Changes in the Harpagide, Harpagoside, and Verbascoside Content of Field Grown <i>Scrophularia lanceolata</i> and <i>Scrophularia marilandica</i> in Response to Season and Shade

• Main Authors: Korey J. Brownstein, Andrew L. Thomas, Hien T. T. Nguyen, David R. Gang, William R. Folk
• Format: Article
• Language: English
• Published: MDPI AG 2021-07-01
• Series: Metabolites
• Subjects: abiotic stress; antioxidant; harpagide; harpagoside; <i>Scrophularia</i>; verbascoside
• Online Access: https://www.mdpi.com/2218-1989/11/7/464

<i>Scrophularia lanceolata</i> Pursh and <i>Scrophularia marilandica</i> L. are two common species within the Scrophulariaceae family that are endemic to North America. Historically, these species were used by indigenous peoples and colonialists to treat sunburn, sunstroke, frostbite, edema, as well as for blood purification, and in women’s health. Several iridoid and phenylethanoid/phenylpropanoid glycosides detected in these species, such as harpagoside and verbascoside, possess anti-inflammatory and anti-nociceptive properties. Due to the presence of anti-inflammatory metabolites and the historical uses of these species, we performed a two-year field study to determine the optimal production of these important compounds. We subjected the plants to shade treatment and analyzed differences in the metabolite composition between the two species and each of their leaves, stems, and roots at various times throughout the growing seasons. We determined that <i>S. lanceolata</i> plants grown in full sun produced 0.63% harpagoside per dried weight in their leaves compared to shade-grown plants (0.43%). Furthermore, <i>S. lanceolata</i> accumulated more harpagoside than <i>S. marilandica</i> (0.24%). We also found that verbascoside accumulated in the leaves of <i>S. lanceolata</i> and <i>S. marilandica</i> as the growing season progressed, while the production of this metabolite remained mostly seasonally unchanged in the roots of both species.