Thin-layer separation and quantification of bile acids

A method has been developed for quantification of total free and conjugated bile acids separated on silica gel HR coated thin-layer chromatography plates. Aliquots of bile acid solutions are applied to channeled plates which are developed with either ethyl acetate: isooctane: glacial acetic acid 10:10:2 v/v for free bile acid separation, or chloroform:methanol:glacial acetic acid:water 130:50:4:8 v/v for conjugated bile acid separation. Bile acids are determined directly in serial areas of silica gel by treating gel areas suspended in tris buffer with resazurin reagent. The method is quantitative and as little as 0.1 μg of bile acid is readily determined. Application of the method to determinations of bile acids in crude fecal extracts is described.     

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.     

Bile acid sulfates in serum bile acids determination.

Some bile acid sulfates were synthesized and characterized. The configuration of sulfate groups at C-3, C-7 and C-12 positions was confirmed by Nuclear Magnetic Resonance analysis. These sulfates were utilized in a study of their chemical behaviour in different analytical procedures currently used for serum bile acids determination. Procedures for bile acids extraction from serum with ethanol or Amberlite XAD-2 result in an important loss of the most polar sulfated bile acids. Complete separation of unsulfated from sulfated bile acids on Sephadex LH-20 is not achieved when deconjugation of the most polar bile acid sulfate is slow but does not produce artifacts. Enzymatic determination of bile acids gives positive response with some bile acid sulfates. The current procedures of serum bile acids determination are discussed in consideration of these results.     

Alkaline solvent systems for thin-layer chromatography of bile acids

Thin-layer chromatographic separation of the common bile acids and their taurine and glycine conjugates in chloroform-methanol-ammonia is reported. An alkaline system offers advantages for the separation and nondestructive staining of bile acid conjugates.     

Glyco-7 alpha, 12 alpha-dihydroxy-5 beta-cholanic acid as internal standard for high-pressure liquid chromatographic analysis of conjugated bile acids

Glyco-7 alpha, 12 alpha-dihydroxy-5 beta-cholanic acid was tested as internal standard for high-pressure liquid chromatographic analysis of the five main glycine- and taurine-conjugated bile acids present in adult human serum and bile. When the standard is added to the samples before extraction, the recovery rate throughout the procedure is similar to that of other bile acids. For all bile acids studied, the response, relative to the internal standard, is linear at 205 nm. Baseline separation is observed between the internal standard and all other bile acids, both in artificial mixtures and extracts of biological samples. Thus, glyco-7 alpha, 12 alpha-dihydroxy-5 beta-cholanic acid is a reliable internal standard for HPLC analysis of conjugated bile acids in serum and bile.     

Group separation of bile acids and salts by silicic acid column chromatography

Group separations of unconjugated and conjugated bile acids and salts were performed using mixtures of conventional solvents by chromatography on columns of silicic acid. The results suggest that this method is useful for group separations of mono-, di-, and trihydroxycholan-24-oic acids and their conjugates with good recoveries. This method is advantageous for synthesis work, especially for the purification of conjugated and sulfated bile acids and salts, and is applicable for the group separation of glycine and taurine conjugates. The application of this method to human gallbladder bile salts is demonstrated.     

A simple method for the separation of bile acid groups by ion-exchange chromatography

A simple ion-exchange chromatographic method for the separation of bile acid mixtures is described. The method employs Dowex 1 as anion exchanger and mixtures of aqueous ethanol and hydrochloric acid as eluants. The use of mixtures in which both the ethanol and acid concentrations are varied has permitted a clear separation of the major bile acid groups (nonconjugated, glycine conjugated, and taurine conjugated bile acids).     

Analysis of conjugated bile acids by packed-column supercritical fluid chromatography

A rapid method has been developed for the simultaneous separation of the polar glycine- and taurine-conjugated bile acids by packed-column supercritical fluid chromatography. Samples were analysed on a cyanopropyl-bonded silica column with ultraviolet detection at 210 nm and carbon dioxide modified with methanol as the mobile phase. The influence of the stationary phase, modifier concentration, temperature, column pressure and modifier identity on retention was also studied. This new chromatographic method is applicable to the assay of conjugated bile acids in duodenal bile samples from patients with hepatobiliary diseases.     

Size exclusion chromatography for extraction of serum bile acids

A major problem in the measurement of serum bile acids is their quantitative extraction from the high molecular protein matrix. In our hands, the standard techniques of adsorption and reversed-phase chromatography have yielded incomplete recovery for different bile acids (33-93%) and poor reproducibility. In contrast, with the novel extraction procedure of size exclusion chromatography, recovery was nearly quantitative (75-104%) and reproducibility was satisfactory. The described method allowed for a reliable determination of serum bile acids in healthy subjects and patients with liver cirrhosis. We conclude that size exclusion chromatography for serum bile acid extraction is more reliable than alternative techniques, because the separation by size is independent of solubility, charge, and polarity.     

Differentiated quantification of human bile acids in serum by high-performance liquid chromatography-tandem mass spectrometry

Determination of quantitative changes in the pattern of serum bile acids is important for the monitoring of diseases affecting bile acid metabolism. A sensitive and specific high-performance liquid chromatography (HPLC)-MS/MS method was developed for the differentiated quantification of unconjugated as well as glycine- and taurine-conjugated cholic, chenodeoxycholic (CDCA), deoxycholic (DCA), ursodeoxycholic (UDCA) and lithocholic acid (LCA) in serum samples. After solid-phase extraction and reversed-phase HPLC separation, detection of the conjugated bile acids was performed using electrospray ionization (ESI)-MS/MS and selected reaction monitoring mode, whereas unconjugated bile acids were determined by ESI-MS and selected ion monitoring mode. The within-day and between-day coefficients of variation were below 7% for all bile acids and the recovery rates of the extraction procedure were between 84.9 and 105%. The developed method was applied to a group of 21 healthy volunteers and preliminary reference intervals in serum were established. In patients with drug-induced cholestasis, an elevation of primary bile acids has been shown.     

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.     

Development and validation of a method for measuring the glycine and taurine conjugates of bile acids in bile by high-performance liquid chromatography

We developed and validated a simple method for measuring the individual glycine and taurine conjugates of bile acids in bile by high-performance liquid chromatography with a C₁₈ reversed-phase column using an isocratic solvent system of acidified methanol—potassium phosphate. Without preliminary derivatization or purification, complete separation of the ten major conjugated bile acids present in bile could be achieved in 65 min. Total bile acid concentrations were identical when measured enzymatically and by summing the individual bile acids determined by high-performance liquid chromatography. Bile acid composition determined by gas—liquid chromatography correlated with results by high-performance liquid chromatography. Finally, measurements of individual glycine and taurine conjugates in human bile and in mixtures of bile acid standards by high-performance liquid chromatography and thin-layer chromatography gave similar results. This high-performance liquid chromatographic system permits simultaneous quantification of total and individual bile acids and their glycine and taurine conjugates in bile.     

Superior gas-liquid chromatography of methyl cholanoate acetates on cyanopropylphenylsiloxane liquid phases

The resolution and recovery of mixtures of the methyl ester acetates of synthetic and natural bile acids are excellent on gas-liquid chromatographic columns prepared with 1–3% OV-225 on 100–200 mesh Gas Chrom Q. The columns are operated isothermally at 250–260°C with helium as carrier gas and conventional gas chromatographic equipment. Under these conditions, complete separation of the major bile acids of rat and human bile is obtained in 30–60 min. This method of analysis is superior to that based on the trifluoroacetyl or trimethylsilyl derivatives, using OV-225 or other liquid phases.     

Foetomaternal relationships of serum bile acid pattern estimated by high-pressure liquid chromatography.

The bile acid patterns in the maternal and umbilical vein and artery serum samples were analysed by a two-step chromatographic method involving group separation by piperidinohydroxypropyl-Sephadex LH-20 and high-pressure liquid chromatography using immobilized 3 alpha-hydroxy steroid dehydrogenase. Glycochenodeoxycholate predominates in the maternal blood and taurochenodeoxycholate in the umbilical blood. In cases where a free bile acid was detected in the maternal blood, the same bile acid was also demonstrated in the corresponding cord blood. The concentrations of taurocholate and taurochenodeoxycholate were found to be significantly higher in the umbilical artery than in the corresponding umbilical vein. Our data suggest that there is a bidirectional placental transfer of free bile acids and that there is a transfer of taurine-conjugated primary bile acids from the foetus to the mother.     

Gas chromatography-mass spectrometry of isobutyl ester trimethylsilyl ether derivatives of bile acids and application to the study of bile sterol and bile acid biosynthesis in rat liver epithelial cell lines

The derivatization of bile acids into trimethylsilyl ether isobutyl ester (IBTMS) and of neutral sterols into trimethylsilyl ether (TMS) allowed the separation on an OV-1 capillary gas chromatography column of 15 bile steroids as follows: cholesterol, 7 alpha-hydroxycholesterol, 6 beta-hydroxycholesterol, 6 alpha-hydroxycholesterol, 7 beta-hydroxycholesterol, lithocholate, deoxycholate, 25-hydroxycholesterol, chenodeoxycholate, cholate, murocholate, hyodeoxycholate, ursodeoxycholate, hyocholate, and beta-muricholate. Fragmentation data of the coupled gas chromatographic-mass spectrometric (GC-MS) analysis of these nine bile acids as IBTMS derivatives under electron impact and chemical ionizations (methane, isobutane, and ammonia) are given. The ammonia chemical ionization appears to be the best mode for compound identification and quantitation due to fragmentations into high mass ions. The comparison of methylene units of the five sterols as TMS derivatives and of each type of methyl, TMS, or isobutyl ester of the nine bile acids as TMS ethers showed that isobutyl esterification increased dramatically the retention time of the bile acids, allowing their separation after the neutral sterols. Different methods of GC-MS analysis were applied to the study of bile steroid secretion in long-term rat liver epithelial cell lines, either serum-supplemented cell lines or serum-free cell lines, growing in serum-free medium since the primary explanation or after adaptation of serum-supplemented lines to this medium. It is demonstrated for the first time that liver epithelial cell lines maintain the metabolic pathway leading from synthesized cholesterol to dioxygenated sterols and the two normal main primary bile acids of the liver, chenodeoxycholic acid and cholic acid, up to 32-47% of the in vivo daily rate, and in addition the production of alpha-muricholic acid, the bile acid marker of murine liver.     

A simple and accurate HPLC method for fecal bile acid profile in healthy and cirrhotic subjects: validation by GC-MS and LC-MS

We have developed a simple and accurate HPLC method for measurement of fecal bile acids using phenacyl derivatives of unconjugated bile acids, and applied it to the measurement of fecal bile acids in cirrhotic patients. The HPLC method has the following steps: 1) lyophilization of the stool sample; 2) reconstitution in buffer and enzymatic deconjugation using cholylglycine hydrolase/sulfatase; 3) incubation with 0.1 N NaOH in 50% isopropanol at 60°C to hydrolyze esterified bile acids; 4) extraction of bile acids from particulate material using 0.1 N NaOH; 5) isolation of deconjugated bile acids by solid phase extraction; 6) formation of phenacyl esters by derivatization using phenacyl bromide; and 7) HPLC separation measuring eluted peaks at 254 nm. The method was validated by showing that results obtained by HPLC agreed with those obtained by LC-MS/MS and GC-MS. We then applied the method to measuring total fecal bile acid (concentration) and bile acid profile in samples from 38 patients with cirrhosis (17 early, 21 advanced) and 10 healthy subjects. Bile acid concentrations were significantly lower in patients with advanced cirrhosis, suggesting impaired bile acid synthesis.     

Newly identified bile acid binders in rat liver cytosol. Purification and comparison with glutathione S-transferases

Gel filtration of male rat liver cytosol preincubated with radiolabeled lithocholic, chenodeoxycholic, and glycochenodeoxycholic acids, and taurocholic acid revealed two major peaks of radioactivity, one co-eluting with the glutathione S-transferases and the other with a separate fraction, respectively. Chromatofocusing of the pooled fractions containing the new bile acid binding activity resulted in a separation of bile acid binding from the previously described organic anion binding activity in this fraction. Two binding peaks for lithocholic acid (pI 5.6, Binder I, and pI 5.5, Binder II) were identified on chromatofocusing and were further purified to apparent homogeneity by hydroxyapatite chromatography. The two Binders were monomers having identical molecular weight (33,000) and similar amino acid compositions. Bile acid binding to purified Binders I and II and glutathione S-transferases A, B, and C was studied by inhibition of the fluorescence of bound 1-anilino-8-naphthalenesulfonate (ANS). Confirmatory experiments using equilibrium dialysis produced comparable results. Glutathione S-transferase B had greater affinity for bile acids than transferases A or C. Binder II, which had greater affinity than Binder I for most bile acids, had greater affinity for chenodeoxycholic acid than transferase B but comparable or lower affinities for the other bile acids. All bile acids studied diminished ANS fluorescence with Binder II. Taurocholic and cholic acids increased ANS fluorescence with Binder I without affecting KANS, whereas lithocholic and chenodeoxycholic acids diminished ANS fluorescence with Binder I. In summary, we have identified and isolated two proteins (Binders I and II) which, along with glutathione S-transferase B, are the major hepatic cytosol bile acid binding proteins; these proteins have overlapping but distinct specificities for various bile acids.     

Analysis of bile acids in conventional and germfree rats.

The well-known bile acid analysis technique used by us and others (Grundy, Ahrens, and Miettinen. 1965. J. Lipid Res. 6:397-410) does not allow for the detection of hyodeoxycholic acid, a product of quantitative importance in rodent feces. Using updated methodology, it was established that hyodeoxycholic acid and omega-muricholic acid, both apparent conversion products of beta-muricholic acid, occur in apppreciable amounts in intestinal contents and feces of conventional Wistar type Lobund rats. In conventional rats, these bile acids comprise about 50% of fecal bile acids; they are not found in intestinal contents or feces of germfree rats. Others have demonstrated that hyodeoxycholic acid if formed by combined action of gut flora and liver. A new method for the separation of conjugated and free bile acids in biological samples was developed. Results with this method confirmed the total conjugation of bile acids in the germfree rat, and the almost total deconjugation that takes place in the cecum of the conventional rat.     

Quantitative analysis of unconjugated and conjugated bile acids in duodenal fluid by densitometry after paper electrophoresis

A new paper electrophoretic method for the separation of bile acids into five groups, (1) unconjugated, (2) glycine conjugates and (3) taurine conjugates, and (4) and (5) the respective monosulfates, is described. Rapid and accurate qualitative and quantitative estimations of each group are obtained by densitometry after internal standardization and phosphomolybdate color development. The technique can be done in the routine clinical laboratory and is useful for the detection of diseases affecting the enterohepatic circulation of bile acids.     

Analysis of bile acids in serum and bile by capillary gas-liquid chromatography

Various liquid phases for glass capillary columns have been evaluated for gas-liquid chromatographic analysis of methyl ester trimethylsilylether derivatives of bile acids from serum and bile. Bile acid analysis is rapid and exhibits high separation efficiency with a 20 X 0.3 mm glass capillary column whose internal surface is covered with a crystal layer of barium carbonate and coated with polyethyleneglycol 20000 as liquid phase according to Grob et al.