三种萝藦科植物中C21甾类成分的研究

　　本实验对三种萝藦科植物通光散(Marsdenia tenacissima)、黑水藤（Biondia insignis Tsiang）和徐长卿（Cynanchum Paniculatum）中的C21甾体化合物进行了研究。从通光散藤茎乙酸乙酯提取物的水解产物中，分离得到两类八个C21甾类甙元。经光谱鉴定，它们的结构分别为11α-O-(2-甲基)-丁酰基-12β-O-顺芷酰通光藤甙元乙（1），11α-O-乙酰基-12β-O-乙酰基通光藤甙元乙（2），11α-O-（2-甲基）-丁酰基-12β-O-乙酰基通光藤甙元乙(3), 11α-O-苯甲酰基-12β-O-乙酰基通光藤甙元乙(4)， 11α-O-顺芷酰基-12β-O-乙酰基通光藤甙元乙（5）11α-O-顺芷酰基-12β-O-顺芷酰基通光藤甙元乙（6），12β-O-乙酰基通光藤甙元甲（7）和12β-O-顺芷酰基通光藤甙元甲（8）。其中，化合物2和8为新化合物。从黑水藤乙醇提取物的水解产物中，分离得到了两个C21甾体化合物。经1D、2D NMR技术鉴定，分别为（3β，14β，15β，17β）-3, 14-二羟基-15，16-裂-孕甾-5-烯-15-醛-16-半缩醛-20-酮（1）和白前甙元C（2）。其中1为15，16-裂环的新骨架类型的C21甾体化合物，命名为黑水藤甙元甲。从采购于昆明、浙江、湖南三地药材市场的徐长卿的根及根茎中，分离得到了18个化合物（其中昆明徐长卿6个，浙江徐长卿9个，湖南徐长卿3个）。经光谱数据分析，这些化合物被鉴定为：cynapanoside-C (1), cynapanoside-A (2), 白前甙元B 3-O-β-D-磁嘛吡喃糖甙(3)，白前甙元C 3-O-β-D-葡萄吡喃糖基-(1 → 4)-α-L-2-脱氧洋地黄吡喃糖基-（1 → 4）-β-D-洋地黄吡喃糖基-（1 → 4）-β-D-夹竹吡喃糖甙（4），白前甙元C3-O-β-D-葡萄吡喃糖基-(1 → 4)-α-D-夹竹桃吡喃糖基-(1 → 4)-β-D-洋地黄吡喃糖基-(1 → 4)-β-D-夹竹桃吡喃糖甙（5），白前甙元C 3-O-β-D-葡萄吡喃糖基-（1 → 4）-β-D-葡萄吡喃糖基-（1 → 4）-α-D-夹竹桃吡喃糖基-（1 → 4）-β-D-洋地黄吡喃糖基-（1 → 4）-β-D-夹竹桃吡喃糖甙（6），cynatratoside-B (7)，cynatratoside-C (8);glaucoside A(9)，新白薇甙元B 3-O-β-L-磁嘛吡喃糖基-（1 → 4）-β-D-洋黄吡喃糖基-（1 → 4）-β-D-夹竹桃吡喃糖甙（10），白前甙元 A 3-O-α-L-磁嘛吡喃糖基-（1 → 4）-β-D-洋地黄吡喃糖基-（1 → 4）-β-D-磁嘛吡喃糖甙（11），白前甙元 B 3-O-α-L-磁糖基吡喃糖基-(1 → 4)-β-D-磁嘛吡喃糖基-(1 → 4)-β-D-磁嘛吡喃糖甙(12)，白前甙元D 3-O-α-L-磁嘛吡喃糖基（1 → 4）-β-D-洋地黄吡喃糖基-（1 → 4）-β-D-磁嘛吡喃糖甙（13），白前甙元 C 3-O-β-D-葡萄吡喃糖基-（1 → 4）-β-D-葡萄吡喃糖基-（1 → 4）-α-L-2-脱氧洋地黄吡喃糖基-（1 → 4）-β-D-磁嘛吡喃糖基-（1 → 4）-β-D-夹竹桃吡喃糖甙（14），白前甙元 C 3-O-β-D-葡萄吡喃糖基-（1 → 4）-β-D-葡萄吡喃糖基-（1 → 4）-α-L-磁嘛吡喃糖基-（1 → 4）-β-D-洋地黄吡喃糖基-（1 → 4）-β-D-夹竹桃吡喃糖甙（15），白前甙元 B 3-O-α-D-夹竹桃吡喃糖基-(1 → 4)-β-D-洋地黄吡喃糖基-（1 → 4）-β-D-磁嘛吡喃糖甙（16），白前甙元 D 3-O-α-D-夹竹桃吡喃糖基-(1 → 4)-β-D-洋地黄吡喃糖基-(1 → 4)-β-D-磁嘛吡喃糖甙(17)，白前甙元月B 3-O-α-L-磁嘛吡喃糖基-(1 → 4)-β-D-洋地黄吡喃糖基-(1 → 4)-β-D-磁嘛吡喃糖甙（18）。其中，化合物3-6，10-18为新化合物，10的甙元为一个新甙元，命名为新白薇甙无B。

Two new compounds and anti-HIV active constituents from Illicium verum

Two new compounds named illiverin A (1) and tashironin A (8) were, isolated from the roots of Illicium verum, together with seven known compounds: 4-allyl-2-(3-methylbut-2-enyl)-1,6-methylenedioxybenzene-3-ol (2), illicinole (3), 3-hydroxy-4,5-methylenedi

Three new compounds from Kadsura longipedunculata

Two new tetrahydrofuran lignans, kadlongirins A and B (1, 2), a new cadinane-type sesquiterpenoid, 2,7-dihydroxy-1 1,1 2-dehydrocalamenene (3), together with seven known lignans, grandisin, fragransin B-1, vladirol F, kadsuralignan C, otobaphenol, isoanwu

Anti-HIV-1 activities of compounds isolated from the medicinal plant Rhus chinensis

Aim of the study: Previously, we reported that the petroleum ether fraction, RC-1, and EtOAc fraction, RC-2, of the medicinal plant Rhus chinensis showed potent anti-HIV-1 activities. To address anti-HIV-1 constituents of RC-1 and RC-2, 17 compounds were

Compounds from Kadsura heteroclita and related anti-HIV activity

Phytochemical investigation of the stems of Kadsura heteroclita led to isolation of 16 compounds, including the triterpenoid named longipcdlactone J (2), and two dibenzocyclooctadiene type lignans named heteroclitin I and J (3, 4). Compounds 8-10, 14, and

Anti-HIV Activities of the Compounds Isolated from Polygonum cuspidatum and Polygonum multiflorum

The 70% EtOH extract of Polygonum cuspidatum showed inhibitory action against HIV-1-induced syncytium formation at non-cytotoxic concentrations in vitro with a 50% effective concentration (EC50) of 13.94 +/- 3.41 mu g/mL. Through bioactivity-guided fractionation, 20 phenolic compounds, including eight stilbenoids, were isolated from the roots of Polygonum cuspidatum, and their anti-HIV-1 activities were evaluated. Results showed that compounds 1, 13, 14, and 16 demonstrated fairly strong antiviral activity against HIV-1-induced cytopathic effects in C8166 lymphocytes at non-cytotoxic concentrations, with EC50 values of 4.37 +/- 1.96 mu g/mL, 19.97 +/- 5.09, 14.4 +/- 1.34 mu g/mL, and 11.29 +/- 6.26 mu g/mL and therapeutic index (TI) values of 8.12, > 10.02, > 13.89, and > 17.71, respectively. Other compounds showed either weak or no effects. Compound 6 also showed weak inhibition (153.42 +/- 19.25 mu g/mL); however, it possesses very good water solubility and showed almost no cytotoxicity (> 2000 mu g/mL), therefore achieving a fairly good TI (13.04). The activities of the two compounds (3 and 18) from Polygonum multiflorum were also assayed. The relationship between molecular structures and their bioactivities was also discussed.