest that Tps1 enzymatic functionality is essential for the fungal stress response and virulence. Furthermore, structures of Tps1 in complex with the nonhydrolyzable inhibitor, validoxylamine A, visualize the transition state and support an internal return-like catalytic mechanism that is generalizable to other GT-B-fold retaining glycosyltransferases. Collectively, our results depict key Tps1-substrate interactions, unveil the enzymatic mechanism of these fungal proteins, and pave the way for high-throughput inhibitor screening buttressed and guided by the current structures and those of high-affinity ligand-Tps1 complexes.

Highlights

  • The disaccharide trehalose is critical to the survival of pathogenic fungi in their human host

  • This biosynthetic pathway is absent in mammals, and the two enzymes that carry out trehalose biosynthesis, namely, trehalose-6-phosphate synthase (Tps1) and trehalose-6-phosphate phosphatase (Tps2), are prominent targets for antifungal intervention

  • The first step, which is catalyzed by trehalose-6-phosphate synthase (Tps1), transfers glucose from UDP-glucose (UDPG) to glucose-6-phosphate (G6P) to form trehalose-6-phosphate (T6P)

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Summary

Introduction

The disaccharide trehalose is critical to the survival of pathogenic fungi in their human host. We report the first eukaryotic Tps1 structures from the pathogenic fungi Candida albicans and Aspergillus fumigatus in complex with substrates, substrate analogues, and inhibitors. These results highlight the significance of these substrate-interacting residues in the biosynthetic activity of Tps1 and suggest that the enzymatic activity of Tps1 is essential for C. albicans thermotolerance and the morphological transitions necessary for invasive disease production.

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Conclusion

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