Redox properties of catechins and enriched green tea extracts effectively preserve l-5-methyltetrahydrofolate: Assessment using cyclic voltammetry analysis

Abstract A cyclic voltammetry (CV) study was performed in pH 5.5 Britton–Robinson buffer at room temperature to study the stability of 1 mM l -5-methyltetrahydrofolate ( l -5-MTHF) in combination with epigallocatechin-gallate-enriched extract (EGCGe) and epigallocatechin-enriched extract (EGCe). The combination of l -5-MTHF with enriched catechin extracts provided enhanced stability of l -5-MTHF over a period of 12 h under ambient air conditions at pH 5.5. CV experiments showed that increasing the concentrations of EGCGe or EGCe extracts from 80 to 400 mg/L produced a decrease in the second oxidation peak of l -5-MTHF. Thus, we calculated that l -5-MTHF remained at nearly 90% when in the presence of enriched tea extracts, compared to 74% without the tea antioxidants. The catechins responsible for this preservation were EGCG and C, confirmed by LC–MS. Compared to covalent link only low interaction (hydrogen bonds) between the different catechins present in the tea extract would stabilise l -5-MTHF. Rather, it was hypothesised that EGCGe and EGCe were effective agents to preserve l -5-MTHF, through a mechanism that also involved the redox potential of catechins to maintain l -5-MTHF in its reduced form.