Comparison of preparative HPLC/MS and preparative SFC techniques for the high-throughput purification of compound libraries

A diverse set of 16 high-throughput organic synthesis libraries, consisting of 48 samples per library, has been purified by both preparative supercritical fluid chromatography (SFC) and preparative high-performance liquid chromatography (HPLC). This paper details the relative effectiveness of these two purification techniques in terms of success, yield, and purity of final product.     

胰岛素反相制备色谱的方法开发

以胰岛素反相制备色谱方法的开发和优化为目标,通过考察色谱保留参数、峰展宽及样品流出曲线的浓度分布等色谱参数,对流动相梯度、色谱填料、载样量等色谱条件进行了优化,并建立了胰岛素制备色谱峰参数的描述方法。结果表明,所建立的方法可快速筛选出最适于胰岛素分离的色谱条件(包括流动相梯度及分离填料),即流动相中的强洗脱溶剂(有机相)需采取缓梯度窄区间的变化条件,筛选出的分离填料需具备峰向两侧展宽且展宽程度较小、样品最高浓度居中分布的特点。将方法用于实际胰岛素粗品的纯化制备,获得了杂质去除效果好、胰岛素纯度高的产品。该法为胰岛素反相色谱纯化制备方法的快速建立提供了指导,具有较强的实用价值,同时为发展大分子化合物的制备色谱方法提供了参考。     

High-throughput preparative process utilizing three complementary chromatographic purification technologies

A high-throughput process was developed in which wells in plates generated from parallel synthesis are automatically channeled to an appropriate purification technique using analytical data as a guide. Samples are directed to either of three fundamentally different preparative techniques: HPLC with UV-triggered fraction collection, supercritical fluid chromatography (SFC) with UV-triggered fraction collection, or HPLC with MS-triggered fraction collection. Automated analysis of the analytical data identifies the product compound mass and creates work lists based on chromatographic properties exhibited in the data so that each preparative instrument cherry picks the appropriate list of samples to purify when a preparative-scale plate is loaded.     

Practical method for the definition of chromatographic peak parameters in preparative liquid chromatography

A practical method was established for the definition of chromatographic parameters in preparative liquid chromatography. The parameters contained both the peak broadening level under different amounts of sample loading and the concentration distribution of the target compound in the elution. The parameters of the peak broadening level were defined and expressed as a matrix, which consisted of sample loading, the forward broadening and the backward broadening levels. The concentration distribution of the target compound was described by the heat map of the elution profile. The most suitable stationary phase should exhibit the narrower peak broadening and it was best to broaden to both sides to compare to the peak under analytical conditions. Besides, the concentration distribution of the target compounds should be focused on the middle of the elution. The guiding principles were validated by purification of amitriptyline from the mixture of desipramine and amitriptyline. On the selected column, when the content of the impurity desipramine was lower than 0.1%, the recovery of target compound was much higher than the other columns even when the sample loading was as high as 8.03 mg/cm³. The parameters and methods could be used for the evaluation and selection of stationary phases in preparative chromatography.     

Sample capacity in preparative high-speed counter-current chromatography

High-speed counter-current chromatography (HSCCC) is a versatile technique in preparative separation and purification of pure compounds from complex matrices. As a preparative chromatography, there is a need to maximize the column production. Based on the plate theory of Van Deemter, the effect of the sample load on the separation was investigated in a preparative HSCCC with a 1000 ml column capacity. The test samples of hydroquinone, pyrocatechol and phenol were separated using a two-phase solvent system of n-hexane-ethyl acetate-ethanol-water (1:1:1:1, v/v/v/v) at different sample loads. The results showed that for the case of HSCCC, the agreement of the effect of sample load on peak height and peak width between the Van Deemter's theory and the experiments is excellent. Furthermore, the factors limiting the mass load, including the resolution between the peaks, the partition isotherm and the solute solubility were also discussed.     

UV-based solvent system screening for high-speed counter-current chromatography fractionation of compounds with similar UV absorption from complex samples followed by preparative HPLC purification: Flavonoids from barley seedlings as sample

This article proposes a solvent system screening strategy for compounds with similar UV absorption in complex samples by UV spectrophotometer. There is no need to calculate the partition coefficient value of each compound, only the partition coefficient of the whole sample. The partition coefficient value should be close to 1 in order to obtain as many high-speed counter-current chromatography fractions as possible. Then, preparative HPLC was used to purify the high-speed counter-current chromatography fractions. Based on the above strategy, seven c-glycosyl flavonoids and an amino acid were successfully obtained from barley seedlings through high-speed counter-current chromatography fractionation with ethyl acetate/n-butanol/water (8:2:10, v:v:v) system followed by preparative HPLC purification. The research shows that high-speed counter-current chromatography could be well developed as a tool for fractionation before purification, and greatly improves the separation efficiency.     

Development of a mass-directed preparative supercritical fluid chromatography purification system

In this paper, we report the development of a mass-directed supercritical fluid chromatography (SFC) purification system. We have addressed issues on software compatibility, the interface between the preparative SFC and the mass spectrometer, and fraction collection. Good peak shape and signal were achieved in the mass spectrometry (MS) trace, allowing accurate peak detection and reliable fraction collection. Simple modifications on a commercially available fraction collector enabled fractionation at atmospheric pressure with high recovery. The SFC/MS purification system has been used in support of high-throughput library purification and has been proven to be a valuable tool in complementing our reversed-phase high-performance liquid chromatograph (RP-HPLC/MS)-based technology platform.     

制备液相色谱法分离纯化碘帕醇

基于制备液相色谱法,开发与优化了碘帕醇的分离纯化工艺,制备得到高纯度碘帕醇样品。实验首先在分析水平发展碘帕醇的反相分离方法,考察了两种不同键合量的反相C18固定相、柱温和上样量对碘帕醇的保留、分离度和峰形等的影响。结果表明,碘帕醇在键合量为13.7%的反相C18-1分析柱（250 mm×4.6 mm,10 μm）上保留较好,且可与杂质有效分离;柱温升高,碘帕醇保留变弱,和杂质之间的分离度降低,最终选用20~25℃作为分离纯化的温度;上样量增加,碘帕醇出峰时间提前,不利于前杂的去除。在制备水平上,以水和甲醇为洗脱剂,在20℃条件下使用装填C18-1固定相的制备柱（270 mm×50 mm,10 μm）对碘帕醇进行分离纯化,制备的碘帕醇样品的色谱纯度可达98.97%,回收率为93.44%,各项有关物质均符合限量规定。该方法可以在保证高回收率的条件下有效降低杂质水平,为碘帕醇分离纯化生产工艺的开发提供新方法。     

Automated post-collection concentration for purified preparative fractions via solid phase extraction

Recent advancements in preparative HPLC have improved and streamlined compound purification. However, fraction evaporation remains a bottleneck within the process. An alternative to fraction evaporation is to remove the water and reduce the overall volume of the collection by trapping the fraction onto a solid phase extraction (SPE) cartridge. This method (as opposed to analytical applications involving SPE) works by collecting and then diluting the fraction(s), passing the fraction(s) through a SPE, drying the SPE with nitrogen and ultimately eluting the concentrated fraction(s) in a small amount of 100% organic solvent. An appreciable breakthrough is not observed using this method. In addition, recovery from the SPE for the tested compounds rosmarinic acid and carvacrol, two naturally occurring antioxidants in oregano, was found to be 95-98% for a 100mg injection via preparative HPLC purification at 50mg/compound.     

Parallel preparative high-performance liquid chromatography with on-line molecular mass characterization

High-throughput chemistry (HTC) is now an integral part of the lead discovery process in many pharmaceutical and related chemical companies. As this process becomes refined or improved, with the integration of systems with enhanced capabilities, and the requirement for quality compounds of high purity increases, purification is often considered a bottleneck. Although a wide range of purification techniques is available, high-performance liquid chromatography (HPLC) is usually the preferred method of purification to produce high-purity compounds. Parallel preparative HPLC with robust UV-guided fraction collection has been shown to reduce the bottleneck and complement the parallel synthesis systems. However, despite the success of this technique, post-purification analysis of fractions to identify the target compound adds an additional level of complexity. This paper describes the interfacing of the Biotage Parallex with the MUX interface on a single quadrupole mass spectrometer, thus combining robust UV-guided fractionation with on-line MS characterization.     

Parameters of preparative centrifugal thin-layer chromatography

Summary The separation performance of preparative, centrifugal thin-layer chromatography was investigated for various flow rates and rotational speeds by means of a modified commerical instrument. High flow rates give rapid separations but require large amounts of solvent. Maximum separation (that is, greatest resolution R_s) is obtained at medium speeds and flow rates. The maximum sample size for a successful separation depends primarily on the type of substance. It varies from 10 to 1 000 mg per compound and per mm of layer thickness. Centrifugal TLC is superior to conventional layer chromatography. Possible improvements of the instrument are pointed out.     

Preparative reversed-phase liquid chromatography of peptides. Isocratic two-step elution system for high loads on analytical columns

We have developed further our novel sample displacement chromatography (SDC) methodology to carry out preparative separations on analytical equipment and 15-cm analytical columns for sample loads < or = 200 mg. Thus, a two-step isocratic SDC protocol was developed and applied to the purification of important biologically active peptides, i.e. bradykinin antagonists of 10 and 11 residues. Following sample loading in 100% aqueous solvent at a concentration of approximately 7-10 mg/ml (with sample loads varying from 67 to 200 mg) onto a small C18 column (150 x 4.6 mm I.D., made up of three 50-mm columns attached in series), we applied isocratic elution with aqueous acetonitrile at two concentrations, the first (lower concentration) to displace hydrophilic impurities off the column and the second (higher concentration) to displace pure product from the column; hydrophobic impurities remain trapped on the column. This modified SDC approach promises to allow great flexibility in purifying peptides, at high yield of pure product (> 99% purity), and encompassing a range of sample hydrophobicities as well as sample loads (< or = 200 mg) varying by as much as a factor of three.     

Two-pump at-column-dilution configuration for preparative liquid chromatography-mass spectrometry

Preparative liquid chromatography-mass spectrometry (LC-MS) is widely used in parallel synthesis schemes to expedite purification. Recently, an alternative sample loading scheme, at column dilution, has been shown to dramatically increase the mass loading capacity of LC-MS purification methods. The prototype system utilized separate sample loading and binary gradient pumps. We report here a configuration for effecting at-column dilution using only the two pumps that provide the binary gradient flow. The advantages of a two-pump configuration are reduced cost, reduced space requirements, simplified control, and reduced service and maintenance issues. The two-pump at-column-dilution configuration is demonstrated for large- and small-scale LC-MS purifications. Purification on scales appropriate for high-throughput parallel synthesis can be achieved with small-scale chromatography using at-column dilution; purification of 20 mg of material is demonstrated using a 4.6 mm x 150 mm column and a flow rate of 3 mL/m. Reducing the scale of chromatography required for LC-MS purification has significant benefits, including the following. It requires less expensive columns, consumes less solvent, generates smaller-volume fractions (shorter dry-down time and the ability to collect into small-volume collector formats, such as 96-well plates), and has the potential for faster separations.     

Microwave-assisted oxidation of silibinin: a simple and preparative method for the synthesis of improved radical scavengers

A new and preparative oxidation of silibinin has been developed to give access to two different silibinin derivatives known for their enhanced antioxidant properties. Conventional heating methods were compared with results obtained from microwave (MW) heating. The base-catalysed oxidation of silibinin under MW heating is a very efficient method for the preparation of 2,3-dehydrosilybin and a related silybin rearrangement product. This latter compound shows enhanced radical scavenging properties. Optimised conditions were used to prepare 2,3-dehydrosilybins A and B from optically pure silybins A and B. An efficient, preparative purification method was also developed to enable isolation of different products in high purity.     

反相液相制备色谱法结合超临界流体制备色谱法分离纯化海风藤中的化合物

建立了基于反相液相制备色谱和超临界流体制备色谱的组合方法,用于分离纯化醇提水沉后石油醚层中的海风藤。首先以甲醇作为改性剂,采用醇提水沉法去除海风藤甲醇提取物中的叶绿素,加入硅藻土后用石油醚回流富集目标成分。选用反相C18制备色谱柱将其分为18个组分,然后将组分在SFC模式下进行制备。选用酰胺色谱柱,以甲醇为改性剂,在柱温30℃、背压15.0 MPa的条件下进行分离。基于反相色谱和超临界流体色谱不同的分离选择性,最后分离得到6个高纯度化合物。该法展示了反相制备色谱和超临界流体制备色谱在海风藤分离纯化方面的优势,特别是超临界流体色谱在天然产物的分析和制备方面的巨大潜力。     

A systematic investigation of recovery in preparative reverse phase high performance liquid chromatography/mass spectrometry

In this paper we report a systematic recovery study based on reversed phase high performance liquid chromatography (RP-HPLC) separation and mass spectrometric (MS) based fractionation. Factors including a compound's physicochemical properties, column mass loading and presence of impurities were investigated through commercially available compounds. Results suggest that the delay time between MS peak detection and fraction collection, fraction detector's signal-to-noise ratio and compound's base peak width in the chromatogram have the biggest impacts on purification recovery. In an effort to assess sample recovery within our high throughput purification process, re-purification was performed on four compound libraries that were synthesized in-house. Reproducible recoveries (>80%) were achieved in all tests.     

Purification of alkaloids from Corydalis yanhusuo W. T. Wang using preparative 2‐D HPLC

Two‐dimensional preparative multi‐channel parallel high performance liquid chromatography was successfully applied for the first time to isolate and purify alkaloids from Corydalis yanhusuo. The experiments were performed in off‐line mode using the same preparative chromatographic column with pH 3.5 in the first and pH 10.0 in the second separation dimension. In the preparative process, UV‐triggered fraction collection was used in the first dimension while UV and MS‐triggered collection were used in the second dimension for reasons of sensitivity and complementarity. Two pure compounds and nine fractions were obtained in the first dimension. Then two representative fractions were further purified in the second dimension and six pure compounds were obtained. The results demonstrated that this procedure is an effective approach for the preparative isolation and purification of alkaloids from Corydalis yanhusuo. Based on the different pH values of the mobile phase in this method, it is also suitable for the preparative isolation and purification of other compounds from TCMs which are sensitive to the pH of the solutions. Moreover, this method will be a promising tool for the purification of low content compounds from natural products.     

High-Performance Hydrophobic Interaction Chromatography of Proteins on TSKgel Phenyl-5PW Preparative Column

Abstract

TSKgel Phenyl-5PW preparative column of 200 × 55 mm I.D. was evaluated with respect to resolution, sample loading capacity and applications to the purification of enzymes. The preparative column provided similar separations as analytical column (75 × 7.5 mm I.D.) and 150 × 21.5 mm I.D. preparative column. The sample loading capacity was 200 – 1000 mg depending on the sample. If the slight decrease in resolution is acceptable, much more samples could be applied. Lipoxidase, phosphoglucose isomerase and lactate dehydrogenase could be purified to a great extent with high recovery of activity (more than 80%).     

Synthesis and optical properties of (<Emphasis Type="Italic">S</Emphasis>)-Nobin

A preparative method of synthesis of optically pure S-2-amino-2′-hydroxy-1,1′-binaphthyl (S-Nobin), the precoursor in the synthesis of other asymmetric 1,1-binaphthyls applied as the ligands at the creation of the catalysts of asymmetric synthesis, is modified. The UV and CD spectra of this compound were studied in detail and essential dependence of spectral information on the solvent nature was shown.     

Small-scale preparative supercritical fluid chromatography of cyproterone acetate

Summary A method for the micropreparative fractionation of steroid hormones from process solutions was developed. Using a commercial SFC equipment and raw cyproterone acetate (CPA) as a model sample, we showed the value of SFC as a lab scale purification method and also its potential as an environmentally friendly approach to preparative scale chromatography.