高速逆流色谱法制备罗汉果根中葫芦素类化合物

葫芦素作为四环三萜类化合物广泛存在于葫芦科植物中,但其含量较低、结构相似,采用常规的柱层析分离法较难得到大量、高纯度的单体化合物,导致其活性的研究与应用受到限制.研究采用高速逆流色谱法(HSCCC),建立了一种从罗汉果根提取物中制备葫芦素类化合物的方法.罗汉果根乙醇提取物经HPD-100大孔树脂、MCI、RP-C18柱...

Preparation of cucurbitacin compounds in Siraitia grosvenorii roots by high speed countercurrent chromatography

Siraitia grosvenorii (Swingle) C. Jeffrey, belonging to the family Cucurbitaceae, is a natural sweetener. The roots of this plant are used in folk medicine for the treatment of rheumatoid arthritis. Cucurbitacins play an important role in the resistance of this plant to insects and adversity, and have anti-inflammatory, anti-tumor, and other biological activities. They usually exist as a variety of similar structures in Cucurbitaceae plants. Separation of a large amount of high-purity monomer compounds by the conventional separation method based on column chromatography is difficult, which limits the research and application of their activities. Therefore, we chose a new method for this separation. High-speed countercurrent chromatography (HSCCC) is a liquid-liquid chromatographic technique characterized by high recovery and reproducibility, and is considered a very effective method for the separation of natural compounds present in various plant extracts. An appropriate solvent system is the key for efficient separation, but its selection is tedious, which hampers the wider implementation of HSCCC in chemical research involving preparative separations. In this study, based on the general estimation strategy by using the TLC solvent system (GUESS), the corresponding relationship between the partition distribution coefficient (K value) and the TLC retention factor (R_f value) of the compounds was established by the partition experiment. The R_f value and separation coefficient α were calculated using the water-saturated organic phase as the expansion agent, which could minimize the number of countercurrent separation experiments required in solvent system selection. In this study, HSCCC was used to establish an efficient method for the extraction of cucurbitacins from the root extract of Siraitia grosvenorii. A fraction rich in cucurbitacins was obtained from the ethanol extract of Siraitia grosvenorii roots after separation by column chromatography on HPD-100, MCI, and C18 columns. Six types of solvent systems with different compositions were investigated using the GUESS method. The results showed that employing the solvent system of n-hexane-ethyl acetate-methanol-water (3∶7∶3∶7, v/v/v/v) to partition the cucurbitacin fraction could remove a large number of impurities. The components retained in the upper phase in the partition experiment were subsequently purified by HSCCC. The favorable solvent system for HSCCC was n-hexane-ethyl acetate-methanol-water (4∶6∶5∶5, v/v/v/v), while the upper and lower phases were selected as the stationary and mobile phases, respectively, with a flow rate of 2.0 mL/min, a rotation speed of 860 r/min, and an injected sample weight of 280 mg. Five cucurbitacin compounds were obtained by one-time separation. The weights of the five compounds were 14.73, 8.82, 30.74, 5.03, and 3.81 mg. The purities of these compounds were 97.0%, 95.4%, 96.3%, 91.6%, and 95.3%, respectively. Their structures were identified as cucurbitacin Q1, 23,24-dihydrocucurbitacin F-25-acetate, cucurbitacin B, 23,24-dihydrocucurbitacin B, and dihydroisocucurbitacin B-25-acetate by¹H-NMR and ¹³C-NMR spectroscopies, along with comparison with the literature. This study demonstrated how GUESS guidance accelerates the selection of HSCCC solvent systems, simplifies the workflow, and it provides an efficient preparative method for the separation of chemical constituents from the Siraitia grosvenorii roots, which can also be used as a new method for the large-scale preparation of cucurbitacin compounds.