TLC-MS identification of alkaloids in Leonuri Herba and Leonuri Fructus aided by a newly developed universal derivatisation reagent optimised by the response surface method.

Abstract

Dragendorff's reagent has low sensitivity and non-specificity for some alkaloids. A new alkaloid derivatisation reagent has been developed and optimised by using a Box-Behnken design method. This new reagent is applicable for structurally diverse natural alkaloids, and is proposed as a universal alkaloid staining reagent. To establish an efficient and sensitive thin-layer chromatography (TLC) identification method for Leonuri Herba and Leonuri Fructus to characterise their differences and similarities. Three key components (bismuth subnitrate, potassium iodide and iodine) in the derivatisation reaction were re-constructed and optimised using a response surface method. Different inorganic acids, essential additives of the staining reaction, were compared by a single-factor experiment design. This newly optimised reagent for alkaloids reported in this study, named the enhanced Dragendorff-Wagner's reagent, is composed of 0.82% bismuth subnitrate, 11.1% potassium iodide and 0.76% iodine in 38% phosphoric acid solution. Validation results indicate that the TLC spot of stachydrine stained with the enhanced Dragendorff-Wagner's reagent had a limit of detection of 2.0 μg, good intra- and inter-plate, and intra- and intra-day precisions with relative standard devition values less than 5.0%, and stability over 90 min. This enhanced Dragendorff-Wagner's reagent was applied for TLC identification of 16 reference alkaloids representing 11 structural skeletons, and two closely related herbs (Leonuri Herba and Leonuri Fructus). This newly enhanced Dragendorff-Wagner's reagent is a universal, effective, and sensitive staining reagent for alkaloids.