Determination of josamycin in rat plasma by capillary electrophoresis coupled with post-column electrochemiluminescence detection

A novel determination method for josamycin (JOS) based on capillary electrophoresis-electrochemiluminescence detection has been described. In this study, platinum disk electrode (300 microm in diameter) was used as a working electrode and the conditions affecting separation and detection were investigated in detail. Under optimal condition: 40 cm separation capillary (75 microm i.d.); 1.25 V applied potential on the Pt disc of the ECL detector cell; 5 mM Ru(bpy)3(2+) and 50mM phosphate buffer (pH 7.5) in the detection cell; 12 kV separation voltage; 8s injection time; 10 kV injection voltage and 15 mM running buffer (pH 7.5), calibration curve was linear over the range from 10 ng/mL to 5.0 microg/mL with a detection limit of 3.1 ng/mL at a signal-to-noise ratio of 3. The method can be successfully applied for the determination of josamycin in rat plasma in 6 min and the extraction recoveries with spiked plasma samples were over 92%.     

Single-step enantioselective amino acid flux analysis by capillary electrophoresis using on-line sample preconcentration with chemical derivatization

Capillary electrophoresis (CE) represents a versatile platform for integrating sample pretreatment with chemical analysis because of its ability to tune analyte electromigration and band dispersion properties in discontinuous electrolyte systems. In this article, a single-step method that combines on-line sample preconcentration with in-capillary chemical derivatization is developed for rapid, sensitive, and enantioselective analysis of micromolar levels of amino acids that lack intrinsic chromophores by CE with UV detection. Time-resolved electrophoretic studies revealed two distinct stages of amino acid band narrowing within the original long sample injection plug occurring both prior to and after in-capillary labeling via zone passing by ortho-phthalaldehyde/N-acetyl l-cysteine (OPA/NAC). This technique enabled direct analysis of d-amino acids in a 95% enantiomeric excess mixture with sub-micromolar detection limits and minimal sample handling, where the capillary functions as a preconcentrator, microreactor, and chiral selector. On-line sample preconcentration with chemical derivatization CE (SPCD-CE) was applied to study the enantioselective amino acid flux in Escherichia coli bacteria cultures, which demonstrated a unique l-Ala efflux into the extracellular medium. New strategies for high-throughput analyses of low-abundance metabolites are important for understanding fundamental physiological processes in bacteria required for screening the efficacy of new classes of antibiotics as well as altered metabolism in genetically modified mutant strains.     

Combining poly (methacrylic acid-co-ethylene glycol dimethacrylate) monolith microextraction and on-line pre-concentration-capillary electrophoresis for analysis of ephedrine and pseudoephedrine in human plasma and urine

A method based on poly (methacrylic acid-co-ethylene glycol dimethacrylate) (MAA-EGDMA) monolith microextraction (PMME) and field-enhanced sample injection (FESI) pre-concentration technique was proposed for sensitive capillary electrophoresis-ultraviolet (CE-UV) analysis of ephedrine (E) and pseudoephedrine (PE) in human plasma and urine. The PMME device consisted of a regular plastic syringe (1 mL), a poly (MAA-EGDMA) monolithic capillary (2 cm x 530 microm I.D.) and a plastic pinhead connecting the former two components seamlessly. The extraction was achieved by driving the sample solution through the monolithic capillary tube using a syringe pump, for the desorption step, an aliquot of organic solvent, which normally provided an excellent medium to ensure direct compatibility for FESI in CE, was injected via the monolithic capillary and collected into a vial for subsequent analysis by CZE. The best separation was achieved using a buffer composed of 0.1M phosphate electrolyte (pH 2.5) and 10% acetonitrile (v/v). The combination of both pre-concentration procedures allowed the detection limits of the analytes down to 5.3 ng/mL and 8.0 ng/mL in human plasma and urine, respectively. Excellent method of reproducibility was found over a linear range 50-5000 ng/mL in plasma and urine sample. Plasma and urine samples from volunteers receiving pseudoephedrine have also been successfully analysed.     

Determination of dimethylamine and other low-molecular-mass amines using capillary electrophoresis with laser-induced fluorescence detection

The potential of capillary electrophoresis (CE) with laser-induced fluorescence (LIF) detection for the separation and determination of dimethylamine (DMA) and other low-molecular-mass amines involving precolumn derivatization with fluorescein isothiocyanate isomer I (FITC) was investigated. Different variables that affect derivatization (pH, FITC concentration, reaction time and temperature) and separation (buffer concentration, addition of various organic modifiers, applied voltage and length of capillary) were studied. The linearity, reproducibility and reliability of the method were evaluated. The estimated instrumental detection limit for a 2-s pressure injection of the FITC-DMA derivative was 50 pg/ml (10⁻⁹ M), using LIF detection with excitation and emission wavelengths of 488 nm and 520 nm, respectively. However, for practical reasons, a minimum of 5 ng/ml DMA should be subjected to the derivatization. The applicability of the described method to the extract of atmospheric aerosol samples was demonstrated.     

Determination of metformin hydrochloride using precolumn derivatization with acetaldehyde and capillary electrophoresis coupled with electrochemiluminescence

A novel method was developed using capillary electrophoresis (CE) coupled with tris(2,2′‐bipyridyl)ruthenium(II) electrogenerated chemiluminescence (ECL) for highly sensitive detection of metformin hydrochloride (MH) derivatizatized with acetaldehyde. The precolumn derivatization of MH with acetaldehyde was performed in phosphate buffer solution (0.3 mol/L, pH 7.5) at room temperature for 120 min. The effects of acetaldehyde concentration, buffer pH, electrokinetic voltage and injection time were investigated. Under optimized detection conditions, the MH ECL detection sensitivity was more than 120 times that without derivatization. The linear concentration range for MH was 0.001–15.00 μg/mL (with a correlation coefficient of 0.9992). The detection limit was 0.31 ng/mL with a signal:noise ratio of 3. The recoveries of MH in human urine were in the range 98.50–99.72%. Copyright © 2011 John Wiley & Sons, Ltd.     

Capillary electrophoresis-based nanoscale assays for monitoring ecto-5'-nucleotidase activity and inhibition in preparations of recombinant enzyme and melanoma cell membranes

Powerful capillary electrophoresis (CE) methods were developed for monitoring the reaction of ecto-5'-nucleotidase (ecto-5'-NT, CD73), a (patho)biochemically important enzyme that hydrolyzes nucleoside-5'-monophosphates to the corresponding nucleosides. The enzymatic reaction was performed either before injection into the capillary (method A) or directly within the capillary (method B). In method A, separation of substrates and products was achieved within 8 min using an eCAP fused-silica capillary (20 cm effective length, 75 microM i.d., UV detection at 260 nm), 40 mM sodium borate buffer (pH 9.1), normal polarity, and a constant voltage of 15 kV. In method B, the sandwich technique was applied; substrate dissolved in reaction buffer (10mM Hepes [pH 7.4], 2mM MgCl2, and 1mM CaCl2) was hydrodynamically injected into a fused-silica capillary (30 cm, 75 microM i.d.), followed by enzyme (recombinant rat ecto-5'-NT) and subsequent injection of substrate solution. The reaction was initiated by the application of 1 kV voltage for 1 min. The voltage was turned off for 1 min and again turned on at a constant voltage of 15 kV to elute products (nucleosides) within 4 min using borate buffer (40 mM, pH 9.1). Thus, assays could be performed within 6 min, including enzymatic reaction, separation, and quantification of the formed nucleoside. The CE methods were used for measuring enzyme kinetics and for assaying inhibitors and substrates. In addition, the online assay was successfully applied to melanoma cell membrane preparations natively expressing the human ecto-5'-NT.     

Chromatography-based on- and in-line pre-concentration methods in capillary electrophoresis

Capillary electrophoresis (CE) poses unique challenges in many different analytical applications, mainly to biological and complex samples and when only small amounts of sample are available, due to its low sample consumption. As a consequence, poor limits of detection are usually observed with this technique, especially with UV photodetectors. Minimal or no sample treatment is desirable in any analytical method to avoid external sources of contamination or errors and to provide a high throughput. On- and in-capillary sample pre-concentration strategies, based on solid-phase extraction (SPE) technology can take advantage of both techniques (SPE and CE), while avoiding sample contamination and tedious manipulations when the sample amount is an issue. Moreover, the combination can provide two-dimensional separations. This review collects the most recent strategies that merge SPE technology built on- and in-capillary pre-concentration for increasing sensitivity and/or selectivity.     

Chromatography-based on- and in-line pre-concentration methods in capillary electrophoresis

Capillary electrophoresis (CE) poses unique challenges in many different analytical applications, mainly to biological and complex samples and when only small amounts of sample are available, due to its low sample consumption. As a consequence, poor limits of detection are usually observed with this technique, especially with UV photodetectors. Minimal or no sample treatment is desirable in any analytical method to avoid external sources of contamination or errors and to provide a high throughput. On- and in-capillary sample pre-concentration strategies, based on solid-phase extraction (SPE) technology can take advantage of both techniques (SPE and CE), while avoiding sample contamination and tedious manipulations when the sample amount is an issue. Moreover, the combination can provide two-dimensional separations. This review collects the most recent strategies that merge SPE technology built on- and in-capillary pre-concentration for increasing sensitivity and/or selectivity.     

Separation by capillary electrophoresis followed by dynamic elution

In this study we have explored the behaviour of peptides after capillary electrophoresis (CE) followed by elution under pressure. The use of D2O- rather than H2O-based buffer solutions appears to restrict the diffusion of peptides after CE, resulting in little loss of resolution when peptides are eluted by dynamic flow. In this paper we present results showing that a simple two-step process, involving CE at a low voltage, switching off the power supply, and connecting the fused capillary at the anode end to a syringe pump for dynamic flow, can retain separation characteristics and can be used for the isolation of picomole quantities of peptides for sequence determination.     

Determination of excitatory amino acids in biological fluids by capillary electrophoresis with optical fiber light-emitting diode induced fluorescence detection

The capillary electrophoresis (CE) system with optical fiber light-emitting diode (optical fiber LED) induced fluorescence detector was developed for the analysis of the excitatory amino acids (EAAs) tagged with naphthalene-2,3-dicarboxaldehyde (NDA). The separation of EAAs was carried out in an uncoated fused-silica capillary (50 cm x 75 microm i.d.) with a buffer of 10 mM borate at pH 9.3 and an applied voltage of 20 kV. High sensitivity was obtained by the use of optical fiber LED induced fluorescence detector with a violet LED as the excitation light source. The limits of detection (S/N = 3) for glutamic acid (Glu) and aspartic acid (Asp) were 2.1 x 10(-8) and 2.3 x 10(-8) M, respectively. The detection approach was successfully applied to the analysis of Glu and Asp in biological fluids including human serum, rabbit serum and human cerebrospinal fluid (CSF) with satisfactory results.     

Taurine deficiency in the kitten subcellular distribution of taurine and [35S]taurine in brain

Taurine concentration decreases rapidly in the tissues and physiological fluids of kittens fed a diet of partially purified casein which lacks taurine. We have studied the subcellular distribution in cerebrum of taurine and [³⁵S]taurine administered intravenously to these animals. The taurine concentration of all the fractions isolated from the cerebrum of taurine-deficient kittens was approximately sevenfold less than that observed in the fractions of cerebrum isolated from control kittens. The [³⁵S]taurine was approximately twofold greater in all the brain fractions isolated from the taurine-deficient kittens compared with those isolated from the control kittens. The percent distributions of taurine and [³⁵S]taurine in the fractions isolated from the cerebrum of control and deficient kittens were identical. Thus, in the face of a severe diet-induced deficiency of taurine in kitten brain, there appears to be no conservation of taurine by any particular subcellular pool of taurine. These studies provide no evidence for differences in compartmentation of taurine in cerebrum of taurine-deficient kittens compared with control kittens.     

Determination of agmatine in biological samples by capillary electrophoresis with chemiluminescence detection

A fast and simple method based on capillary electrophoresis (CE) with chemiluminescence (CL) detection has been developed for the determination of agmatine, a recently identified neurotransmitter/modulator. The CE run time was approximately 2 min for each sample injected. CL detection employed a lab-built reaction flow cell and a photon counter. The CL reagents used were luminol and NaBrO. The optimized conditions for the CL detection were 5 x 10(-4)M luminol added to the CE running buffer and 5.0 x 10(-4)M NaBrO in 100 mM NaCO3-NaOH buffer solution at pH 12.5 introduced post column. Detection limit for agmatine was 4.3 x 10(-6)M (S/N=3). The precision (R.S.D.) on peak height (at 1 x 10(-5)M agmatine) and migration time were 3.7 and 2.5%, respectively. The present CE-CL method was evaluated with the determination of agmatine in tissue samples taken from rat brain, and rat and monkey stomachs. Samples were directly injected into the CE-CL system after the removal of proteins. A higher level of agmatine was detected in the stomach samples. Agmatine concentrations in the tissue samples taken from rat and monkey stomachs were similar at approximately 1950 ng/g wet tissue.     

毛细管电泳-激光诱导荧光分析血清多胺的研究

为进一步探讨多胺的生物学作用,建立了毛细管电泳-激光诱导荧光(λ_ex=488 nm,λ_em=513 nm)分析血清多胺方法.在碱性介质中,多胺与荧光素异硫氰酸酯进行衍生化反应,硼酸盐(pH 8.6)作为运行缓冲液,运行电压20 kV,腐胺、精胺、精脒和1,6-己二胺（内标）在8 min内达到基线分离.考察了方法的线性范围、稳定性、检测限和方法的回收率等,方法具有样品处理简单,灵敏度高,速度快等特点.用于正常对照大鼠和肿瘤大鼠血清多胺的测定.结果提示：实验组肿瘤大鼠血清精胺和精脒水平显著高于正常对照大鼠和实验组未出现肿瘤大鼠血清精胺和精脒水平（P＜0.05）,正常对照组大鼠和实验组未出现肿瘤大鼠血清精胺和精脒水平间无显著性差异（P＞0.05）,各组间血清腐胺水平均无显著性差异（P＞0.05）.     

Elucidation of intestinal absorption of D,L-amino acid enantiomers and aging in rats

At the present time, the origin of protein bound D-amino acid (AA) has been fairly well elucidated, but that of free D-AA is still not well understood. To gain greater understanding of this, intestinal absorption in rats of free D,L-AA enantiomers (arginine, alanine and aspartic acid as models for basic, neutral and acidic AAs, respectively, in this study) and the relationship between age and absorption were investigated. The degree of rat intestinal absorption of free D,L-AAs was evaluated using apparent membrane permeability coefficients (Papp) which were obtained from an in situ intestinal single-pass perfusion method with Krebs-Ringer bicarbonate buffer (pH 7.4) solution containing D,L-AA enantiomers. Determinations of D,L-AA enantiomers in perfusion (in- and outflow) solutions were carried out by the in-capillary derivatization high-performance capillary electrophoretic methods (ICD-HPCE methods) that were previously developed by our group. Collectively, our observations suggest: (1) that the Papp of L-AA is higher than that of the D-isomer; (2) that D-AA can be absorbed as well as L-AA using a sodium ion-dependent transporter that is located on the brush border membrane of rat intestinal epithelial cells; (3) that Papp reached a maximum at 8 weeks of age, but were measured at decreased amounts at 52 and 104 weeks of age. These results suggest that free D-AA in a mammalian body originates from 'exogenous sources'.     

Capillary electrophoresis of phosphorylated amino acids with fluorescence detection

A rapid and sensitive capillary electrophoresis (CE) method coupled with fluorescence detection was developed for identification of protein phosphorylation by determination of phosphoamino acids. Naphthalene-2,3-dicarboxaldehyde (NDA), a fluorescence derivatization reagent, was used to label protein hydrolysate. The optimal derivatization reaction was performed with 3.5mM NDA, 40 mM NaCN and 20mM borate buffer (pH 10.0) for 15 min. The baseline separation of three phosphorylated amino acids could be obtained in less than 180 s with good repeatability by using 30 mM borate (pH 9.2) containing 2.0mM beta-cyclodextrin (beta-CD) as the running buffer. The detection limits for phosphothreonine, phosphotyrosine and phosphoserine were 7.0 x 10(-9)M, 5.6 x 10(-9)M and 7.2 x 10(-9)M, respectively (S/N=3). Also, the interference from other protein amino acids with large molar excess over that of phosphoamino acids was studied. With beta-casein as the analysis protein, this method was successfully validated.     

Determination of iothalamate in rat urine,plasma, and tubular fluid by capillary electrophoresis

A method for the quantitative determination of iothalamate (IOT) in rat urine, plasma and tubular fluid by capillary zone electrophoresis (CE) has been developed and validated. Samples of urine and tubular fluids were diluted with water and samples of plasma were deproteinized with two volumes of acetonitrile containing the internal standard, p-aminobenzoic acid (PABA). A BioFocus 2000 system (Bio-Rad, Hercules, CA, USA) was used. The UV detector was set at 254 nm. The samples were loaded into uncoated fused-silica capillary (40 cm×50 μm) by pressure injection. A borate buffer [20 mM, pH 12 (pH adjusted with 1.0 M NaOH)] was used as the electrophoretic buffer. The typical analytical conditions were: voltage, 22 kV; injection, 9 psi×s; capillary and carousel temperatures were 20°C and 18°C respectively. The linear relationship was observed between time-corrected peak area of IOT in water and urine or the corrected peak area ratio of IOT to PABA in plasma and the nominal concentration of IOT with correlation coefficient greater than 0.999. The intra- and inter-day coefficients of variation (CV) were less than 8%. The concentration of IOT in plasma, urine and tubular fluid determined by CE can be used for estimation of whole kidney and single nephron clearances.     

A gold nanoparticle-mediated enzyme bioreactor for inhibitor screening by capillary electrophoresis

A facile protocol to prepare highly effective and durable in-line enzyme bioreactors inside capillary electrophoresis (CE) columns was developed. To demonstrate the methodology, l-glutamic dehydrogenase (GLDH) was selected as the model enzyme. GLDH was first immobilized onto 38-nm-diameter gold nanoparticles (GNPs), and the functionalized GNPs were then assembled on the inner wall at the inlet end of the CE capillary treated with polyethyleneimine (PEI), producing an in-line GLDH bioreactor. Compared with a GLDH bioreactor prepared by immobilizing GLDH directly on PEI-treated capillary, the GNP-mediated bioreactor showed a higher enzymatic activity and a much better stability. The in-capillary enzyme bioreactor was proven to be very useful for screening of GLDH inhibitors deploying the GLDH-catalyzed α-ketoglutaric acid reaction. The screening assay was preliminarily validated by using a known GLDH inhibitor, namely perphenazine. A Z′ factor value of 0.95 (n = 10) was obtained, indicating that the screening results were highly reliable. Screening of GLDH inhibitors present in medicinal plant extracts by the proposed method was demonstrated. The inhibition percentages were found to be 53% for Radix scutellariae, 45% for Radix codonopsis, 37% for Radix paeoniae alba, and 0% for the other 22 extracts tested at a concentration of 0.6 mg extract/ml.     

Direct analysis of bromide in human serum by capillary electrophoresis

The purpose of the present work was the development and validation of a simple, rapid and reliable method for direct bromide quantification in serum based on capillary electrophoresis (CE). The analysis was carried out with an automated capillary electropherograph. Analytical conditions were as follows. Capillary: uncoated fused silica, effective length 50 cm, internal diameter 50 microm; voltage: 20 kV in reverse polarity mode; temperature: 25 degrees C; running buffer: 90 mmol/L sodium tetraborate decahydrate and 10 mmol/L NaCl, pH 9.24; detection: direct UV absorption at 200 nm; sample treatment: dilution of serum 1:10 with the internal standard solution (2 mmol/L thiocyanate). Under the described conditions, bromide ions and internal standard were baseline separated in 7 min. No interferences from other serum components were observed. The analytical sensitivity was characterized by a LOD: 0.05 mmol/L and a LOQ of 0.1 mmol/L. Excellent linearity was verified in the range from 2.5 to 60 mmol/L [y = 0.0746x - 0.0372; R2 = 0.9995 (x = bromide concentration; y = bromide peak area/internal standard (I.S.) peak area)]. Quantitative imprecision in intra-day (n = 7) and day-to-day (n = 7) experiments was always within R.S.D. values <2%. Recovery was quantitative throughout the range of linearity of the method. Clinical cases of infants undergoing potassium bromide therapy for refractory epilepsy were analyzed with results in agreement with literature data. On the basis of these considerations, capillary electrophoresis can be proposed as the method of choice for bromide analysis in serum samples, especially for therapeutic drug monitoring purposes.     

Analysis of the antidiabetic drug acarbose by capillary electrophoresis

This study describes the derivatization of the pseudooligosaccharide acarbose and its main metabolite, component 2, with 7-aminonaphthalene-1,3-disulfonic acid (ANDS) in human urine. Their efficient separation was possible by means of capillary zone electrophoresis, using a capillary tube of fused-silica containing 100 mM triethylammonium phosphate buffer, pH 1.5. On column laser-induced fluorescence allowed the detection of the pseudooligosaccharides in human urine in the nanomolar range. With this method, acarbose and component 2 were quantified in human urine after application of 300 mg of acarbose.     

Development and validation of a capillary electrophoresis method for the characterization of herpes simplex virus type 1 (HSV-1) thymidine kinase substrates and inhibitors

A fast, convenient capillary electrophoresis (CE) method was developed for monitoring the enzymatic reaction of herpes simplex virus type 1 thymidine kinase (HSV-1 TK). The reaction was performed in a test tube followed by quantitative analysis of the products. The optimized CE conditions were as follows: polyacrylamide-coated capillary (20 cm effective length x 50 microm), electrokinetic injection for 30s, 50 mM phosphate buffer at pH 6.5, constant current of -60 microA, UV detection at 210 nm, UMP or cAMP were used as internal standards. Phosphorylated products eluted within less than 7 min. The limits of detection were 0.36 microM for dTMP and 0.86 microM for GMP. The method was used to study enzyme kinetics, and to investigate alternative substrates and inhibitors.