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Inhibition of Thiamine Diphosphate-Dependent Enzymes by Triazole-Based Thiamine Analogues

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Thiamine is metabolized into the coenzyme thiamine diphosphate (ThDP). Interrupting thiamine utilization leads to disease states. Oxythiamine, a thiamine analogue, is metabolized into oxythiamine diphosphate (OxThDP), which inhibits ThDP-dependent enzymes.… Click to show full abstract

Thiamine is metabolized into the coenzyme thiamine diphosphate (ThDP). Interrupting thiamine utilization leads to disease states. Oxythiamine, a thiamine analogue, is metabolized into oxythiamine diphosphate (OxThDP), which inhibits ThDP-dependent enzymes. Oxythiamine has been used to validate thiamine utilization as an anti-malarial drug target. However, high oxythiamine doses are needed in vivo because of its rapid clearance, and its potency decreases dramatically with thiamine levels. We report herein cell-permeable thiamine analogues possessing a triazole ring and a hydroxamate tail replacing the thiazolium ring and diphosphate groups of ThDP. We characterize their broad-spectrum competitive inhibition of ThDP-dependent enzymes and of Plasmodium falciparum proliferation. We demonstrate how the cellular thiamine-utilization pathway can be probed by using our compounds and oxythiamine in parallel.

Keywords: thiamine; thiamine diphosphate; dependent enzymes; thiamine utilization; thiamine analogues; diphosphate

Journal Title: ACS Medicinal Chemistry Letters
Year Published: 2023

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