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Metabolite Profiling of Allium hookeri Leaves Using UHPLC-qTOF-MS/MS and the Senomorphic Activity of Phenolamides.

Thi Phuong DoanMi ZhangJin-Pyo AnJorge Eduardo Ponce-ZeaVan-Hieu MaiByeol RyuEun-Jin ParkWon Keun Oh
Published in: Nutrients (2023)
The plant Allium hookeri , a member of the Allium genus, has a rich history of culinary and medicinal use. Recent studies have unveiled its potent antioxidant and anti-inflammatory properties. While research on A. hookeri has demonstrated its neuroprotective and anti-neuroinflammatory effects, the specific bioactive compounds responsible for these effects remain unidentified in prior research. This study utilized an untargeted metabolomic approach, employing HRESI-qTOF MS/MS-based molecular networking, to comprehensively profile the chemical composition of metabolites in A. hookeri and identify new compounds within the plant. As a result, ten compounds, comprising one novel flavonoid ( 2 ) and nine known compounds ( 1 and 3 - 10 ), were isolated and identified through NMR analysis. The inhibitory effects of all isolated compounds on the senescent cell-associated secretory phenotype (SASP), which is pivotal in neuroprotective actions, were evaluated. Biological activity testing revealed N - trans -feruloyltyramine ( 7 ) to be the most potent compound, effectively inhibiting SASP markers and contributing to the senomorphic activities of A. hookeri . These findings underscore the potential of phenolamides from A. hookeri as a promising source of bioactive compounds for mitigating senescence-associated diseases.
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