Rapid and simple method for the determination of alpha 1-acid glycoprotein in serum by column liquid chromatography.

A rapid and simple method for the determination of alpha 1-acid glycoprotein (AAG) in serum was developed by using an anion-exchange column for clean-up of serum and a hydroxyapatite column for high-performance liquid chromatography (HPLC). A good correlation was observed between this HPLC method and the conventional radial immunodiffusion method. The method may also be used to determine the AAG concentration in the serum of experimental animals.     

Modeling of chromatographic retention of the selected antiarrhythmics and structurally related compounds in the hydrophilic interactions under the TLC and HPLC conditions

Abstract

High-performance liquid chromatography (HPLC) plays an important role in testing the pharmaceutically active compounds. In despite of the advantages of HPLC, thin-layer chromatography (TLC) retains its applicability to the different experimental tasks. The experimental conditions which allow hydrophilic interactions in the chromatographic system were tested in the HPLC and TLC systems for ivabradine, its related compounds, diltiazem and verapamil. Under the TLC conditions, retention behavior of the investigated compounds was tested on silica gel modified with cyanopropyl ligands as stationary phase and acetonitrile?+?methanol containing 25% v/v formic acid. Under the HPLC conditions, we used silica gel modified with cyanopropyl ligands as a column packing and the acetonitrile + 0.25% aqueous solution of formic acid as mobile phase. Retention behavior of the investigated analytes depending on the changing volume fractions of the mobile phase modifier was characterized both for TLC and HPLC data sets by the Soczewiński–Wachtmeister equation. Linear relationships were established between the retention coefficients characterizing the retention mechanism (R_M⁰/m, logk₀/m) and molecular properties of the investigated compounds. The Quantitative Structure Retention Relationship (QSRR) modeling was performed with the use of the stepwise multiple linear regression, in order to select molecular properties which influence retention.     

Enantioseparation by HPLC Using an Inorganic Chiral Mesoporous Silica with Highly-ordered Structure

Highly-ordered inorganic chiral mesoporous silica(HOCMS) has attracted substantial interest in recent decades. High performance liquid chromatography(HPLC) is the most important approach for the separation of enantiomers and herein reported an HPLC chiral stationary phase composed of HOCMS. The column was fabricated by conventional high pressure slurry packing. Eighteen racemates, including alcohols, ketones, amines, aldehydes and organic acids, were resolved on the column. Good chiral separations of hydrobenzoin, metoprolol, propranolol hydrochloride, 4-methyl-2-pentanol, omeprazole, 2,2'-furoin and ketoprofen were obtained. The relative standard deviations for five replicate separations of racemates were 0.1%-0.16% for retention time and 1.73%-2.64% for peak areas. The results suggest that HOCMS is a promising candidate for preparation of chiral stationary phases for HPLC.     

Liquid chromatographic retention behavior of organometallic compounds and ligands with amine-, octadecylsilica- and beta-cyclodextrin-bonded phase columns

Effects of solvent composition and ligand variation on the retention of organometallic compounds have been studied using an amino, an octadecylsilica (ODS) and a beta-cyclodextrin (beta-CD) bonded phase column in either a normal-phase or a reversed-phase mode. The retention behavior for the organometallic compounds with the amino column can be rationalized using the displacement model. The "apparent" molecular areas are greater for compounds capable of strong hydrogen bonding. The retention in the ODS column roughly follows an argument based on the expected solubility behavior while mixed retention mechanisms are involved for the solubility behavior while mixed retention mechanisms are involved for the beta-CD column, i.e. both inclusion process and solubility or solvophobic interactions are possibly operative.     

pH titration curves of the desialylated human alpha 1-acid glycoprotein variants by combined isoelectrofocusing-electrophoresis: utilization in the development of a fractionation method for the protein variants by chromatography on immobilized metal affinity adsorbent.

Using a two-dimensional isoelectrofocusing (IEF)-electrophoresis technique, the pH titration curves of the three main desialylated variants (F1, S and A) of human alpha 1-acid glycoprotein (AAG) were studied to assist in the development of a fractionation method for the AAG variants. For this purpose, different AAG samples, each corresponding to one of the three main phenotypes of the protein (F1S/A, F1/A and S/A), were first purified by chromatographic separation of individual human plasma samples on immobilized Cibacron Blue F3G-A. The purified AAG samples were then disialylated and their heterogeneity was checked by analytical IEF. The pH-mobility curves of the desialylated AAG samples were displayed in polyacrylamide gel slabs, under a constant set of experimental conditions, by carrying out electrophoresis of the protein samples perpendicularly to two stationary pH gradients: a large gradient (pH 3.5-9.5) and a narrow gradient (pH 5-8). The curves showed that all the desialylated variants of AAG exhibited small charge differences and moved closely together between about pH 3.5-5.5 and pH 7.5-9.5. However, the variants were found to show microheterogeneity in their total charge between about pH 5.5 and 7.5 due to the titrated ionizable groups involved along this pH zone. This microheterogeneity was assumed to be accounted for by the existence of differences between the titratable histidyl residues of the AAG variants. Consequently, the interactions of the variants with immobilized transition metal ions were studied at pH 7, using affinity chromatography on an iminodiacetate Sepharose-Cu(II) gel. It was found that the A variant was strongly bound by immobilized Cu(II) ions, whereas the F1 and S variants interacted non-specifically with the immobilized ligand. This finding allowed the development of a rapid and effective fractionation method for desialylated AAG into its A and F1 or S variants, depending on the AAG phenotype, by chromatography on an immobilized affinity Cu(II) adsorbent. The quantitative relationships between immobilized Cu(II) ions and desialylated AAG (the apparent association constant and gel protein-binding capacity) were also determined using a non-chromatographic equilibrium binding technique.     

Ion-Exchange Chromatographic Supports Obtained by Formation of Polyelectrolyte Multi-Layers for the Separation of Proteins

Summary High performance liquid chromatography (HPLC) was used to study the mechanism of formation of polyelectrolyte multilayers on porous silicas. The coatings were produced by alternating the adsorption of positively and negatively charged polymers. The stationary phases formed by adsorbing a single layer, double layers and triple layers were tested by studying the elution behavior of model proteins. The double polymer coating was achieved by adsorbing first a polycation such as hexadimethrine bromide (HB) on the HPLC silica support and then a polyanion such as dextran sulfate (DS) on the cationic layer formed. The retention properties of this support are mainly those of a cation exchanger as the negatively charged proteins were strongly retained while positively charged ones were weakly adsorbed. This work demonstrated the importance of the first underlying layer as the retention behavior of proteins was greatly affected by the properties of this coating. The triple polymer coating was achieved by adsorbing the polycation (HB) on the double layer coating (HB-DS). Its retention behavior was that of an anion exchange support. The HB-DS stationary phase displayed good chromatographic performances, with an adsorbed layer relatively stable. The polyelectrolyte multilayer coating procedure was useful to easily synthesize cation-exchange supports for the separation of basic proteins.     

Determination of Pharmaceuticals by Dynamic Cell Membrane Chromatography Coupled with High-Performance Liquid Chromatography

As a biological affinity chromatographic method, cell membrane chromatography (CMC) using a silica stationary phase covered with specific cell membrane has been used in screening active components. The innovation of this work is that the bioactive cell membrane and the chromatographic packing are mixed and absorbed for the first time to form the pre-column. The pre-column was placed in front of a C₁₈ column to create dynamic CMC online high-performance liquid chromatography (HPLC) system. The retention behavior and dynamic changes of pharmaceuticals were studied for this system. The results indicate that the retention time of the drug was increased and the symmetry factor reached the analytical level after the addition of the dynamic cell membrane pre-column. Therefore, the dynamic CMC coupled with HPLC system may be a potentially rapid and efficient drug analysis approach for the interaction of drug molecule and receptor on red blood cell membranes.     

Comparison of normal and reversed-phase solid phase extraction methods for extraction of beta-blockers from plasma using molecularly imprinted polymers

A molecularly imprinted polymer (MIP) prepared using propranolol as template, methacrylic acid (MA) and ethylene glycol dimethacrylate (EGDMA) was used to develop SPE methods in "reversed-" and normal phase mode for an analogue of propranolol (M47070) with another analogue (M45655) used as an internal standard. The compounds were also extracted in reversed-phase mode onto a non-imprinted polymer. It was necessary to employ a protein precipitation step ahead of MIP-SPE in order to facilitate downstream analysis. High extraction efficiencies and linear calibration ranges were achieved using both reversed-phase (RP) and normal phase (NP) MIP-based methods. Extraction efficiencies were lower on the non-imprinted polymer indicating stronger retention by the MIP. This stronger retention was attributed to selective imprint-based binding by the MIP that was not available for the non-imprinted polymer. Although clean extracts were obtained in both RP and NP modes, low level interference from template-related impurities or degradation products compromised detection of M47070 at low concentrations for the MIP-based methods. This interference made accuracy of the MIP-based methods poorer at low concentrations. The reversed-phase method showed marginally better accuracy and precision than the normal phase method.     

Determination of Anthocyanins by High-Performance Liquid Chromatography: Regularities of Retention

The chromatographic behavior of anthocyanidin derivatives was studied by reversed-phase HPLC. Two types of increment functions in the retention of anthocyanidin glycosides were found. In the first type, an increment corresponding to the replacement of one glycoside with another in a series of different aglycons (as the difference between the logarithms of capacity factors) was independent of the retention of a reference anthocyanin, whereas a linear relationship between the retention parameters was found for the second type.     

A collaborative study to investigate the retention reproducibility of barbiturates in HPLC with a view to establishing retention databases for drug identification

A collaborative study among 10 laboratories has been undertaken to investigate the interlaboratory reproducibility of retention measurements in a high performance liquid chromatographic (HPLC) system for separating barbiturates. The system involved an ODS-Hypersil column with an eluent of methanol:phosphate buffer (40:60, v/v) at pH 8.5; all laboratories used the same batch of packing material. The conventional methods of recording retention properties (retention times and capacity factors) gave poor interlaboratory reproducibility. Better results were obtained by expressing the retentions relative to a standard barbiturate (quinalbarbitone); relative adjusted retention times proved to be more effective than straightforward relative retention times. Retention indices based on the alkylarylketone scale were not as reproducible as the methods based on a single closely related compound. The best reproducibility was obtained using corrected capacity factors based on the retention of four barbiturates in a standard mixture. The results of the study are discussed with a view to selecting the best methods of recording retention in HPLC when considering the establishment of databases for drug identification.     

Alpha 1-acid glycoprotein affinity columns for the clean-up of adrenergic drugs.

alpha 1-Acid glycoproteins (AAGs) have a structure resembling beta-adrenergic receptors and bind several basic drugs in plasma. Chromatographic columns were prepared by linking epsilon-NH2 groups of AAG lysines to a Sepharose 4B support, in order to purify by affinity chromatography adrenergic drugs of possible use in animal production. Loading capacities, binding efficiency, memory effects and matrix interferences from urine samples were studied. The method developed involves sample application in buffered media (pH 7.4), washing with 5 ml of PBS, and elution with 4 ml of 1% v/v acetic acid. Under these conditions no memory effect was observed. Loading capacity is correlated with the physiological plasma binding rate (PB) of the drug. For clenbuterol (PB 50%) and anilino-like related drugs, 5 mg of AAG were able to bind about 15 x 10(-6) g of drug, with a 100% recovery from the column. Repeatability and reproducibility, expressed as RSD, were 4.2 and 5.4%, respectively. The calculated AAG: drug molar ratio was 4.5:1, indicating 22% of the AAG bound to the column retained drug affinity. Among phenolic-like agonists, salbutamol (PB 5%), fenoterol and isoxsuprine hardly interacted, whereas nylidrin, ritodrine and bamethan showed more effective binding. We also checked binding of other drugs of possible use in veterinary medicine. Application of the AAG column to spiked bovine urine revealed a mean recovery of 97.8%; no matrix interferences were observed.     

基于遗传算法优化的约束背景双线性分解算法用于改进高效液相色谱灰色分析体系的校正结果

该文采用约束背景双线性分解算法(CBBL)对以高效液相色谱(HPLC)方法分离分析的灰色分析体系进行了多元校正研究。针对采用包括CBBL在内的矩阵校正方法处理HPLC灰色分析体系的固有缺陷,即在相关组分的色谱保留时间重现性较低的情形下多元校正的结果不理想,对CBBL方法进行了改进,即将待测组分的浓度与组分的色谱保留时间同时作为优化的参量引入CBBL,并采用遗传算法(GA)优化CBBL,对于模拟的组分保留时间飘移严重的HPLC灰色分析体系及保留时间重现性不佳的多种酚类化合物组成的实际HPLC灰色分析体系进行了多元校正分析,成功克服了经典CBBL的固有缺陷,取得了较理想的多元校正结果。另外,该研究所建议的方法的校正结果也显著优于传统的残差双线性分解法(RBL)以及秩消失因子分析法(RAFA)。     

氧化锆固定相反相高效液相色谱法测定碱性化合物的离解常数

研究了烷基键合氧化锆微球固定相(C12-ZrO2）的化学稳定性及其对碱性化合物的色谱保留特征,发现C12-ZrO2在pH为2~12时稳定,碱性化合物在该固定相上为典型的反相色谱保留机理。基于对碱性化合物的保留因子与流动相pH关系的考察,建立了碱性化合物离解常数的测定方法。测定了13种典型芳香胺和吡啶衍生物的离解常数,与文献结果对比,其差值在-0.27～0.35 pH单位范围内,说明该方法能够用于碱性化合物离解常数的快速测定。     

Intact human holo-transferrin interaction with oxaliplatin

We report the interaction of intact human holo-transferrin (holo-Tf) with oxaliplatin (an anticancer drug), and the characterization of a complex composed of (1:1) intact holo-Tf and the parent oxaliplatin molecule using nanoelectrospray ionization quadrupole time-of-flight mass spectrometry (nanoESI-QTOF-MS). The molecular weight of this complex was determined to be 80,077 Da, which was an increase of 397 mass units compared to the protein alone (79,680 Da), suggesting that a parent drug molecule was bound to the intact protein. We further examined the interaction between the intact protein and oxaliplatin using size-exclusion high-performance liquid chromatography/inductively coupled plasma mass spectrometry (HPLC/ICPMS). The protein complex and free oxaliplatin were separated by HPLC and quantitatively determined by simultaneous monitoring of both 195Pt and 56Fe using ICPMS. The HPLC/ICPMS detected both Pt and Fe signals at retention time of 2.6 min, identifying the protein-drug complex. The Fe signal at 2.6 min did not change with the increase in incubation time of the reaction mixture containing holo-Tf and oxaliplatin, while the Pt signal at the same retention time increased over time, further demonstrating that the formation of this complex does not affect the protein-bound Fe. The binding constant of the (1:1) intact human holo-Tf-oxaliplatin complex was determined to be 7.7x10(5) M-1. Both nanoESI-MS and HPLC/ICPMS results support that the holo-Tf and parent oxaliplatin molecules form complexes through non-covalent binding, suggesting that holo-Tf may be a useful carrier for oxaliplatin delivery.     

用于蛋白同时复性及纯化的制备型装置中流动相用量的优化研究

 在生物大分子的高效液相色谱分离中 ,由计量置换保留模型可得出生物大分子在色谱柱上的保留行为取决于流动相中置换剂的浓度的结论。据此提出了用于蛋白同时复性及纯化的制备型装置 (USRPP)中最小流动相用量的估算公式 ,并进一步得出在保持最小流动相用量不变的条件下 ,改变流动相流速和线性梯度时间几乎不影响制备型USRPP分离蛋白的分离度和复性效率的结论。该结论与实验结果一致。     

A simple model describing the retention behavior of octreotide and its glycosylated derivatives in reversed phase HPLC

Summary The retention behavior of octreotide, a somatostatin analogue, and its glycosylated derivatives containing different numbers of glucose units has been studied by reversed phase HPLC. A retention model was developed by correlating the logarithm of the retention factor with the hydrophilic-lipophilic balance of the analyte. Linear functions could be derived for all the separation systems investigated. The slopes of the straight lines were a measure of the selectivity of the chromatographic system and enabled calculation of increments for the saccharide groups in different eluent systems. The highest increment was found using trifluoroacetic acid (TFA) as ion pairing agent. The model was extended to substitution of the same peptide with hydrophobic groups such as acetyl and alkyl. Straight lines were again obtained. The influence of the different eluent systems upon peak shape and retention is also discussed. Owing to the strong peak tailing a dual retention mechanism consisting of hydrophobic and silanophilic interactions was assumed. It was shown that addition of quaternary ammonium compounds to mask the surface silanols of the stationary phase reduced both the peak tailing and the retention of the peptides.