Artemisia argyi Lévl. et Van., Artemisia princeps Pamp., and Artemisia montana Pamp., which are the sources of mugwort, have been popular across East Asian countries for nearly 2000 years now.… Click to show full abstract
Artemisia argyi Lévl. et Van., Artemisia princeps Pamp., and Artemisia montana Pamp., which are the sources of mugwort, have been popular across East Asian countries for nearly 2000 years now. Essential oils are the major chemical component obtained from them, exhibiting a variety of biological activities. This review mainly focuses on the chemical composition and biological activities of A. argyi essential oil (AAEO), A. princeps essential oil (APEO), and A. montana essential oil (AMEO), with a special focus on their common and specific characteristics. The traditional use, distribution, and botany of A. argyi, A. princeps, and A. montana have also been summarized. In addition, the pharmacokinetics of AAEO was involved. We collected literature from online and offline databases by entering the following keywords: mugwort, wormwood, A. argyi, A. princeps, A. montana, essential oil, and volatile oil. No language limitation was present in our search. A. argyi, A. princeps, and A. montana were used as traditional medicine, food, and health care products for a long time in Asia. They are widely distributed in most parts of China, Korea, and Japan. AAEO, APEO, and AMEO were all composed of monoterpenes, sesquiterpenes and their derivatives, alkanes olefins, etc. Most of the specific compounds of AAEO were monoterpenoids, nearly half of the specific compounds of APEO were aliphatic hydrocarbons, and the sesquiterpenes were the typical specific compounds of AMEO. The mugwort essential oil showed multiple biological activities, such as anti-microbial, anti-inflammatory, antioxidant, antitumor, anticoagulation, sedative, and insecticide. The present review provided insight into the chemical composition and biological activity of AAEO, APEO, and AMEO. The comprehensive literature showed that they possessed wide application prospects in various fields. However, they should be studied in more depth. The underlying bioactive mechanisms should be elucidated and their toxicity and quality control should be determined.
               
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