模拟消化作为疟疾治疗方法食用的青蒿干叶(pACT)。
Simulated digestion of dried leaves of Artemisia annua consumed as a treatment (pACT) for malaria.
机构信息
Department of Biology and Biotechnology, Worcester Polytechnic Institute, 100 Institute Rd, Worcester, MA 01609, USA.
Department of Biology and Biotechnology, Worcester Polytechnic Institute, 100 Institute Rd, Worcester, MA 01609, USA.
出版信息
J Ethnopharmacol. 2014 Feb 3;151(2):858-63. doi: 10.1016/j.jep.2013.11.043. Epub 2013 Dec 6.
ETHNOPHARMACOLOGICAL RELEVANCE
Artemisinin (AN) is produced by Artemisia annua, a medicinal herb long used as a tea infusion in traditional Chinese medicine to treat fever; it is also the key ingredient in current artemisinin-based combination therapies (ACTs) effective in treating malaria. Recently we showed that dried leaves from the whole plant Artemisia annua that produces artemisinin and contains artemisinin-synergistic flavonoids seem to be more effective and less costly than ACT oral malaria therapy; however little is known about how digestion affects release of artemisinin and flavonoids from dried leaves.
MATERIAL AND METHODS
In the current study we used a simulated digestion system to determine how artemisinin and flavonoids are released prior to absorption into the bloodstream. Various delivery methods and staple foods were combined with dried leaves for digestion in order to investigate their impact on the bioavailability of artemisinin and flavonoids. Digestate was recovered at the end of the oral, gastric, and intestinal stages, separated into solid and liquid fractions, and extracted for measurement of artemisinin and total flavonoids.
RESULTS
Compared to unencapsulated digested dried leaves, addition of sucrose, various cooking oils, and rice did not reduce the amount of artemisinin released in the intestinal liquid fraction, but the amount of released flavonoids nearly doubled. When dried leaves were encapsulated into either hydroxymethylcellulose or gelatin capsules, there was >50% decrease in released artemisinin but no change in released flavonoids. In the presence of millet or corn meal, the amount of released artemisinin declined, but there was no change in released flavonoids. Use of a mutant Artemisia annua lacking artemisinin showed that the plant matrix is critical in determining how artemisinin is affected during the digestion process.
CONCLUSIONS
This study provides evidence showing how both artemisinin and flavonoids are affected by digestion and dietary components for an orally consumed plant delivered therapeutic and that artemisinin delivered via dried leaves would likely be more bioavailable if provided as a tablet instead of a capsule.
民族药理学相关性
青蒿素(AN)由青蒿植物产生,该植物作为一种草药,在中国传统医学中一直被用作茶饮料,用于治疗发热;它也是目前青蒿素为基础的联合疗法(ACT)的关键成分,对治疗疟疾有效。最近我们发现,含有青蒿素协同黄酮类化合物的青蒿全草干叶似乎比口服抗疟 ACT 治疗更有效且成本更低;然而,人们对消化过程如何影响干叶中青蒿素和黄酮类化合物的释放知之甚少。
材料和方法
在当前的研究中,我们使用模拟消化系统来确定青蒿素和黄酮类化合物在被吸收到血液之前是如何释放的。为了研究它们对青蒿素和黄酮类化合物生物利用度的影响,我们将各种给药方式和主食与干叶一起进行消化。在口腔、胃和肠道阶段结束时回收消化物,将其分为固液两部分,并提取以测量青蒿素和总黄酮类化合物。
结果
与未包裹的消化干叶相比,添加蔗糖、各种食用油和大米并没有减少肠道液体部分释放的青蒿素量,但释放的黄酮类化合物量几乎增加了一倍。当干叶被包裹在羟甲基纤维素或明胶胶囊中时,释放的青蒿素减少了 50%以上,但释放的黄酮类化合物没有变化。在小米或玉米粉的存在下,释放的青蒿素量下降,但释放的黄酮类化合物没有变化。使用缺乏青蒿素的突变青蒿植物表明,植物基质在决定青蒿素在消化过程中如何受到影响方面起着关键作用。
结论
本研究提供了证据,表明消化和饮食成分如何同时影响青蒿素和黄酮类化合物,对于口服植物治疗药物,通过干叶提供的青蒿素如果制成片剂而不是胶囊,可能更具生物利用度。
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