Assay for taurine conjugates of bile acids in serum by reversed-phase high-performance liquid chromatography

The purpose of this study was to develop a new high-performance liquid chromatographic (HPLC) procedure for quantifying taurine conjugates of bile acids in serum. The technique involved three basic steps. The first removed free amino acids via solid-phase extraction of the serum. The second step involved the reaction of the extracted serum with the enzyme choloylycine hydrolase, which liberated the taurine from the conjugated bile acids. The third step was the reversed-phase HPLC separation of o-phthalicdicarboxaldehhyde derivatives of taurine. The assay provides a simple technique for determination of the total amount of taurine-conjugated bile acids in serum.     

Separation of methylated free bile acids from their taurine and methyl glycine conjugates by thin-layer chromatography

Class separation of methylated free bile acids from bile acids conjugated with taurine and methylglycine was accomplished using a solvent system of 2,2,4-trimethylpentane-absolute ethanol 10:1 (v/v). By developing a silica thin-layer plate two times with solvent in a Brinkmann sandwich tank, the difficult resolution between methyl cholate and methyl glycolithocholate was achieved. Evidence is presented that this separation system may be useful as a preparative step in the analysis of bile acids by gas-liquid chromatography or high pressure liquid chromatography.--Bolt, M. J. G. Separation of methylated free bile acids from their taurine and methyl glycine conjugates by thin-layer chromatography.     

Rapid and simple method for the determination of urinary benzoic and phenylacetic acids and their glycine conjugates in ruminants by reversed-phase high-performance liquid chromatography

A simple, rapid and reproducible reversed-phase high-performance liquid chromatographic method for the simultaneous determination of benzoic acid (BA), phenylacetic acid (PAA) and their respective glycine conjugates hippuric acid (HA) and phenaceturic acid (PA) in sheep urine is described. The procedure involves only direct injection of a diluted urine sample, thus obviating the need for an extraction step or an internal standard. The compounds were separated on a Nova-Pak C₁₈ column with isocratic elution with acetate buffer (25 mM, pH 4.5)—methanol (95:5). A flow-rate of 1.0 ml/min, a column temperature of 35°C and detection at 230 nm were employed. These conditions were optimized by investigating the effects of pH, molarity, methanol concentration in the mobile phase and column temperature on the resolution of the metabolites. The total analysis time was less than 15 min per sample. At a signal-to-noise ratio of 3 the detection limits for ten-fold diluted urine were 1.0 μg/ml for BA and HA and 5.0 μg/ml for PAA and PA with a 20-μl injection.     

Rapid determination of glycine- and taurine-conjugated bile acids in human bile by high-performance liquid chromatography

With use of an anion-exchange packing, TSK Gel IEX 540 DEAE, for high-performance liquid column chromatography, glycine- and taurine-conjugated bile acids were separated in 10 min and detected with a differential refractometer. Human bile could be analyzed after a simple pretreatment. The purity of the peaks of glycine- and taurine-conjugated bile acids in human bile was confirmed by enzymatic determination using 3α-hydroxysteroid:NAD oxidoreductase. The molar ratios of the two forms of the conjugates (glycine/taurine ratios) in bile from normal subjects and from patients suffering from various hepatobiliary diseases were measured.     

Quantitative determination of bile acids in bile with reversed-phase high-performance liquid chromatography

Separation and quantitation of glycine and taurine conjugates of commonly occurring bile acids in bile, i.e. lithocholic, deoxycholic, chenodeoxycholic, ursodeoxycholic and cholic acids in their naturally occurring states have been successfully accomplished using high-performance liquid chromatography. No preliminary purification of bile acids is required except ethanol extraction of bile. A μ Bondapak C₁₈ column and acetonitrile—methanol—phosphate buffer and ultraviolet detector at 200 nm were used. Detection limit was 0.05 μg and linearity was observed in the range up to 16 μg. Bile acid composition of ten randomly chosen normal human gallbladder bile samples is given. A large difference in bile acid composition between glycine and taurine conjugates was found to be present.     

Development and utilization of a procedure for measuring urinary porphyrins by high-performance liquid chromatography

We describe a procedure for determining the five principal urinary porphyrins — uroporphyrin, heptacarboxylporphyrin, hexacarboxylporphyrin, pentacarboxylporphyrin, and coproporphyrin — by using high-performance liquid chromatography (HPLC). The method involves a 12- to 15-min isocratic separation on a Bondapak® Phenyl column. Studies have indicated that urine samples must be preserved to maintain porphyrin stability for extended periods. We have found that the pH of preserved samples must be adjusted into the acidic range before the samples can be accurately analyzed by this HPLC procedure. Our studies demonstrate that good reproducibility and recovery are achieved with this method. Urinary porphyrin values for normal and porphyric individuals are reported.     

Determination of conjugated bile acids in human bile and duodenal fluid by reverse-phase high-performance liquid chromatography

A simple mehtod using reverse-phase liquid chromatography is presented for resolution and quantitation of the major conjugated bile acids of man, including the glycine and taurine conjugates of the dihydroxy bile acids, chenodeoxycholic and deoxycholic acid. Using modern, high-performance chromatographic equipment, analysis time is less than 30 minutes. The quantitative range of the method, with detection by refractive index, is 0.05 to 0.1 mumol of bile acid and the limit of detection for an injection sample is 0.01 mumol. This provides a sensitivity sufficient for analysis of dilute duodenal and gallbladder bile with minimal sample preparation.     

Simultaneous determination of bile acids in rat liver tissue by high-performance liquid chromatography

A method for the simultaneous determination of bile acids in rat liver tissue by high-performance liquid chromatography was developed. Without prior fractionation and alkaline hydrolysis, 30 unconjugated, glycine- and taurine-conjugated bile acids were detected by post-column enzymatic reaction and fluorescence detection. They were separated on a reversed-phase column using a linear gradient solvent system of 10 mM tribasic ammonium phosphate–acetonitrile–methanol (44:12:5, v/v/v) and 20 mM dibasic ammonium phosphate–acetonitrile–methanol (2:1:2, v/v/v). The limits of detection were 1–5 pmol, and calibration curves were linear for concentrations ranging between 10 and 4000 pmol per 10 μl injection. This rapid and reliable method is effective for measuring bile acid levels in liver tissue not only of rats but also of patients with hepatobiliary and other diseases.     

Development and validation of a sensitive method for the determination of ganciclovir in human plasma samples by reversed-phase high-performance liquid chromatography

A rapid, sensitive, specific liquid chromatographic method has been developed for the determination of therapeutic levels of ganciclovir in human plasma. Plasma (1 ml) and acyclovir (I.S.) were treated with 50% trichloroacetic acid. The supernatant was neutralized with 2 M NaOH and purified with chloroform. The aqueous phase (80 μl) was analyzed by a 3-μm Hypersil ODS C₁₈ column with 0.04 M triethylamine–0.1 M sodium dihydrogen phosphate monohydrate as the mobile phase (1 ml/min) and ultraviolet detection at 254 nm. Calibration was linear from 50 to 10 000 ng/ml. Intra- and inter-day C.V. did no exceed 6.65%. The detection limit was about 10 ng/ml.     

The use of negative ion thermospray liquid chromatography/tandem mass spectrometry for the determination of bile acids and their glycine conjugates.

A study was carried out on the negative ion thermospray liquid chromatography/mass spectrometry and liquid chromatography/tandem mass spectrometry of a group of bile acids and their glycine conjugates. The liquid chromatographic/tandem mass spectrometric experiments were performed using low-energy collisions on a triple-quadrupole mass spectrometer. It was found that relatively high collision energies and collision gas pressures were required to produce fragmentation and that some unusual fragments were produced.     

Determination of conjugated bile acids in human urine by high-performance liquid chromatography with chemiluminescence detection

A qualitative and quantitative analysis of the conjugated 1β- and 6α-hydroxy bile acids, including common bile acids, in human urine using high-performance liquid chromatography with chemiluminescence detection is described. After extraction of urine with C₁₈ silica cartridges, the bile acids were separated into non-conjugated, glycine, taurine and sulphate fractions by ion-exchange chromatography on a lipophilic gel. Solvolysis of the sulphate was carried out by treatment with trifluoroethanol in acetone containing hydrochloric acid, and the liberated amino acid conjugates were fractionated again. The individual bile acids were separated on a reversed-phase C₁₈ column (Bile Pak II), with detection by an immobilized 3α-hydroxysteroid dehydrogenase enzyme reactor and chemiluminescence reaction of the generated NADH using 1-methoxy-5-methylphenazinium methylsulphate—isoluminol—microperoxidase system. The assay method showed the detection limits ranging from 8 to 250 pmol for the bile acids tested. Analysis of urine samples obtained from newborns, non-pregnant women and women in late pregnancy showed a large difference in bile acid composition and conjugation mode, suggesting that bile acid metabolism is different during fetal and neonatal periods.     

Effects of bile acids and their glycine conjugates on gamma-glutamyl transpeptidase

Glycine and taurine conjugates of bile acids modulate gamma-glutamyl transpeptidase by interacting with the cysteinylglycine binding site (acceptor site) of the enzyme. These compounds stimulate hydrolysis of glutamine and S-methylglutathione and the rate of the inactivation of the enzyme by the gamma-glutamyl site-directed reagent, AT-125 (L-(alpha S,5S)-alpha-amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid). Transpeptidation between S-methylglutathione and methionine was inhibited by these compounds. These effects resemble those caused by hippurate; the glycine derivatives of bile acids, however, exhibit a much greater affinity for transpeptidase than hippurate. Cholate, as shown previously for benzoate, also seems to bind to a portion of the acceptor site as indicated by its effects on S-methylglutathione utilization and AT-125-dependent inactivation of the enzyme. The Kd values for cholate and benzoate are, however, at least one order of magnitude larger than those for their respective glycine derivatives. The acceptor site-directed modulators increase the affinity of the enzyme for AT-125 and kinetic and binding studies show that binding of gamma-glutamyl site-directed reagents increases the affinity of the enzyme for cholate. These results thus indicate cooperative interactions between the gamma-glutamyl donor and acceptor binding domains of the transpeptidase active center.     

Separation of phosphohydroxyamino acids by high-performance liquid chromatography

A high-performance liquid chromatography system has been developed which resolves O-phosphoserine, O-phosphothreonine, and O⁴-phosphotyrosine. Separation is performed on an anion-exchange resin eluted with phosphate buffer of low pH. Detection of the amino acid derivatives is accomplished using O-phthalaldehyde in an in-stream fluorometric system. This highly sensitive method has been applied to the detection of phosphohydroxyamino acids in bovine myelin basic protein phosphorylated by the catalytic subunit of cyclic AMP-dependent protein kinase and in whole bovine myelin phosphorylated by endogenous kinases.     

High-performance liquid chromatographic mass spectrometric method for the determination of ursodeoxycholic acid and its glycine and taurine conjugates in human plasma

A novel sensitive high-performance liquid chromatography-electrospray mass spectrometry method has been developed for the determination of ursodeoxycholic acid (UDCA) and its glycine and taurine conjugates, glycoursodeoxycholic acid (GDCA) and tauroursodeoxycholic acid (TDCA). The procedure involved a solid phase extraction of UDCA, GDCA, TDCA and the internal standard, 23-nordeoxycholic acid from human plasma on a C18 Bond Elut cartridge. Chromatography was performed by isocratic reverse phase separation with methanol/25 mM ammonium acetate (40/60, v/v) containing 0.05% acetic acid on a C18 column with embedded polar functional group. Detection was achieved using an LC-MS/MS system. The standard curve was linear over a working range of 10-3000 ng/ml for all analytes and gave an average correlation coefficient of 0.9992 or better during validation. The absolute recovery for UDCA, GDCA, TDCA and the internal standard was 87.3, 83.7, 79.5 and 95.8%, respectively. This method is simple, sensitive and suitable for pharmacokinetics, bioequivalence or clinical studies.     

The biochemical basis for the conjugation of bile acids with either glycine or taurine

All animals, except for the placental mammals, conjugate their bile acids exclusively with taurine. However, in certain of the placental mammals, glycine conjugates are also found. The basis for the appearance of glycine conjugation among the placental mammals was investigated. The reaction of choloyl-CoA with glycine and taurine, as catalysed by the soluble fraction from guinea-pig liver, had a high affinity for taurine and a poor affinity for glycine. The predominant synthesis of glycine conjugates in the guinea pig can be related to the fact that guinea-pig liver contains an unusually low concentration of taurine and a high concentration of glycine. Rabbits make exclusively glycine conjugates and their livers also contain low concentrations of taurine. However, the biochemical basis for their glycine conjugation is more straightforward than in the guinea pig in that the soluble fraction from rabbit liver has a high affinity for glycine and a poor affinity for taurine. Alternative-substrate-inhibition studies with glycine and taurine in soluble fractions from guinea-pig and rabbit liver revealed that glycine and taurine were mutually inhibitory. This suggests that there is only one enzyme for glycine and taurine conjugation in these tissues. The soluble fractions from bovine liver and human liver also made both glycine and taurine conjugates and evidence is presented that suggests that there is only one enzyme in these tissues too. Even the rat, which excretes mostly taurine conjugates, could make both glycine and taurine conjugates in vitro. However, in contrast with all of the placental mammals studied, the supernatant fraction from liver of the chicken, and other non-mammals, could not make glycine conjugates even in the presence of very high concentrations of glycine.     

Evaluation and separation of steroid-bovine serum albumin conjugates by high-performance liquid chromatography

The conventional methods for characterization of steroid immunogens are based on the determination of the total amount of hapten bound to the protein carrier either by the UV spectroscopy or titration of unsubstituted amino groups. These methods do not allow more detailed insight into the immunogen composition. HPLC of the immunogen combined with UV detection is a relatively rapid and convenient method enabling determination of the hapten content in each fraction and, eventually, separation of individual fractions differing in the hapten content or purification of crude product.