Efficient preparation of rare Sagittatoside A from epimedin A, by recyclable aqueous organic two-phase enzymatic hydrolysis

Abstract

The rare secondary flavonol glycoside Sagittatoside A has much better in vivo bioactivities than epimedin A in Epimedii Folium. However, its current preparation methods are of low efficiency, with byproducts generated. The aim of this study was to establish a novel catalysis system for effective and convenient preparation of Sagittatoside A from epimedin A based on recyclable and integrated aqueous organic two-phase enzymatic hydrolysis. The system was consisted of propyl acetate and HAc-NaAc buffer (pH4.5) containing β-dextranase/epimedin A, and the hydrolysis was performed at 60 °C for 1 h. Consequently, epimedin A was completely hydrolyzed to sagittatoside A, and 95.02% of the product was transferred into the organic phase. Moreover, 90% of its initial activity was retained after seven cycles of hydrolysis. Additionally, the procedure was simpler than conventional enzymatic hydrolysis. Collectively, the newly proposed strategy is an efficient and promising approach for the preparation of sagittatoside A in industrial application.

Keywords:

• Epimedin A
• Sagittatoside A
• two-phase enzymatic hydrolysis
• reusability
• Epimedii Folium

Disclosure statement

No potential conflict of interest was reported by the authors.

Additional information

Funding

This study was supported by National Natural Science Foundation of China (81873196), National Science & Technology Project for ‘New Drugs Innovation & Development’ (2017ZX09301051), Six Talent Peaks (YY-010) and Qinglan Project (2016).