从大戟科麻疯树茎皮中分离的三种阿魏酸烷基酯的化学和生物学分析。

Q3 Pharmacology, Toxicology and Pharmaceutics

Biomedical and Pharmacology Journal Pub Date : 2023-06-30 DOI:10.13005/bpj/2664

N. Jahan, K. Shaari, S. Islam, A. Azam, F. Zohora, M. Ahsan

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引用次数: 0

摘要

本研究的目的包括从麻疯树茎皮乙酸乙酯提取物中提取的纯化学物质的植物化学特征和生物学(抗氧化、溶栓和细胞毒性)分析。鉴定了五种不同的化合物，包括八烷基顺式阿魏酸(1)、六烷基(E)-阿魏酸(2)、阿魏酸三acontyl(3)、β-谷甾醇(4)和豆甾醇(5)。它们的结构通过1HNMR分析和与已发表的数据比较确定，其中三个阿魏酸烷基酯(1-3)为首次从潘杜里叶中分离得到。化合物1、2、3具有显著的溶栓电位，分别为68.92%±1.17 (**P<0.01)、66.56%±2.35 (**P<0.01)和70.81%±0.98 (**P<0.01)，高于标准链激酶(73.6%±0.76)。与BHT(6.82±0.99 μg/ml)比较，IC50 (DPPH测定)值分别为16.26±1.07 (**P<0.01)、14.12±1.23 (**P<0.01)和13.16±1.70 μg/ml (**P<0.01)。与参比物硫酸长春新碱(LC50: 0.52±0.18 μg/ml)、化合物1(1.56±0.35 μg/ml) (**P<0.01)、化合物2(1.3±0.78 μg/ml) (**P<0.01)和化合物3(1.29±0.33 μg/ml) (**P<0.01)进行比较。因此，该结果可以解释为分离分子的概念，具有在其他药物研究中的应用潜力。

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Chemical and Biological Profiling of Three Ferulic Acids Alkyl Esters Isolated from Jatropha pandurifolia (Family: Euphorbiaceae) Stem Bark.

The study's objectives include phytochemical profiling and biological (antioxidant, thrombolytic and cytotoxic) analysis of pure chemicals from Jatropha pandurifolia stem bark ethyl acetate extract. Five different compounds including octacosanyl cis ferulate (1), hexacosyl (E)-ferulate (2) triacontyl ferulate (3), β-sitosterol (4) and stigmasterol (5) are elucidated. Their structures determine through 1HNMR analysis and comparison to published data, while three ferulic acid alkyl esters (1-3) were isolated for the first time from J. pandurifolia. Compounds 1, 2, and 3 all have significant thrombolytic potential with respective values of 68.92% ±1.17 (**P<0.01), 66.56% ±2.35 (**P<0.01) and 70.81%±0.98 (**P<0.01) with comparison to standard streptokinase (73.6%±0.76). When compared to BHT (6.82± 0.99 μg/ml) the IC50 (DPPH assay) values were 16.26±1.07 (**P<0.01), 14.12±1.23 (**P<0.01), and 13.16±1.70 μg/ml (**P<0.01). Comparing the three compounds to the reference vincristine sulphate (LC50: 0.52±0.18 μg/ml), of compound 1 (1.56±0.35 μg/ml) (**P<0.01), compound 2 (1.3±0.78 μg/ml) (**P<0.01) and compound 3 (1.29±0.33 μg/ml) (**P<0.01). The results can therefore be interpreted as a concept of isolated molecules having potential for application in additional pharmaceutical research.

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来源期刊

Biomedical and Pharmacology Journal Pharmacology, Toxicology and Pharmaceutics-Pharmacology

CiteScore

1.20

自引率

0.00%

发文量

189

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