Discovery and SAR study of hydroxyacetophenone derivatives as potent,non-steroidal farnesoid X receptor (FXR) antagonists

Compound 1 (IC₅₀ = 35.2 ± 7.2 μM), a moderate FXR antagonist was discovered via high-throughput screening. Structure–activity relationship studies indicated that the shape and the lipophilicity of the substituents of the aromatic ring affect the activity dramatically, increasing the shape and the lipophilicity of the substituents of the aromatic ring enhances the potency of FXR antagonists. Especially, when the OH at C2 position of the aromatic ring was replaced by the OBn substituent (analog 2b), its activity could be improved to IC₅₀ = 1.1 ± 0.1 μM. Besides, the length of the linker and the tetrazole structure are essential for retaining the activity.     

帕米尔红景天化学成分的研究

从帕米尔红暾天根中分离得到八个成分（Ⅰ、Ⅱ、Ⅲ、Ⅳ、Ⅴ、Ⅵ、Ⅶ、Ⅷ）,经ＵＶ,ＩＲ,＾１ＨＮＭＲ,＾１３ＣＮＭＲ及化学方法鉴定了它们的结构,分别是正二十二（Ⅰ）,Ｇｌｕｔｉｎ－５－ｅｎ－３ｏｎｅ（Ⅱ）,β－谷甾醇（Ⅲ）,二十六烷酸（Ⅳ）,对羟基乙酮（Ⅴ）,山东奈酚（Ⅳ）,没食子酸（Ⅶ）,云杉甙（Ⅷ）,这些成分均为首次从该植物中获得。     

Inhibitory effects of choleretic hydroxyacetophenones on ileal bile acid transport in rats

The effects of the choleretic and cholesterol lowering compound, 2,4,6-trihydroxyacetophenone (THA) and its analog, 2,6-dihydroxyacetophenone (DHA), on ileal bile acid absorption were investigated in rats. THA inhibited taurocholate (TC) uptake into ileal brush-border membrane vesicles (BBMV), showing a maximum inhibition of 50%, whereas DHA completely inhibited TC uptake into ileal BBMV. THA exhibited competitive inhibition with a Ki of 9.88 mM, while DHA showed non-competitive inhibition with a Ki of 7.65 mM. Both total and ouabain-sensitive basolateral membrane (BLM) Na+-K+-ATPase activities, which are essential for maintenance of the Na+-gradient for bile acid transport, were inhibited by THA and DHA in a dose-dependent manner. The inhibition of BLM ATPase was uncompetitive with a Ki of 10.1 and 5.0 mM for THA and DHA, respectively. Administration of THA or DHA (400 micromol/kg) twice a day, to hypercholesterolemic rats for 3 weeks caused similar and marked reductions in plasma cholesterol to 60% of the cholesterol-fed controls. The data suggest that the inhibitory actions of THA and DHA on two essential components of ileal bile acid recycling to liver could, in part, contribute to the cholesterol lowering effect of the hydroxyacetophenone compounds. These effects on decreasing bile acid recycling, in combination with their potent choleretic effect, accelerating biliary excretion of bile acids, are responsible for the effective cholesterol lowering capacities of these compounds.