Linyue Zhang, Jingwu Wu, Jinzhenwan Xue, Zhihong Jia, Xiaoni Zhou, Gang Hu
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Abstract
Coumarins, a ubiquitous class of aromatic compounds present in a broad spectrum of organisms, including bacteria, fungi, and over 150 plant species, have been extensively studied over the years. Researchers have isolated and characterized more than 1,300 natural coumarins, many of which exhibit promising biomedical properties. Among these, daphnetin has emerged as a distinctive coumarin derivative that is characterized by its unique structural features to impart special physicochemical attributes. Daphnetin is renowned for its diverse range of biological activities, encompassing anticancer, anti-inflammatory, and antiallergic effects. These activities can be attributed to its ability to regulate specific molecular pathways within the body, making it a highly attractive compound for pharmacological research. Consequently, daphnetin has garnered considerable attention within the scientific community, specifically prompting an extensive investigation into its therapeutic potential across diverse clinical conditions. In this comprehensive review, we delved into the structure and sources of daphnetin, with a focus on its unique characteristics that underscore its potential as a therapeutic agent. We further explored the therapeutic potential of daphnetin, highlighting its multifaceted biological activities and the underlying molecular mechanisms. In addition, we scrutinized the potentially toxic effects of daphnetin in light of the current research status and prospects in this direction. By emphasizing the clinical significance of daphnetin, we aim to contribute to the ongoing endeavors toward the development of innovative and efficacious therapeutic strategies for an array of diseases.
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