Highlights
• Reduced Hepatotoxicity: POD and LC enzymatic treatment alleviated ZEN-induced oxidative stress, apoptosis, and mitochondrial dysfunction in HepaRG cells.
• Metabolic Restoration: Enzymatic degradation of ZEN by POD and LC reversed disruptions in critical pathways, including amino acid and energy metabolism.
• Novel Degradation Pathways: Five POD-derived and two LC-derived ZEN degradation products were identified, with POD uniquely cleaving ZEN’s lactone ring—a groundbreaking discovery.
• Strong Enzyme-ZEN Binding: Horseradish peroxidase and Trametes versicolor laccase exhibited robust interactions with ZEN, forming stable enzyme-substrate complexes.

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