Metabolites (Jul 2024)

Investigation of the Functional Components in Health Beverages Made from <i>Polygonatum cyrtonema</i> Rhizomes Provides Primary Evidence to Support Their Claimed Health Benefits

  • Qiyan Song,
  • Youwu Chen,
  • Ye Shao,
  • Weiting Pu,
  • Bihuan Ye,
  • Xiaoxiao Shi,
  • Jianjun Shen,
  • Haibo Li

DOI
https://doi.org/10.3390/metabo14070376
Journal volume & issue
Vol. 14, no. 7
p. 376

Abstract

Read online

This study aims to understand the functional component compositions of traditional herbal health beverages made from Polygonatum cyrtonema rhizomes and to reveal the pharmacodynamic chemical basis for their claimed health benefits. Two traditional methods, rhizome decoction and rhizome infusion, were used to make health herbal beverages, including “Huangjin” tea and “Huangjin” wine, respectively. The secondary metabolites of “Huangjin” beverages were investigated and compared by widely targeted metabolomics. The results clearly showed that the major functional components in “Huangjin” beverages were phenolic acids, flavonoids, and alkaloids. The “Huangjin” wine has a greater variety of flavonoids and alkaloids than “Huangjin” tea, and the functional components in “Huangjin” wine were more abundant than those in “Huangjin” tea. Homoisoflavones and amide alkaloids were the dominating flavonoids and alkaloids in “Huangjin” wine, respectively. Continuous rhizome infusion could not increase the content of functional components in “Huangjin” wine. In conclusion, this study not only provides primary evidence to support the claimed health benefits of “Huangjin” beverages but also suggests that making traditional herbal beverages by rhizome infusion has superior health benefits than making them by rhizome decoction, which is attributed to the higher yields of functional components extracted by Chinese liquor than hot water. Therefore, Chinese liquor shows advantages in its use as a superior binary ethanol–water solvent in making herbal health beverages to enhance the solubility of poorly water-soluble functional components.

Keywords