Biodistribution of curcumin and its derivatives new aspects for curcumin administration

F. Jiang, T. Yu, Xia Liu, Zhishan Ding, Zhelong Ma, Ningchuan Shi
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引用次数: 4

Abstract

Curcumin, a polyphenolic compound derived from dietary spice turmeric, possesses diverse pharmacologic effects including antioxidant, anti-ininflammatory, antitumor and chemoprotective effects. However, its clinical applications were initially limited by its poor absorption, rapid metabolism and rapid systemic elimination. To improve the bioavailability of curcumin, new approaches have to be taken. Three curcumin derivatives (mPEG2k-Gly-Cur, mPEG2k-Gly-Cur-OA and Cur-OA2) were synthesized in this paper, and their biodistribution was analyzed by HPLC technique. In mice, all compounds were administered i.v. (equal to free curcumin 20 mg/kg), and the results confirmed the rapid clearance of free curcumin in blood and liver, but it was beyond our expectation to observe the remarkable lung tissue accumulation effect of curcumin, with Cmax= 193.12 µg/g after 30 min of administration, and can still be detected with 8.25 µg/g after 4 h. PEGylation can extend the circulation half-life of curcumin, but the effect was limited attributed to the low molecular weight of PEG. PEG co-modify with Oleic acid can increase liver uptake of curcumin. Oleic acid alone esterified curcumin can significantly increase curcumin level in liver, and can be detected with 15.77 µg/g after 4 h. In conclusion, our finding suggested that free curcumin have the lung accumulation property, which implied lung disease therapeutic effect; and it would also be suitable for curcumin to explore pulmonary delivery system so as to increase its bioavailability. Additionally, Oleic acid esterification method could be another way to enhance curcumin activity in certain specific organs, especially in liver.
姜黄素及其衍生物的生物分布。姜黄素给药的新方面
姜黄素是一种从膳食香料姜黄中提取的多酚类化合物,具有多种药理作用,包括抗氧化、抗炎、抗肿瘤和化学保护作用。但其吸收差、代谢快、全身消除快等特点,限制了其临床应用。为了提高姜黄素的生物利用度,必须采取新的方法。本文合成了3种姜黄素衍生物mPEG2k-Gly-Cur、mPEG2k-Gly-Cur- oa和Cur-OA2,并利用高效液相色谱技术分析了它们的生物分布。在小鼠体内,所有化合物均静脉给药(等于游离姜黄素20 mg/kg),结果证实了血液和肝脏中游离姜黄素的快速清除,但出乎我们意料的是,观察到姜黄素显著的肺组织积累效应,给药30 min后Cmax= 193.12µg/g, 4 h后仍可检测到Cmax为8.25µg/g。但由于PEG分子量低,影响有限。聚乙二醇与油酸共修饰可增加肝脏对姜黄素的吸收。油酸单独酯化姜黄素可显著提高肝脏中姜黄素的水平,4 h后可检测到15.77µg/g。由此可见,游离姜黄素具有肺蓄积性,提示有治疗肺部疾病的作用;研究姜黄素的肺给药系统,提高其生物利用度。此外,油酸酯化法可能是另一种增强姜黄素在某些特定器官,特别是肝脏中的活性的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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