Development of a thin-layer chromatography gel-overlay α-glucosidase inhibition assay

CAPOZZA, GIULIANA P.; SALAZAR, MARIO O.; RAMALLO, I. AYELEN; FURLAN, RICARDO L. E.

Journal of Planr Chromatography

RESEARCH INST MEDICINAL PLANTS

Año: 2024 vol. 36 p. 483 - 491

0933-4173

Thin-layer chromatography (TLC) coupled with bioassays has proven efective for detecting bioactive compounds in complex samples. In this study, a TLC enzyme-inhibition assay was developed for the detection of α-glucosidase inhibitors. The basic principle of the method involves the enzymatic hydrolysis of the substrate (2-naphthyl-α-d-glucopyranoside), resulting in the formation of β-naphthol that is subsequently reacted with Fast Blue B salt to produce a diazonium dye, resulting in a purple background. Assay development involved the utilization of enzyme gel entrapment, with either agar (over normal-phase plates) or poloxamer (over reversed-phase plates), and the optimization of key parameters including the substrate and enzyme concentrations, derivatization reagent concentrations, bufer type and pH, and plate type. The results showed good linearity within a range of 0.250–2.0 μg for the positive control, acarbose, with a coeicient of determination (r) of 0.99. Detection and quantiication limits were 0.060 μg and 0.199 μg, respectively. To address potential false positive results arising from secondary reactions with the reagents used, a nonenzymatic assay was conducted. In this control assay, the enzyme wasreplaced by the reaction product (β-naphthol). The developed TLC gel-overlay autographic method was able to detect the α-glucosidase inhibitor chlorogenic acid in a yerba mate extract.