High-performance liquid chromatography of proteins: Purification of the acidic isozyme of adenylosuccinate synthetase from rat liver

High-performance ion-exchange liquid chromatography was utilized for the purification of the acidic isozyme of adenylosuccinate synthetase from rat liver. Initial steps in the purification included ammonium sulfate fractionation and DEAE-cellulose and agarose-GTP affinity columns. The final steps were done on a SynChropak AX-300 anion-exchange support. The enzyme was purified 3000-fold with an overall yield of 10%. The enzyme preparation exhibited only one protein band on gel electrophoresis.     

High-performance liquid chromatographic separation of lipoxygenase isozymes in crude soybean extracts

A mixture of the soybean lipoxygenase isozymes purified by conventional methods was readily resolved by high-performance liquid chromatography using a SynChropak AX-300 anion-exchange column. Analysis of crude soybean extract by this procedure showed the presence of four different lipoxygenase activities. Mutant soybeans lacking in the isozymes lipoxygenase-1 and -3 were used to test the application of this procedure.     

Determination of saposin proteins (sphingolipid activator proteins) in human tissues

Saposins are small glycoproteins which are required for sphingolipid hydrolysis by lysosomal hydrolases. Each saposin (A, B, C, and D) stimulates a different enzymatic activity. A new simple HPLC method to determine the levels of saposins A, C, and D in tissue was developed. Tissues were homogenized in 20 vol of water, boiled, and centrifuged. The supernatant was lyophilized and redissolved in 5 ml of water. A 1.5-ml sample of the solution was applied to a reverse-phase HPLC column (C4 column) and eluted with an acetonitrile gradient. Most contaminants eluted from the column prior to the saposins, which were eluted later as a cluster of peaks. This cluster was collected and then analyzed by another HPLC system equipped with an AX-300 anion-exchange column using a NaCl gradient. Saposins D, A, and C eluted from the AX-300 column separately and in that order. Quantitation of the saposins was made by measuring the sizes of each peak. Standard curves made from pure saposins showed that quantification was linear over a range from 1 to 5 micrograms. Saposin B was measured by its stimulation activity on pure human liver GM1 ganglioside beta-galactosidase. Stimulation was linear up to 80 micrograms of saposin B. Application of this method to analysis of human tissues for their saposin content is presented.     

Separation of proteins by high-performance anion-exchange chromatography

The chromatographic separation of four proteins, cytochrome c, alpha 1-acid glycoprotein, ovalbumin, and beta-lactoglobulin, was achieved on a 4.6 X 250-mm wide-pore polyethyleneimine (PEI)-silica gel column (5-micron particles, 330-A pore size) with essentially baseline resolution using a 20-min linear gradient from 0.025 M potassium phosphate, pH 6.80, to 0.50 M potassium phosphate, pH 6.80. The back pressure of this anion-exchange column was 1000 psi at a flow rate of 1.0 ml/min. Protein recoveries averaged over 95% and protein capacity exceeded 33 mg for a single protein. Isocratic elution (0.040 M potassium phosphate, pH 6.8; flow rate, 0.50 ml/min) of ovalbumin gave a column efficiency of 15,700 plates/m with a peak asymmetry factor of 1.27. Resolution of these same four proteins on a 4.6 X 50-mm PEI-silica gel column occurred within 2 min. Nucleoside monophosphates were separated on the short PEI-silica column within 1 min with 0.01 M potassium phosphate, pH 2.58, at a flow rate of 6 ml/min which generated a column back pressure of 2000 psi.     

Effect of column dimensions and flow rates on size-exclusion refolding of beta-lactamase

We have investigated the effect of changing the column diameter and length on the size exclusion chromatography (SEC) refolding of beta-lactamase from Escherichia coli-derived inclusion bodies (IBs). Inclusion bodies were recovered and solubilised in 6 M GdnHCl and 5 mM DTT. Up to 16 mg of denatured, solubilised beta-lactamase was loaded onto size exclusion columns packed with Sephacryl S-300 media (fractionation range: 10(4)-1.5 x 10(6) Da). beta-Lactamase was refolded by eluting the loaded sample with 1 M urea in 0.05 M phosphate buffer, pH 7 at 23 degrees C. The following columns were studied: 26 x 400, 16 x 400 and 26 x 200 mm, with a range of mobile phase flow rates from 0.33 to 4.00 ml/min. beta-Lactamase was successfully refolded in all three columns and at all flow rates studied. The beta-lactamase activity peak coincided with the major protein peak. Reducing the column diameter had little effect on refolding performance. The enzyme activity recovered was relatively independent of the mobile phase linear velocity. Reducing the column length gave a poorer resolution of the protein peaks, but the enzyme activity peaks were well resolved. Calculation of the partition coefficients for beta-lactamase activity showed that the 26 x 400 column gave the greatest refolding performance.     

Sequence-Dependent DNA Separation by Anion-Exchange High-Performance Liquid Chromatography

High-performance liquid chromatography (HPLC) system with a new nonporous anion-exchange resin, DNA–NPR, made it possible to rapidly separate DNA fragments up to 20 kbp with high resolution. In order to further characterize this chromatographic DNA separation system, we prepared a mixture of double-stranded DNAs of constant length carrying a fully degenerated 50-bp region and analyzed their chromatographic behavior on the DNA–NPR column. The results indicated that the separation of DNA fragments on the anion-exchange HPLC was governed not only by size, but also by nucleotide sequence: even DNA fragments with the same size and the same base content could be separated on this column. Taking advantage of this characteristic feature of the anion-exchange HPLC, we could readily fractionate human cDNAs with practically acceptable recovery and high resolution. Furthermore, the combination of HPLC and gel electrophoresis realized separation of a mixture of DNA fragments in a two-dimensional pattern.     

Isocratic separation of DNA bases and deoxyribonucleosides by high-performance liquid chromatography on anex OSTION.

A high-performance liquid chromatographic method has been developed for the resoiusion of DNA bases and deoxyribonucleosides in mixture. The isocratic separation based on ion exelusion was achieved in column of 250-mm length and 2 mm i.d. packed with the spherical, totally porous anex OSTION LGAT 0800 of particle size 10–12 μm. The mobile phase consists of 5 mm ammonium formate pH 4.5 and complete resolution of an eight-component system is possible at a flow rate of 2 ml/h in 100 min. Rapid separation of the components, with exception of Cyt-dCyd, is reached at flow rate of 20 ml/h in 10 min.     

The examination and quantitation of tissue cytosolic receptors for 2,3,7,8-tetrachlorodibenzo-p-dioxin using hydroxylapatite

Ion-exchange chromatography of proteins and peptides has been most successfully achieved historically on hydrophilic gel matrices. The poor mechanical strength of these organic gels has necessitated the development of new supports for high-performance separations. High-performance supports are of three types: totally inorganic, totally organic, and composite inorganic-organic materials. Several ionic species such as diethylaminoethyl ethanol and poly-ethylene imine have been used as stationary phases with similar results. Pore-diameter selection has been shown to be important in both resolution and loading capacity. Capacity is maximum for proteins of 50 to 100 kilodaltons on 300-Å-pore-diameter supports. Maximum resolution of high-molecular-weight species also requires macroporous supports. Interestingly, column length is of minor importance in the resolution of proteins. Columns of 5-cm length have approximately the same resolution as those of 30-cm length. Application of high-performance ion-exchange chromatography to a variety of protein mixtures has now been reported. These supports generally give recoveries of enzyme activity equivalent to the classical supports.     

Preparative high speed gel permeation chromatography of proteins on Toyopearl HW55F

A method is described for the rapid separation of protein mixtures by high speed gel permeation chromatography using Toyopearl HW55F, a new semi-rigid hydrophilic polymer. Good resolution of protein mixtures according to molecular size can be achieved on this material with high flow rates and low column pressures. Molecular weight estimations in the range between 10⁴ and 10⁶ daltons can be performed within minutes. Large-scale enzyme purification (up to 1.6 gm of starting material with a 3.2 × 105 cm column) was achieved with 86–110% recovery of enzymatic activity. Data are presented on the optimum column length, flow rate, loading capacity and eluant ionic strength.     

Rapid purification of calmodulin and S-100 protein by affinity chromatography with melittin immobilized to sepharose

Melittin-Sepharose was prepared for Ca2+-dependent affinity chromatography of calmodulin and S-100 protein. This matrix exhibits extremely high capacity (approximately 10 mg calmodulin/ml gel), low nonspecific binding, and excellent recovery (greater than 90%) under optimal conditions. Recovery of calmodulin from melittin-Sepharose was related to the degree of saturation of column capacity with lower yields when only partial saturation was achieved. Large-scale, simultaneous purification of calmodulin and S-100 protein from brain was carried out using selective adsorption to organomercurial agarose followed by melittin-Sepharose chromatography; yields were 250-300 mg of calmodulin and 200-300 mg of S-100 per kg tissue. Calmodulin also was purified in a single step from bovine testis supernatant using melittin-Sepharose in yields comparable to those from brain.     

Preparative HPLC resolution of the CIS cyclohexane analogs of phenylalanine

The analytical resolution of different derivatives of cis c(6)Phe (cyclohexane analogs of phenylalanine) was tested by HPLC using the mixed 10-undecenoate/3,5-dimethylphenylcarbamate of amylose bonded on allylsilica gel as the chiral stationary phase. The same chiral support has allowed the enantioseparation of racemate cis-4 on a semipreparative column (150 x 20 mm ID) with a mixture of n-hexane/2-propanol/chloroform as the mobile phase. Some 200-300 mg of the optically pure enantiomers were isolated and transformed into the N-benzyloxycarbonyl amino acids. The X-ray diffraction structure of (1R;2R)-4 is reported.     

High-resolution liquid chromatography of DNA fragments on non-porous poly(styrene-divinylbenzene) particles.

DNA restriction fragments and PCR products were separated by means of ion-pair reversed-phase high-performance liquid chromatography on alkylated non-porous poly(styrene-divinylbenzene) particles with a mean diameter of 2.1 microns. Optimum resolution was obtained by using an acetonitrile gradient in 100 mM of triethylammonium acetate and a column temperature of 50 degrees C. This allowed the separation of DNA fragments differing in chain length by 1-5% up to a size of 500 base pairs. PCR products could be analyzed directly in less than two minutes with a concentration sensitivity of at least 300 ng/ml. Compared with anion-exchange chromatography or gel electrophoresis no desaltation of the purified DNA molecules is required because the volatile buffer system can be readily evaporated. Subsequently, the method was used for the semiquantitative evaluation of the expression of multidrug resistance genes in mononuclear white blood cells.     

High-performance liquid chromatographic analysis of radiolabeled inositol phosphates

Separation of inositol phosphates by low-pressure anion-exchange chromatography yields unsatisfactory results, while previously described anion-exchange HPLC methods require such extensive processing times that they preclude efficient sample analysis. Using a low-capacity Vydac nucleotide anion-exchange column, we have developed a method which allows complete separation of myo-inositol, inositol 1-phosphate, inositol 1,4-bisphosphate, inositol 1,4,5-trisphosphate, and inositol 1,3,4,5-tetrakisphosphate in approximately 10 min followed by a 5-min column regeneration time. This method provided exceptional reproducibility and quantitative recovery of each inositol phosphate. One column was used for over 300 separations with no loss in performance or alteration in elution pattern. A modified procedure with a 14-min gradient was developed to separate the 1,3,4- and 1,4,5-isomers of inositol trisphosphate. These separation procedures were used to characterize the kinetics of degradation of inositol phosphates by lysates of erythrocytes and neutrophils. We conclude that these procedures are applicable for rapid and quantitative analysis of radiolabeled inositol phosphates in cellular extracts.     

High resolution of multiple forms of red blood cell enzymes using a Toyopearl DEAE 650 S.

We have investigated a new anion exchange chromatographic support (Toyopearl DEAE 650 S) which simultaneously allows easily to remove hemoglobin from hemolysates and to obtain a very high resolution of enzymes present in multiple forms. The results obtained are better than those obtainable using an anion-exchange HPLC column. The data obtained at analytical level suggest a wider use of this new matrix also for preparative purposes without significant changes in the resolution.     

HPLC-analysis of algal pigments: comparison of columns,column properties and eluents

The effects of columns (Nucleosil C₁₈ODS, MZ-PAH, YMC-PACK C₃₀), column properties (inner diameters of 4 mm, 3 mm and 2 mm, pore-width 10 nm and 30 nm) and eluents (methanol, acetonitrile, acetone, water) were tested on the separation of algal pigments. The length of columns was 250 mm and particle size was 5 μm. Flow rates and gradients were adjusted to optimize peak separation; remaining chromatographic conditions were kept constant. The resolution of chromatographic systems was tested with pigment standards and various algal cultures. Total flow rate and retention times decreased with decreasing inner diameter, whereas pressure, sensitivity and peak-width increased. Pore width had negligible effects on the chromatographic separation of pigments under the test conditions. Only with acetonitrile as eluent were all the taxonomically important pigments resolved adequately: zeaxanthin (Cyanophyceae), lutein (Chlorophyceae), fucoxanthin (Bacillariopyceae), alloxanthin (Cryptophyceae), peridinin (Dinophyceae).     

The application of high-performance liquid chromatography for the resolution of proteins encoded by the human adenovirus type 2 cell transformation region

The human adenovirus 2 (Ad2) transformation genes are located in early region E1a (map position (mp) 1.3–4.5) and E1b (mp 4.6–11.2) on the linear duplex Ad2 DNA genome of M_r 23 × 10⁶ (viral DNA is divided into 100 map units). E1b codes for three major proteins of apparent molecular weights 53,000 (53K), 19K, and 20K; smaller quantities of 21K, 22K, and 23K proteins that are related to 53K are also synthesized in Ad2-infected cells. Because the resolution and purification of these Ad2 candidate transformation proteins proved very difficult by conventional protein purification methods, the applicability of high-performance liquid chromatography (HPLC) methodology was examined. Starting with a crude cytoplasmic S100 fraction of Ad2-infected human cells, the resolution of the Ad2 E1b-coded 19K, 20K, 21K, 22K, and 23K proteins by reverse-phase HPLC using a C₈ column and a linear 0–60% 1-propanol gradient in 0.5 m pyridine formate was achieved, E1b proteins purified under these conditions retained their immunological reactivity. By anion-exchange HPLC using a linear 10 mm to 1 m NaCl gradient in 10 mm 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid buffer, pH 7.6, the same five Ad2 E1b-coded 19K–23K proteins were separated, with improved resolution of the 19K protein. Based on these findings, protocols for the extensive purification of the E1b-19K and E1b-20K proteins have been developed. These results illustrate the potential of HPLC methodology for the rapid purification of biologically interesting proteins from complex cellular mixtures of proteins.     

Short columns with molecularly imprinted monolithic stationary phases for rapid separation of diastereomers and enantiomers

Three molecularly imprinted monolithic columns with different length but almost identical column volume had been prepared. It was observed that the separation factors of diastereomers and enantiomers were almost unaffected by column length. However, the short column with dimension of 38 mm x 8 mm i.d. showed much lower resistance to flow rate so that it could be operated at much higher flow rates. By combining stepwise gradient elution with elevated flow rate, the diastereomers of cinchonine and cinchonidine and the enantiomers of Cbz-DL-Trp and Fmoc-DL-Trp were successfully separated within 3 min on the short column with dimension of 38 mm x 8 mm i.d. Based on the above results, a cinchonine imprinted monolithic disk with dimension of 10mm x 16 mm i.d. was further developed. The SEM image and the pore size distribution profile showed that large flow-through pores are present on the prepared monolith, which allowed mobile phase to flow through the disk with very low resistance. Chromatographic performances on the monolithic disk were almost unchanged compared with the long columns. A rapid separation of cinchonine and cinchonidine was achieved in 2.5 min at the flow rate of 9.0 ml/min. Furthermore, it was observed that there was almost no effect of the flow rate on the dynamic binding capacity at high flow rates. In addition, the effect of the loading concentration of analytes on the dynamic binding capacity, namely adsorption isotherm, was also investigated. A non-linear adsorption isotherm of cinchonine was observed on the molecularly imprinted monolith with cinchonine as template, which might be a main reason to result in the peak tailing of template molecule.     

The role of membrane lectins in Dictyostelium discoideum aggregation as ascertained by specific univalent antibodies against discoidin I

Antibodies against pure discoidin I have been used as a tool to ascertain the role of this lectin in aggregation of Dictyostelium discoideum. Discoidin I is widely expressed over the cell surface of aggregation-competent AX-2 cells, as ascertained by indirect immunofluorescence with specific (antidiscoidin I) antibodies. Univalent antidiscoidin I antibodies (Fab fragments) inhibit the aggregation-specific intercellular adhesion of D discoideum AX-2 cells in an in vitro assay. This inhibition depends on antibody concentration and cell density; a 50% inhibition of cell aggregation was obtained at antidiscoidin I Fab concentration of 4.5 mg/ml and 1 X 10(6) cells/ml. Aggregation and morphogenesis on solid support is also effectively inhibited when AX-2 cells are starved in the presence of antidiscoidin I Fab fragments. The inhibition of morphogenesis is also dose dependent and more effective than in the in vitro assay. No inhibition of aggregation either in the in vitro assay or on morphogenesis on solid support was observed with preimmune Fab fragments at any of the concentrations tested (up to 9.6 mg/ml).     

High-performance liquid chromatographic method for determination of 2-difluoromethyl-DL-ornithine in plasma and cerebrospinal fluid

A simple, sensitive, selective and reproducible method based on anion-exchange liquid chromatography with post-column derivatisation was developed for the determination of eflornithine (2-difluoromethyl-DL-ornithine; DFMO) in human plasma and cerebrospinal fluid. The 1-alkylthio-2-alkyl-isoindoles fluorescent derivative of the drug was separated from the internal standard (MDL 77246A) on an anion-exchange column (PRP-X300, 250x2.1 mm, 7-microm particle size: Hamilton, USA), with retention times of 6.9 and 10.7 min, respectively. Fluorescence detection was set at 430/340 nm (emission/excitation wavelength). The elution solvent consisted of a solution of 30 mM potassium dihydrogen phosphate buffer (pH 2.2) and acetonitrile (50:50, v/v), running through the column at a flow-rate of 0.3 ml/min. The chromatographic analysis was operated at 37 degrees C. Sample preparation for either plasma or CSF (100 microl) was done by single-step protein precipitation with 20% trichloroacetic acid after incubation at 4 degrees C for 1 h. Calibration curves for plasma (100, 200, 400, 600, 800 and 1200 nmol/100 microl, and 10, 20, 40, 80, 120 and 160 nmol/100 microl for the high and low concentration range curves, respectively) and CSF (1, 2, 4, 8, 16, 32 nmol/100 microl) were all linear with correlation coefficients better than 0.999. The precision of the method based on within-day repeatability and reproducibility (day-to-day variation) at high concentration range was below 15%, whereas at low concentration range was below 20% (% coefficient of variations: %C.V.) Good accuracy was observed for both the intra-day or inter-day assays, as indicated by the minimal deviation of mean values found with measured samples from that of the theoretical values (below +/-15 and +/-20% at high and low concentration range, respectively. The limit of quantification was accepted as 0.1 nmol using 100-microl samples. The mean recovery for DFMO and the internal standard were greater than 95%. The method was free from interference from commonly used drugs including antimalarials and antihelminthics. The method appears to be robust and has been applied to a pharmacokinetic study of DFMO in patients with African trypanosomiasis following oral doses of Ornidyl (Aventis Pharma, Frankfurt, Germany) at 500 mg/kg body weight (125 mg q.i.d.) for 14 days.     

High-performance liquid chromatography measurement of hyperforin and its reduced derivatives in rodent plasma

A reverse-phase high-performance liquid chromatography method was developed for the determination of hyperforin and its reduced derivatives octahydrohyperforin and tetrahydrohyperforin in rodent plasma. The procedure includes solid-phase extraction from plasma using the Baker 3cc C8 cartridge, resolution on the Symmetry Shield RP8 column (150 mm x 4.6 mm, i.d. 3.5 microm) and UV absorbance detection at 300 nm. The assay was linear over a wide range, with an overall coefficient of variation less than 10% for all compounds. The precision and accuracy were within acceptable limits and the limit of quantitation was sufficient for studies preliminarily assessing the disposition of tetrahydrohyperforin and octahydrohyperforin in the mouse and rat.