Separation and purification of four compounds from Desmodium styracifolium using off‐line two‐dimensional high‐speed counter‐current chromatography

An off‐line 2D high‐speed counter‐current chromatography technique in preparative scale has been successfully applied to separate and purify the main compounds from the ethyl acetate extract of Desmodium styracifolium. A two‐phase solvent system composed of n‐hexane/ethyl acetate/methanol/water at an optimized volume ratio of 1:2:1:2 v/v/v/v was used. Conventional high‐speed counter‐current chromatography was used as the first dimension, and the upper phase of the solvent system was used as the stationary phase in the head‐to‐tail elution mode at a flow rate of 2.0 mL/min and a rotation speed of 900 rpm. Recycling high‐speed counter‐current chromatography served as the second dimension to separate an impure fraction of the first dimension. A total of four well‐separated substances including vanillic acid ( 1 ), β‐sitosterol ( 2 ), formononetin ( 3 ), and aromadendrin ( 4 ) were obtained, and their purities and structures were identified by HPLC–MS and ¹H NMR spectroscopy. The results illustrated that off‐line 2D high‐speed counter‐current chromatography is an effective way to isolate compounds in complex samples.     

Semi‐preparative high‐speed counter‐current chromatography separation of alkaloids from embryo of the seed of Nelumbo nucifera Gaertn by pH‐gradient elution

A new high‐speed counter‐current chromatography method for semi‐preparative separation and purification of alkaloids from embryo of the seed of Nelumbo nucifera Gaertn was developed by using pH‐gradient elution mode. Diethyl ether was used as the stationary phase of the two‐phase solvent system and Na₂HPO₄/NaH₂PO₄ buffer solution with pH values of 7.5 and 7.2 in gradient mode as the mobile phase. Consequently, 33 mg of liensinine, 42 mg of isoliensinine, and 67 mg of neferine were obtained from 200 mg of crude extracts. The purities of them were all over 98% as determined by HPLC area normalization method, and the structures were identified by ¹H‐NMR and ¹³C‐NMR.     

Separation of nine compounds from Salvia plebeia R.Br. using two‐step high‐speed counter‐current chromatography with different elution modes

Nine compounds were successfully separated from Salvia plebeia R.Br. using two‐step high‐speed counter‐current chromatography with three elution modes. Elution–extrusion counter‐current chromatography was applied in the first step, while classical counter‐current chromatography and recycling counter‐current chromatography were used in the second step. Three solvent systems, n‐hexane/ethyl acetate/ethanol/water (4:6.5:3:7, v/v), methyl tert‐butyl ether/ethyl acetate/n‐butanol/methanol/water (6:4:1:2:8, v/v) and n‐hexane/ethyl acetate/methanol/water (5:5.5:5:5, v/v) were screened and optimized for the two‐step separation. The separation yielded nine compounds, including caffeic acid ( 1 ), 6‐hydroxyluteuolin‐7‐glucoside ( 2 ), 5,7,3′,4′‐tetrahydroxy‐6‐methoxyflavanone‐7‐glucoside ( 3 ), nepitrin ( 4 ), rosmarinic acid ( 5 ), homoplantaginin ( 6 ), nepetin ( 7 ), hispidulin ( 8 ), and 5,6,7,4′‐tertrahydroxyflavone ( 9 ). To the best of our knowledge, 5,7,3′,4′‐tetrahydroxy‐6‐methoxyflavanone‐7‐glucoside and 5,6,7,4′‐tertrahydroxyflavone have been separated from Salvia plebeia R.Br. for the first time. The purities and structures of these compounds were identified by high‐performance liquid chromatography, electrospray ionization mass spectrometry, ¹H and ¹³C NMR spectroscopy. This study demonstrates that high‐speed counter‐current chromatography is a useful and flexible tool for the separation of components from a complex sample.     

穿心莲药材高效液相色谱指纹图谱研究及其应用

应用反相高效液相色谱(RP-HPLC)法建立穿心莲药材指纹图谱。首先以穿心莲对照药材为对象建立其乙醇提取物特征色谱图,再用5种不同来源穿心莲药材的乙醇提取物验证色谱图的指纹特性。在穿心莲药材乙醇提取物特征色谱图中有共有峰10个,各共有峰的相对保留时间与相对峰面积的相对标准偏差(RSD)均小于4%。对照药材中共有峰峰面积占总峰面积的98.5%以上。该指纹图谱用于清火栀麦胶囊中穿心莲的鉴别专属性良好。     

Separation and purification of four flavonol diglucosides from the flower of Meconopsis integrifolia by high‐speed counter‐current chromatography

Flavonoids are the main components of Meconopsis integrifolia (Maxim.) Franch, which is a traditional Tibetan medicine. However, traditional chromatography separation requires a large quantity of raw M. integrifolia and is very time consuming. Herein, we applied high‐speed counter‐current chromatography in the separation and purification of flavonoids from the ethanol extracts of M. integrifolia flower. Ethyl acetate/n‐butanol/water (2:3:5, v/v/v) was selected as the optimum solvent system to purify the four components, namely quercetin‐3‐O‐β‐d‐ glucopyrannosy‐(1→6)‐β‐d‐ glucopyranoside (compound 1 , 60 mg), quercetin 3‐O‐[2’’’‐O‐acetyl‐β‐d‐ glucopyranosyl‐(1→6)‐β‐d‐ glucopyranoside (compound 2 , 40 mg), quercetin 3‐O‐[3’’’‐O‐acetyl‐β‐d‐ glucopyranosyl‐(1→6)‐β‐d‐ glucopyranoside (compound 3 , 11 mg), and quercetin 3‐O‐[6’’’‐O‐acetyl‐β‐d‐ glucopyranosyl‐(1→6)‐β‐d‐ glucopyranoside (compound 4 , 16 mg). Among the four compounds, 3 and 4 were new acetylated flavonol diglucosides. After the high‐speed counter‐current chromatography separation, the purities of the four flavonol diglucosides were 98, 95, 90, and 92%, respectively. The structures of these compounds were identified by mass spectrometry and NMR spectroscopy.     

Separation of five oligostilbenes from Vitis amurensis by flow‐rate gradient high‐performance counter‐current chromatography

A rapid and efficient high‐performance counter‐current chromatography (HPCCC) method was developed to separate five oligostilbenes from the roots of Vitis amurensis. An n‐hexane/ethyl acetate/methanol/water system (4:8:4:10, v/v/v/v) was selected as an optimal two‐phase solvent system of which the upper phase was used as the stationary phase and the lower phase was used as the mobile one. Partition coefficient values for the target compounds under these optimized conditions were 0.28 ( 1 , ampleosin A), 7.12 ( 2 , (+)‐g‐viniferin), 2.26 ( 3 , vitisin A), 5.38 ( 4 , wilsonol C), and 11.23 ( 5 , vitisin B). Flow‐rate gradient HPCCC (4 mL/min in 0–70 min, 8 mL/min in 70–250 min) was applied to isolate the target compounds in as high purity as possible within the shortest possible run time. Under these conditions, ampelopsin A (12.1 mg), (+)‐g‐viniferin (10.4 mg), vitisin A (2.8 mg), wilsonol C (3.2 mg), and vitisin B (37 mg) were isolated with >95% purity from 150 mg of enriched oligostilbene extract. Although the K_D of the last eluted compound, vitisin B (K_D = 11.23), was relatively large, it was eluted in 115–145 min using the two‐phase solvent system. This study shows that HPCCC is an efficient tool for the isolation and purification of natural products.     

Separation of anthraquinone compounds from the seed of Cassia obtusifolia L. using recycling counter‐current chromatography

Recycling counter‐current chromatography (CCC) together with step‐gradient CCC and medium‐pressure liquid chromatography (MPLC) was employed to separate nine anthraquinone compounds from Cassia obtusifolia L. in this study. The results showed that recycling CCC is a powerful tool for compounds that are difficult to separate with common elution mode. CCC was the better option for crude material while MPLC had advantage for the final tuning. The combination of recycling CCC and MPLC could simplify the method exploring process in the separation process. The structures of these compounds were identified according to their mass spectra, by ¹H‐NMR and compared with standard compounds.     

Separation of five diketopiperazines from the marine fungus Alternaria alternate HK‐25 by high‐speed counter‐current chromatography

High‐speed counter‐current chromatography was applied to the separation of five diketoperazines from the marine Alternaria alternate HK‐25 for the first time using one‐step elution method with a pair of two‐phase solvent systems composed of petroleum ether/ethyl acetate/methanol/water (5.5:11:5:7, v/v). Where 151.6 mg of crude sample yielded five diketoperazines, 12,13‐dihydroxy‐fumitremorgin C ( 1 ), gliotoxin ( 2 ), demethoxyfum itremorgin C ( 3 ), bisdethiobis(methylthio)gliotoxin ( 4 ), fumitremorgin C ( 5 ), and the purities of all compounds were above 94% as determined by high‐performance liquid chromatography. The structures of these compounds were identified by ¹H and ¹³C NMR spectroscopy. These results showed that high‐speed counter‐current chromatography can provide a feasible way for highly effective preparation of marine natural products, which ensured the supple of numerous samples for drug development.     

Efficient isolation and purification of five products from microbial biotransformation of cinobufagin by high‐speed counter‐current chromatography

An efficient separation method of using high‐speed counter‐current chromatography was successfully established to directly purify cytotoxic transformed products of cinobufagin by Cordyceps militaris. The two‐phase solvent system composed of n‐hexane–ethyl acetate–methanol–water (4:6:3:4, v/v) was used in high‐speed counter‐current chromatography. A total of 9 mg of 4β,12α‐dihydroxyl‐cinobufagin ( 1 ), 15 mg of 12β‐hydroxyl‐cinobufagin ( 2 ), 8 mg of 5β‐hydroxyl‐cinobufagin ( 3 ), 12 mg of deacetylcinobufagin ( 4 ) and 6 mg of 3‐keto‐cinobufagin ( 5 ) were obtained in a one‐step separation from 400 mg of the crude extract with purity of 98.7, 97.2, 90.6, 99.1 and 99.4%, respectively, as determined by HPLC. Their chemical structures were identified on the basis of ¹H‐NMR and ¹³C‐NMR technology. All products ( 1 – 5 ) showed the potent activities against human carcinoma cervicis (Hela) and malignant melanoma (A375) cells in vitro.     

Isolation of terpenoids from Pimpinella anisum essential oil by high‐performance counter‐current chromatography

High‐performance counter‐current chromatography was successfully used for the isolation and purification of terpenoid compounds from the essential oil of Pimpinella anisum L. A two‐phase solvent system composed of n‐heptane/methanol/ethyl acetate/water (5:2:5:2, v/v/v/v) was suitable for the purification of linalool, terpinen‐4‐ol, α‐terpineol, p‐anisaldehyde, while n‐heptane/methanol (1:1, v/v) was used for the isolation of anethole and foeniculin. A scale‐up process from analytical to preparative was developed. Additionally, a stepwise gradient elution was applied and instead of two different runs, 40 min each, one 80 min separation was performed; although the time of separation remains the same, it was possible to repeat the efficiency even if the water‐containing mobile phase was changed to a nonaqueous system. The obtained essential oil, as well as purified compounds, was analyzed by GC. A total of 0.64 mg of linalool, 0.52 mg of terpinen‐4‐ol, 0.10 mg of α‐terpineol, 0.62 mg of p‐anisaldehyde, 15 mg of anethole, and 2.12 mg of foeniculin were obtained from 210 mg of the essential oil of P. anisum L. in a short time with purities of 99, 98, 94, 93.54, 93, and 93.6%, respectively.     

Preparative separation of capsaicin and dihydrocapsaicin from Capsicum frutescens by high‐speed counter‐current chromatography

Capsaicin and dihydrocapsaicin are two main bioactive components of Capsicum frutescens and are widely used as food additives and drugs in China and India. Due to their similarity in structures, isolation of capsaicin and dihydrocapsaicin with traditional methods such as silica gel column chromatography, normal‐phase thin‐layer chromatography (TLC) becomes difficult. This study involves separating capsaicin and dihydrocapsaicin with sufficient purity and recovery using high‐speed counter‐current chromatography (HSCCC) with a solvent system composed of n‐hexane–ethyl acetate–methanol–water–acetic acid (20:20:20:20:2, v/v/v/v/v). Separation parameters such as sample volume, and sample concentration were first optimized on analytical HSCCC, and then scaled up to preparative HSCCC. 0.65 g capsaicin and 0.28 g dihydrocapsaicin were obtained from 1.2 g crude extract and their purities were 98.5 and 97.8%, respectively. The recoveries of the two compounds were 86.3 and 85.4%, respectively. The purity of the isolated compounds was analyzed by high‐performance liquid chromatography (HPLC) and their structures were identified by ¹H nuclear magnetic resonance (NMR) and ¹³C NMR analysis.     

Isolation and purification of prenylated phenolics from Amorpha fruticosa by high‐speed counter‐current chromatography

Prenylated phenolics such as amorfrutins are recently identified potent anti‐inflammatory and antidiabetic natural products. In this work, high‐speed counter‐current chromatography was investigated for the isolation and purification of prenylated phenolics from the fruits of Amorpha fruticosa by using a two‐phase solvent system composed of n‐hexane/ethanol/water (5:4:1, v/v). As a result, 14.2 mg of 5,7‐dihydroxy‐8‐geranylflavanone, 10.7 mg of amorfrutin A and 17.4 mg of amorfrutin B were obtained from 200 mg of n‐hexane‐soluble crude extract in one step within 250 min. The purities of 5,7‐dihydroxy‐8‐geranylflavanone, amorfrutins A and B were 95.2, 96.7 and 97.1%, respectively, as determined by ultra high performance liquid chromatography. The structural identification was performed by mass spectrometry and ¹H and ¹³C NMR spectroscopy. The results indicated that the established method is an efficient and convenient way to purified prenylated phenolics from A. fruticosa extract.     

Preparative isolation and purification of antioxidative stilbene oligomers from Vitis chunganeniss using high‐speed counter‐current chromatography in stepwise elution mode

Preparative high‐speed counter‐current chromatography (HSCCC) was successfully applied to the isolation and purification of three stilbene oligomers from Vitis chunganeniss using stepwise elution with a pair of two‐phase solvent systems composed of n‐hexane–ethyl acetate–methanol–water at (2:5:2:5, v/v) and (1:2:1:2, v/v). The preparative HSCCC separation was performed on 800 mg of crude sample yielding hopeaphenol (21.1 mg), amurensin G (37.2 mg) and vitisin A (95.6 mg) in a one‐step separation, with purities over 95% as determined by HPLC. The structures of these three compounds were identified by MS, ¹H NMR and ¹³C NMR. In addition, their antioxidant activities were screened by DPPH assay, where vitisin A showed strong antioxidant activity. Further EPR experiments with spin‐trapping technique demonstrated that vitisin A is a potent and selective singlet oxygen quencher, which may be used in singlet oxygen‐mediated diseases as a pharmacological agent.     

Three‐phase solvent systems for the comprehensive separation of a wide variety of compounds from Dicranostigma leptopodum by high‐speed counter‐current chromatography

A three‐phase solvent system was efficiently applied for high‐speed counter‐current chromatography to separate secondary metabolites with a wide range of hydrophobicity in Dicranostigma leptopodum. The three‐phase solvent system of n‐hexane/methyl tert‐butyl ether/acetonitrile/0.5% triethylamine (2:2:3:2, v/v/v/v) was selected for high‐speed counter‐current chromatography separation. The separation was initiated by filling the column with a mixture of intermediate phase and lower phase as a stationary phase followed by elution with upper phase to separate the hydrophobic compounds. Then the mobile phase was switched to the intermediate phase to elute the moderately hydrophobic compounds, and finally the polar compounds still retained in the column were fractionated by eluting the column with the lower phase. In this research, 12 peaks were eluted out in one‐step operation within 110 min, among them, eight compounds with acceptable purity were obtained and identified. The purities of β‐sitosterol, protopine, allocryptopine, isocorydione, isocorydine, coptisine, berberrubine, and berberine were 94.7, 96.5, 97.9, 86.6, 98.9, 97.6, 95.7, and 92.8%, respectively.     

Isolation and purification of arctigenin from Fructus Arctii by enzymatic hydrolysis combined with high‐speed counter‐current chromatography

Enzymatic hydrolysis pretreatment combined with high‐speed counter‐current chromatography for the transformation and isolation of arctigenin from Fructus Arctii was successfully developed. In the first step, the extract solution of Fructus Arctii was enzymatic hydrolyzed by β‐glucosidase. The optimal hydrolysis conditions were 40°C, pH 5.0, 24 h of hydrolysis time, and 1.25 mg/mL β‐glucosidase concentration. Under these conditions, the content of arctigenin was transformed from 2.60 to 12.59 mg/g. In the second step, arctigenin in the hydrolysis products was separated and purified by high‐speed counter‐current chromatography with a two‐phase solvent system composed of petroleum ether/ethyl acetate/methanol/water (10:25:15:20, v/v), and the fraction was analyzed by HPLC, ESI‐MS, and ¹H NMR spectroscopy. Finally, 102 mg of arctigenin with a purity of 98.9% was obtained in a one‐step separation from 200 mg of hydrolyzed sample.     

Target‐guided isolation of polar antioxidants from Abelmoschus esculentus (L). Moench by high‐speed counter‐current chromatography method coupled with wavelength switching and extrusion elution mode

An off‐line two‐dimensional high‐speed counter‐current chromatography strategy combined with the wavelength switching technique and extrusion elution mode was successfully developed and applied to the isolation of polar antioxidants from Abelmoschus esculentus (L).Moench. Target‐guided by the result of 2,2‐diphenyl‐1‐picrylhydrazyl screening assay, four antioxidants were obtained with purities over 90% through orthogonal high‐speed counter‐current chromatography separation. UV spectroscopy, mass spectrometry and ¹H NMR spectroscopy were employed to identify their structures, which were assigned as l ‐tryptophan, quercetin‐3‐O‐sophoroside, 5,7,3′,4′‐tetrahydroxyflavonol‐3‐O‐[β‐d ‐rhamnopyranosil‐(1→2)]‐β‐d ‐glucopyranoside, and quercetin‐3‐O‐glucoside. Each monomer exhibited significant antioxidant activity. The results demonstrated that proposed method could be an effective approach to isolate bioactive compounds from complex natural products.     

Separation of six compounds from pigeon pea leaves by elution–extrusion counter‐current chromatography

A valid and reliable method was established to separate six compounds from pigeon pea leaves via elution‐extrusion counter‐current chromatography. A solvent system composed of n‐hexane/methanol/formic acid aqueous solution with pH = 3 (10:6:4, v/v) was screened to achieve satisfactory isolation from the ethanol extract of pigeon pea leaves. Four compounds, 9.2 mg of compound 1 (96.8%), 3.2 mg of 2 (88.0%), 6.2 mg of 4 (94.2%) and 25.2 mg of 5 (94.2%), were obtained by conventional elution from 100 mg of the precipitation fraction, respectively. Two compounds, 14.4 mg of 3 (96.3%) and 28.1 mg of 6 (96.6%), with high K values were obtained by the subsequent extrusion procedure. The compounds 1 – 6 were identified as 3‐methoxy‐5‐(2‐phenylethenyl)‐phenol, pinostrobin chalcone, pinostrobin, 2‐hydroxy‐4‐methoxy‐6‐(2‐phenylvinyl)‐benzoic acid, longistylin C and cajaninstilbene acid by quadrupole time‐of‐flight mass spectrometry, and ¹H and ¹³C NMR spectroscopy. The in vitro antiproliferation activities of compounds 1 , 5 and 6 against human hepatoma cell were evaluated and the half‐maximum inhibitory concentrations were acquired.     

Isolation and purification of macrocyclic components from Penicillium fermentation broth by high‐speed counter‐current chromatography

In this paper, high‐speed counter‐current chromatography (HSCCC), assisted with ESI‐MS, was first successfully applied to the preparative separation of three macrolide antibiotics, brefeldin A (12.6 mg, 99.0%), 7′‐O‐formylbrefeldin A (6.5 mg, 95.0%) and 7′‐O‐acetylbrefeldin A (5.0 mg, 92.3%) from the crude extract of the microbe Penicillium SHZK‐15. Considering the chemical nature and partition coefficient (K) values of the three target compounds, a two‐step HSCCC isolation protocol was developed in order to obtain products with high purity. In the two‐step method, the crude ethyl acetate extract was first fractionated and resulted in two peak fractions by HSCCC using solvent system n‐hexane/ethyl acetate/methanol/water (HEMWat) (3:7:5:5 v/v/v/v), then purified using solvent systems HEMWat (3:5:3:5 v/v/v/v) and HEMWat (7:3:5:5 v/v/v/v) for each fraction. The purities and structures of the isolated compounds were determined by HPLC, X‐ray crystallography, ESI‐MS and NMR. The results demonstrated that HSCCC is a fast and efficient technique for systematic isolation of bioactive compounds from the microbes.     

Separation and purification of hydrolyzable tannin from Geranium wilfordii Maxim by reversed‐phase and normal‐phase high‐speed counter‐current chromatography

Three hydrolyzable tannins, geraniin, corilagin and gallic acid, main active components of Geranium wilfordii Maxim, have been separated and purified in one‐step by both reversed‐phase and normal‐phase high‐speed counter‐current chromatography. Gallic acid, corilagin and geraniin were purified from 70% aqueous acetone extract of G. wilfordii Maxim with solvent system n‐hexane–ethyl acetate–methanol–acetic acid–water (1:10:0.2:0.2:20) by reversed‐phase high‐speed counter‐current chromatography at purities of 94.2, 91.0 and 91.3%, at yields of 89.3, 82.9 and 91.7%, respectively. Gallic acid, corilagin and geraniin were purified with solvent system n‐hexane–ethyl acetate–methanol–acetic acid–water (0.2:10:2:1:5) by normal‐phase high‐speed counter‐current chromatography at purities of 85.9, 92.2 and 87.6%, at yields of 87.4, 94.6 and 94.3%, respectively. It was successful for both reversed‐phase and normal‐phase high‐speed counter‐current chromatography to separate high‐polarity of low‐molecular‐weight substances.     

Preparative separation of bioactive compounds from essential oil of Flaveria bidentis (L.) Kuntze using steam distillation extraction and one step high‐speed counter‐current chromatography

In order to utilize and control the invasive weed, bioactive compounds from essential oil of Flaveria bidentis (L.) Kuntze were studied. Steam distillation extraction and one step high‐speed counter‐current chromatography were applied to separate and purify the caryophyllene oxide, 7,11‐dimethyl‐3‐methylene‐1,6,10‐dodecatriene, and caryophyllene from essential oil of Flaveria bidentis (L.) Kuntze. The two‐phase solvent system containing n‐hexane/acetonitrile/ethanol (5:4:3, v/v/v) was selected for the one step separation mode according to the partition coefficient values (K) of the target compounds and the separation factor (α). The purity of each isolated fraction after a single high‐speed counter‐current chromatography run was determined by high performance liquid chromatography. A 3.2 mg of caryophyllene oxide at a purity of 92.6%, 10.4 mg of 7,11‐dimethyl‐3‐methylene‐1,6,10‐dodecatriene at a purity of 99.1% and 5.7 mg of caryophyllene at a purity of 98.8% were obtained from 200 mg essential oil of Flaveria bidentis (L.) Kuntze. The chemical structures of these components were identified by GC‐MS, ¹H‐NMR, and ¹³C‐NMR.