Interaction of Flavonoids with Zinc and Zinc-Containing Enzymes

The current chelation therapy has several drawbacks, including lack of selectivity, which could lead to trace metal depletion. Consequently, the proper function of metalloenzymes can be disrupted. Flavonoids possess chelating properties and hence interfere with the homeostasis of essential metals. We focused on zinc, an important trace metal required for the function of many enzymes and transcription factors. After making an initial evaluation of the Zn²⁺-chelating properties of a series of Flavonoids, the effect of these compounds on various zinc-containing enzymes was also investigated. We performed Enzyme inhibition assays spectrophotometrically using yeast and equine alcohol dehydrogenases and bovine glutamate dehydrogenase. Nine of the 21 Flavonoids tested were capable of chelating Zn²⁺. Baicalein and 3-hydroxyflavone were the most potent Zn²⁺ chelators under slightly acidic and neutral pH conditions. This chelation was also confirmed by the ability to reverse Zn²⁺-induced enzymatic inhibition of bovine glutamate dehydrogenase. Although some Flavonoids were also able to inhibit zinc-containing alcohol dehydrogenases, this inhibition was likely not caused by Zn²⁺ chelation. Luteolin was a relatively potent inhibitor of these enzymes regardless of the presence of Zn²⁺. Docking studies confirmed the binding of active Flavonoids to equine alcohol dehydrogenase without any significant interaction with the catalytic zinc.