厚朴酚的甲基化和酯化用于通过局部应用改善皮肤靶向性和治疗指数

Methylation and Esterification of Magnolol for Ameliorating Cutaneous Targeting and Therapeutic Index by Topical Application.

作者信息

Lin Chwan-Fwu, Hung Chi-Feng, Aljuffali Ibrahim A, Huang Yu-Ling, Liao Wei-Chun, Fang Jia-You

机构信息

Department of Cosmetic Science, Chang Gung University of Science and Technology, Kweishan, Taoyuan, Taiwan.

School of Medicine, Fu Jen Catholic University, Hsinchuang, New Taipei City, Taiwan.

出版信息

Pharm Res. 2016 Sep;33(9):2152-67. doi: 10.1007/s11095-016-1953-x. Epub 2016 May 27.

DOI:10.1007/s11095-016-1953-x

PMID:27233503

Abstract

PURPOSE

As a continuing effort to elucidate the impact of structure modification upon cutaneous absorption behavior, we attempted to assess the skin permeation of magnolol by methylation and acetylation.

METHODS

Diacetylmagnolol and 2-O-acetyl-2'-O-methylmagnolol (AMM) were designed and synthesized in this study. The anti-inflammatory activity against stimulated neutrophils and keratinocytes was evaluated to check the bioactivity of the analogues. In vitro skin absorption was investigated using nude mouse and pig skin models at both equimolar and saturated doses.

RESULTS

Magnolol generally showed the strongest anti-inflammatory potential, followed by diacetylmagnolol and AMM. The antibacterial activity was observed for magnolol and diacetylmagnolol but not AMM. Diacetylmagnolol and AMM could be partly hydrolyzed to magnolol and 2-O-methylmagnolol after entering the skin. The hydrolysis rate of diacetylmagnolol was faster than that of AMM. The lipophilicity played a crucial role in cutaneous absorption, with AMM exhibiting the highest skin deposition. AMM accumulation within nude mouse skin was about 2.5-fold greater than that of magnolol and diacetylmagnolol. On the other hand, the transdermal penetration across the skin was lessened by methylation and esterification. This led to a superior skin targeting of AMM. Although the pharmacological activity of AMM was low, the high skin uptake and bioconversion into 2-O-methylmagnolol in the skin contributed to a greater therapeutic index (TI, skin deposition x inflammatory inhibition percentage) compared to the others. The accumulation of AMM in the hair follicles was 77.12 nmol/cm(2), which was significantly greater than that with magnolol (44.84 nmol/cm(2)) and diacetylmagnolol (26.96 nmol/cm(2)). The synthetic analogues were tolerable to the nude mouse skin.

CONCLUSIONS

Based on the experimental results, we may suggest topically applied AMM as a potent and safe candidate for the treatment of cutaneous inflammation.

摘要

目的

作为阐明结构修饰对皮肤吸收行为影响的持续努力，我们试图通过甲基化和乙酰化来评估厚朴酚的皮肤渗透情况。

方法

本研究设计并合成了二乙酰厚朴酚和2-O-乙酰基-2'-O-甲基厚朴酚（AMM）。评估了其对刺激的中性粒细胞和角质形成细胞的抗炎活性，以检查类似物的生物活性。使用裸鼠和猪皮肤模型在等摩尔剂量和饱和剂量下研究了体外皮肤吸收情况。

结果

厚朴酚通常显示出最强的抗炎潜力，其次是二乙酰厚朴酚和AMM。厚朴酚和二乙酰厚朴酚具有抗菌活性，而AMM没有。二乙酰厚朴酚和AMM进入皮肤后可部分水解为厚朴酚和2-O-甲基厚朴酚。二乙酰厚朴酚的水解速率比AMM快。亲脂性在皮肤吸收中起关键作用，AMM表现出最高的皮肤沉积量。AMM在裸鼠皮肤中的蓄积量比厚朴酚和二乙酰厚朴酚高约2.5倍。另一方面，甲基化和酯化减少了药物经皮渗透。这导致AMM具有更好的皮肤靶向性。尽管AMM的药理活性较低，但与其他药物相比，其在皮肤中的高摄取率以及在皮肤中生物转化为2-O-甲基厚朴酚的过程导致其治疗指数（TI，皮肤沉积量×炎症抑制百分比）更高。AMM在毛囊中的蓄积量为77.12 nmol/cm²，显著高于厚朴酚（44.84 nmol/cm²）和二乙酰厚朴酚（26.96 nmol/cm²）。合成类似物对裸鼠皮肤具有耐受性。

结论

基于实验结果，我们建议局部应用AMM作为治疗皮肤炎症的有效且安全的候选药物。

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厚朴酚的甲基化和酯化用于通过局部应用改善皮肤靶向性和治疗指数

Methylation and Esterification of Magnolol for Ameliorating Cutaneous Targeting and Therapeutic Index by Topical Application.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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