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17. Olfactory sensitivity to bile fluid and bile salts in the European eel (Anguilla anguiIIa), goldfish (Carassius auratus) and Mozambique tilapia ( Oreochromis rnossambicus) suggests a 'broad range' sensitivity not confined to those produced by conspecifics alone

Author

Huertas, M., Hagey, L., Hofmann, A. F., Cerdà, J., Canário, A. V. M., and Hubbard, P. C.

Subjects
*ANGUILLA anguilla, *GOLDFISH, *SMELL, *MOZAMBIQUE tilapia, *BILE salts, *BILE acids, *CHROMATOGRAPHIC analysis
Abstract

Teleosts have high olfactory sensitivity to bile salts. To assess whether this phenomenon is involved in intra-specific chemical communication alone, or is part of a more broad range' sensitivity to bile salts produced by heterospecifics, we investigated possible differences in the odour of bile between the sexes and among different species - the eel (Anguilla anguilla), goldfish (Carassius auratus) and Mozambique tilapia (Oreochromis mossambicus) - using the electro-olfactogram (EOG). We also identified the main bile constituents by liquid chromatography and mass spectrometry. There were marked differences in olfactory response of the eel to thin-layer chromatography fractions of bile from both sexes, and mature and immature conspecifics. Smaller differences were seen in the potency of fractions of bile from male and female goldfish and tilapia. Eels, goldfish and tilapia demonstrated similar olfactory sensitivity to bile from a range of different species, with no apparent correlation between the olfactory potency of bile and a phylogenetic closeness and/or similarity of diet of the donor to the receiver. The three species were able to detect odorants in thin-layer chromatography fractions of heterospecific bile even in the absence of activity in conspecific bile. Eels, goldfish and tilapia responded to both sulphated C27 bile salts (5β-scymnol-sulphate and 5α-cyprinol sulphate) and to taurine-conjugated C24 bile salts (taurochenodeoxycholic acid, taurolithocholic acid and taurocholic acid), irrespective of whether these bile salts were present in conspecific bile. Together, these results suggest that teleosts have a broad-range olfactory sensitivity to bile salts, with potential roles in both intra-specific chemical communication and in inter-specific interactions. [ABSTRACT FROM AUTHOR]

Published
2010
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21. A novel primary bile acid in the Shoebill stork and herons and its phylogenetic significance.

Author

Hagey, L R, Schteingart, C D, Ton-Nu, H-T, and Hofmann, A F

Abstract

The Shoebill stork, an enigma phylogenetically, was found to contain as its dominant biliary bile acid 16alpha-hydroxychenodeoxycholic acid, a heretofore undescribed bile acid. The bile acid occurred as its taurine N-acyl amidate; structure was established by nuclear magnetic resonance (NMR) and mass spectrometry (MS). A search for this novel bile acid in other Ciconiiformes showed that it constituted >92% of biliary bile acids in five of nine herons in the Ardidae, but was absent in all other families (Ciconiidae, Threskiornithidae, Scopidae, Phoenicopteridae). The presence of this biochemical trait in the Shoebill stork and certain herons suggests that these birds are closely related.

Published
2002

22. Role of bile acid conjugation in hepatic transport of dihydroxy bile acids.

Author

Clayton, L M, Gurantz, D, Hofmann, A F, Hagey, L R, and Schteingart, C D

Abstract

The effect of conjugation and side chain length on dihydroxy bile acid unidirectional hepatic uptake and efflux was studied using the isolated perfused rat liver which was perfused prograde or retrograde in single pass fashion. Deoxycholic acid (DC) and its C23 (nor) derivative nor-DC, as well as the synthetically prepared taurine conjugate of DC, were administered at a constant dose of 1 mumol/min/kg (body weight), upon which a bolus tracer dose of labeled bile acid was superimposed. Analysis of radioactivity recovery in perfusate indicated that unidirectional uptake of all three bile acids was equally rapid, but that only nor-DC showed considerable and continuing efflux into the perfusate; this involved mostly the unchanged acid. Nor-DC was not amidated but was metabolized to mostly ester glucuronides and hydroxylated derivatives; the biotransformation products did not reflux and were secreted into bile; similarly, DC was amidated with taurine; its taurine conjugate did not efflux and was secreted into bile. When nor-DC-taurine was infused, it did not efflux and was secreted rapidly into bile. When the liver was perfused retrograde fashion to increase concentrations of bile acids pericentral cells, only nor-DC showed efflux, which again involved only the unchanged acid. All bile acids were partly 7 alpha-hydroxylated, the magnitude being greater during retrograde perfusion presumably because slower cellular transport exposed bile acid to hydroxylation enzymes for a longer period. It is concluded that bile acid conjugation, whether by esterification with CoA formation adn subsequent amidation or by esterification with glucuronate, restricts the movement of lipophilic dihydroxy bile acids to the hepatocyte and canalicular lumen.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1989

23. An N-acyl glycyltaurine conjugate of deoxycholic acid in the biliary bile acids of the rabbit.

Author

Hagey, L R, Schteingart, C D, Rossi, S S, Ton-Nu, H T, and Hofmann, A F

Abstract

jj biliary bile acid composition of the adult and neonatal domestic rabbit, as well as that of the adult brush rabbit, was characterized. In adult domestic rabbits, the dominant bile acid present was deoxycholic acid (88% of total bile acids), a secondary bile acid formed by the bacterial 7-dehydroxylation of cholic acid. Although most of the bile acids present were conjugated with glycine, two exceptions were observed. About 3% of deoxycholic acid was conjugated, in N-acyl linkage, with glycyl-taurine. Chenodeoxycholic acid, which composed <1% of wile acids, was conjugated solely with taurine. The bile of neonatal rabbits contained a greater percentage of primary bile acids, and bile acids were conjugated to a much greater extent with taurine. The adult brush rabbit had a bile acid composition similar to that of the domestic rabbit, but about one-third of all bile acids were conjugated with taurine. In addition, lithocholic acid was present as its sulfated amidate, whereas in the domestic rabbit, lithocholic acid was conjugated solely with glycine. The biliary bile acid composition of rabbits appears to be unique both in terms of the predominant steroid moiety, as well as in the modes of conjugation.

Published
1998

26. BILE ACIDS AND PRIMATE DIETS.

Author

Moore, J. and Hagey, L.

Subjects
*PRIMATES, *ANIMAL feeding behavior
Abstract

The article presents the abstract of the paper "Bile Acids and Primate Diets," by J. Moore and L. Hagey, to be presented at the 21st Congress of the International Primatological Society in Entebbe, Uganda from June 25 to 30, 2006.

Published
2006

27. Adult sea lamprey tolerates biliary atresia by altering bile salt composition and renal excretion.

Author

Cai SY, Lionarons DA, Hagey L, Soroka CJ, Mennone A, and Boyer JL

Subjects
Animals, Disease Models, Animal, Female, Homeostasis, Larva metabolism, Liver metabolism, Male, Organic Anion Transporters metabolism, Bile Acids and Salts metabolism, Biliary Atresia metabolism, Cholestasis metabolism, Kidney metabolism, Petromyzon metabolism
Abstract

The sea lamprey (Petromyzon marinus) is a genetically programmed animal model for biliary atresia, as it loses its bile ducts and gallbladder during metamorphosis. However, in contrast to patients with biliary atresia or other forms of cholestasis who develop progressive disease, the postmetamorphosis lampreys grow normally to adult size. To understand how the adult lamprey thrives without the ability to secrete bile, we examined bile salt homeostasis in larval and adult lampreys. Adult livers were severely cholestatic, with levels of bile salts >1 mM, but no evidence of necrosis, fibrosis, or inflammation. Interestingly, both larvae and adults had normal plasma levels (∼10 μM) of bile salts. In larvae, petromyzonol sulfate (PZS) was the predominant bile salt, whereas the major bile salts in adult liver were sulfated C27 bile alcohols. Cytotoxicity assays revealed that PZS was highly toxic. Pharmacokinetic studies in free-swimming adults revealed that ∼35% of intravenously injected bromosulfophthalein (BSP) was eliminated over a 72-hour period. Collection of urine and feces demonstrated that both endogenous and exogenous organic anions, including biliverdin, bile salts, and BSP, were predominantly excreted by way of the kidney, with minor amounts also detected in feces. Gene expression analysis detected marked up-regulation of orthologs of known organic anion and bile salt transporters in the kidney, with lesser effects in the intestine and gills in adults compared to larvae. These findings indicate that adult lampreys tolerate cholestasis by altering hepatic bile salt composition, while maintaining normal plasma bile salt levels predominantly through renal excretion of bile products. Therefore, we conclude that strategies to accelerate renal excretion of bile salt and other toxins should be beneficial for patients with cholestasis. (HEPATOLOGY 2013;57:2418-2426)., (Copyright © 2012 American Association for the Study of Liver Diseases.)

Published
2013
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28. Mrp4-/- mice have an impaired cytoprotective response in obstructive cholestasis.

Author

Mennone A, Soroka CJ, Cai SY, Harry K, Adachi M, Hagey L, Schuetz JD, and Boyer JL

Subjects
Animals, Cholestasis pathology, Cytoprotection, Liver pathology, Mice, Mice, Inbred C57BL, Multidrug Resistance-Associated Proteins genetics, Cholestasis physiopathology, Multidrug Resistance-Associated Proteins deficiency
Abstract

Mrp4 is a member of the multidrug resistance-associated gene family that is expressed on the basolateral membrane of hepatocytes and undergoes adaptive upregulation in response to cholestatic injury or bile acid feeding. However, the relative importance of Mrp4 in a protective adaptive response to cholestatic injury is not known. To address this issue, common bile duct ligation (CBDL) was performed in wild-type and Mrp4-/- mice and animals followed for 7 days. Histological analysis and serum aminotransferase levels revealed more severe liver injury in the absence of Mrp4 expression. Western analyses revealed that Mrp4, but not Mrp3, was significantly increased after CBDL in wild-type mice. Serum bile acid levels were significantly lower in Mrp4-/- mice than in wild-type CBDL mice, whereas serum bilirubin levels were the same, suggesting that Mrp4 was required to effectively extrude bile acids from the cholestatic liver. Mrp3 and Ostalpha-Ostbeta were upregulated in Mrp4-/- mice but were unable to compensate for the loss of Mrp4. High-performance liquid chromatography analysis on liver extracts revealed that taurine tetrahydroxy bile acid/beta-muricholic acid ratios were increased twofold in Mrp4-/- mice. In conclusion, hepatic Mrp4 plays a unique and essential protective role in the adaptive response to obstructive cholestatic liver injury.

Published
2006
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29. The elephants of Zoba Gash Barka, Eritrea: part 4. Cholelithiasis in a wild African elephant (Loxodonta africana).

Author

Agnew DW, Hagey L, and Shoshani J

Subjects
Animals, Cadaver, Cholelithiasis diagnosis, Cholelithiasis pathology, Male, Cholelithiasis veterinary, Elephants
Abstract

A 4.0-kg cholelith was found within the abdominal cavity of a dead wild African elephant (Loxodonta africana) in Eritrea. Analysis of this cholelith by histochemistry, electron microscopy, electrospray mass spectroscopy, and energy-dispersive x-ray spectroscopy revealed it was composed of bile alcohols but no calcium, bilirubin, or cholesterol. Bacteria were also found in the cholelith. Similar, but smaller, bile stones have been identified previously in other wild African elephants and an excavated mammoth (Mammuthus columbi). Choleliths have been reported only once in a captive Asian elephant (Elephas maximus). Elephants, along with hyraxes (Procavia capensis) and manatees (Trichechus manatus), are unique among mammals in producing only bile alcohols and no bile acids, which may predispose them to cholelithiasis, particularly in association with bacterial infection. Dietary factors may also play an important role in cholelith formation.

Published
2005
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30. Physicochemical and physiological properties of 5alpha-cyprinol sulfate, the toxic bile salt of cyprinid fish.

Author

Goto T, Holzinger F, Hagey LR, Cerrè C, Ton-Nu HT, Schteingart CD, Steinbach JH, Shneider BL, and Hofmann AF

Subjects
Animals, Bile chemistry, Bile Acids and Salts isolation & purification, Bile Acids and Salts toxicity, Biological Transport, Biotransformation, Carps metabolism, Cell Line, Cholestanols isolation & purification, Cholestanols toxicity, In Vitro Techniques, Intestinal Mucosa metabolism, Liver metabolism, Molecular Structure, Perfusion, Rats, Spectrometry, Mass, Electrospray Ionization, Surface Tension, Bile Acids and Salts chemistry, Bile Acids and Salts metabolism, Cholestanols chemistry, Cholestanols metabolism
Abstract

5alpha-Cyprinol sulfate was isolated from bile of the Asiatic carp, Cyprinus carpio. 5alpha-Cyprinol sulfate was surface active and formed micelles; its critical micellization concentration (CMC) in 0.15 M Na+ using the maximum bubble pressure device was 1.5 mM; by dye solubilization, its CMC was approximately 4 mM. At concentrations >1 mM, 5alpha-cyprinol sulfate solubilized monooleylglycerol efficiently (2.1 molecules per mol micellar bile salt). When infused intravenously into the anesthetized rat, 5alpha-cyprinol sulfate was hemolytic, cholestatic, and toxic. In the isolated rat liver, it underwent little biotransformation and was poorly transported (Tmax congruent with 0.5 micromol/min/kg) as compared with taurocholate. 5alpha-Cyprinol, its bile alcohol moiety, was oxidized to its corresponding C27 bile acid and to allocholic acid (the latter was then conjugated with taurine); these metabolites were efficiently transported. 5alpha-Cyprinol sulfate inhibited taurocholate uptake in COS-7 cells transfected with rat asbt, the apical bile salt transporter of the ileal enterocyte. 5alpha-Cyprinol had limited aqueous solubility (0.3 mM) and was poorly absorbed from the perfused rat jejunum or ileum. Sampling of carp intestinal content indicated that 5alpha-cyprinol sulfate was present at micellar concentrations, and that it did not undergo hydrolysis during intestinal transit. These studies indicate that 5alpha-cyprinol sulfate is an excellent digestive detergent and suggest that a micellar phase is present during digestion in cyprinid fish.

Published
2003
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31. Chemical cues identify gender and individuality in Giant pandas (Ailuropoda melanoleuca).

Author

Hagey L and MacDonald E

Subjects
Animals, Fatty Acids analysis, Female, Male, Mass Spectrometry, Pheromones analysis, Vagina chemistry, Animal Communication, Pheromones chemistry, Scent Glands chemistry, Smell, Ursidae physiology
Abstract

The Giant panda communicates with conspecifics by depositing a mixture of volatile compounds (called scent marks) on trees and rocks. Using mass spectrometry, we identified 951 chemical components from scent glands, urine, vaginal secretions, and scent marks made by pandas. The scent marks of the two genders contained a similar array of chemicals but varied in concentration; specifically, males possessed a significantly greater amount of short chain fatty acids (F(1, 29) = 18.4, P = 0.002). Using stepwise discriminate analysis on the relative proportions of a subset of these chemicals, it was possible to classify gender (94% for males and females) and individuality (81% for males and 91% for females) from scent marks. The power to identify individual males was reduced due to the relatedness of two subjects. By cracking the identity code of Giant panda communication, we show insights into how these animals can match individuals with unique chemical profiles. Since radiocollaring is currently banned in China, the techniques described in this paper give field biologists a new means to identify and track pandas in the wild.

Published
2003
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32. Comparative urinary androstanes in the great apes.

Author

Hagey LR and Czekala NM

Subjects
Animals, Chromatography, High Pressure Liquid, Dehydroepiandrosterone urine, Gorilla gorilla urine, Humans, Male, Pan paniscus urine, Pan troglodytes urine, Pongo pygmaeus urine, Radioimmunoassay, Species Specificity, Spectrometry, Mass, Electrospray Ionization, Testosterone blood, Testosterone urine, Androstanes urine, Hominidae urine
Abstract

Urinary androstanes from seven species of male great apes (human, bonobo, chimpanzee, lowland gorilla, mountain gorilla, Bornean orangutan, and Sumatran orangutan) were separated by HPLC and detected by RIA using two testosterone antibodies. All animals examined showed the presence of testosterone and six additional immunoreactive peaks. Although testosterone was the dominant peak (85%) in human urine, its proportion in urine was much less in the other apes, ranging from a high of 59% in the bonobo and chimpanzee to a low of 24% in the mountain gorilla. Urinary androstanes were also directly visualized using nano-spray mass spectrometry (nanoESI-MS). Although the RIA can qualitatively produce a strong signal for testosterone in unchromatographed urine, it is quantitatively present only as a trace metabolite, as demonstrated by nanoESI-MS. The combination of the two techniques showed large differences in androstane metabolism between the seven species. A previously undescribed testosterone metabolite (tentatively identified as either delta1- or delta6-testosterone sulfate) was present in significant proportions in all of the non-human apes examined. We conclude that in the great apes, testosterone is only a trace metabolite in urine, and as a consequence, its measurement may not produce results that parallel the levels of serum testosterone. The RIA measurement of urinary testosterone in part records additional androstane metabolites, which vary even between closely related genera, making the results neither equivalent with nor comparable to different species.

Published
2003
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33. Identification of a series of C(21)O(2) pregnanes from fecal extracts of a pregnant black rhinoceros (Diceros bicornis minor).

Author

Lance VA, Patton ML, and Hagey LR

Subjects
Animals, Antibody Specificity, Chromatography, High Pressure Liquid, Cross Reactions, Female, Gas Chromatography-Mass Spectrometry, Pregnancy, Radioimmunoassay, Time Factors, Feces chemistry, Perissodactyla metabolism, Pregnanes chemistry, Pregnanes isolation & purification
Abstract

Fecal extracts from a pregnant black rhinoceros, Diceros bicornis, were analyzed by radioimmunoassay, HPLC, and by GC-mass spectrometry. From 40 g of dried feces a total of 33 pregnanes in the C(21)O(2) series, including a number of novel 17 alpha epimers were identified. No progesterone was recovered. The principal progesterone metabolite by mass was 5 alpha-pregnan-3 beta,20 alpha-diol (44.5%), which did not cross react with the antibody used in our RIA. The antibody recognized progesterone and pregnanes with 20-one configuration, which when combined made up less than 15% of the total C(21)O(2) steroid mass. Of the 33 pregnanes in the C(21)O(2) series identified, 81%, by mass, were in the 5 alpha-configuration. These results are compared with studies in other rhinoceros species (Asian and Sumatran) in which pregnanes in the 5 beta-configuration are the major fecal metabolites, and the white rhinoceros in which pregnanes in the 5 alpha-configuration are the dominant form.

Published
2001
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34. Bile acid absorption after near-total proctocolectomy in dogs: ileal pouch vs. jejunal pouch-distal rectal anastomosis.

Author

Teixeira FV, Hofmann AF, Hagey LR, Pera M, and Kelly KA

Subjects
Absorption, Animals, Dogs, Feces chemistry, Gas Chromatography-Mass Spectrometry, Rectum surgery, Bile Acids and Salts metabolism, Proctocolectomy, Restorative
Abstract

Bile acid malabsorption is often present in patients after near-total proctocolectomy and ileal pouch-anal canal anastomosis, suggesting ileal dysfunction. Experiments were performed in dogs to compare bile acid absorption after a modified procedure, in which a jejunal pouch was interposed between the terminal ileum and the distal rectum, with that after a conventional ileal pouch operation. Fecal bile acid output (equivalent to hepatic bile acid biosynthesis) and composition were determined by gas chromatography/mass spectrometry in five jejunal pouch dogs and in five ileal pouch dogs more than 6 months after operation. Fecal bile acid output in the jejunal pouch dogs (mean +/- standard deviation) was 215 +/- 59 mg/day (10.1 +/- 2.7 mg/kg-day), a value similar to that obtained in the ileal pouch dogs (261 +/- 46 mg/day [12.8 +/- 3.1 mg/kg-day]; P >0.05). These values were also similar to those reported by others for healthy unoperated dogs, indicating that increased bile acid biosynthesis occurring in response to bile acid malabsorption was not present. Fecal bile acids in pouch dogs were completely deconjugated and extensively 7-dehydroxylated (jejunal pouch = 90.4% dehydroxylated; ileal pouch = 88.6% +/- 6.6% dehydroxylated) and consisted predominantly of deoxycholic acid derivatives. We conclude that when either a jejunal pouch or an ileal pouch is used as a rectal substitute in dogs, an anaerobic pouch flora develops that efficiently deconjugates and dehydroxylates bile acids, rendering them membrane permeable. The resultant passive absorption of unconjugated bile acids appears to compensate for any loss of active ileal absorption of conjugated bile acids, and bile acid malabsorption does not occur.

Published
2001
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35. Sulindac is excreted into bile by a canalicular bile salt pump and undergoes a cholehepatic circulation in rats.

Author

Bolder U, Trang NV, Hagey LR, Schteingart CD, Ton-Nu HT, Cerrè C, Elferink RP, and Hofmann AF

Subjects
Animals, Anti-Inflammatory Agents, Non-Steroidal blood, Bicarbonates metabolism, Bile physiology, Biliary Fistula metabolism, Biological Transport drug effects, Biotransformation, In Vitro Techniques, Kinetics, Male, Perfusion, Rats, Rats, Sprague-Dawley, Sulindac antagonists & inhibitors, Sulindac blood, Sulindac pharmacokinetics, Taurocholic Acid metabolism, Anti-Inflammatory Agents, Non-Steroidal metabolism, Bile metabolism, Bile Canaliculi metabolism, Bile Ducts blood supply, Liver Circulation, Sulindac metabolism
Abstract

Background & Aims: Dihydroxy bile acids induce a bicarbonate-rich hypercholeresis when secreted into canalicular bile in unconjugated form; the mechanism is cholehepatic shunting. The aim of this study was to identify a xenobiotic that induces hypercholeresis by a similar mechanism., Methods: Five organic acids (sulindac, ibuprofen, ketoprofen, diclofenac, and norfloxacin) were infused into rats with biliary fistulas. Biliary recovery, bile flow, and biliary bicarbonate were analyzed. Sulindac transport was further characterized using Tr(-) rats (deficient in mrp2, a canalicular transporter for organic anions), the isolated perfused rat liver, and hepatocyte membrane fractions., Results: In biliary fistula rats, sulindac was recovered in bile in unconjugated form and induced hypercholeresis of canalicular origin. Other compounds underwent glucuronidation and were not hypercholeretic. In the isolated liver, sulindac had delayed biliary recovery and induced prolonged choleresis, consistent with a cholehepatic circulation. Sulindac was secreted normally in Tr(-) rats, indicating that its canalicular transport did not require mrp2. In the perfused liver, sulindac inhibited cholyltaurine uptake, and when coinfused with cholyltaurine, induced acute cholestasis. With both basolateral and canalicular membrane fractions, sulindac inhibited cholyltaurine transport competitively., Conclusions: Sulindac is secreted into bile in unconjugated form by a canalicular bile acid transporter and is absorbed by cholangiocytes, inducing hypercholeresis. At high flux rates, sulindac competitively inhibits canalicular bile salt transport; such inhibition may contribute to the propensity of sulindac to induce cholestasis in patients.

Published
1999
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36. Nanoelectrospray mass spectrometry and precursor ion monitoring for quantitative steroid analysis and attomole sensitivity.

Author

Chatman K, Hollenbeck T, Hagey L, Vallee M, Purdy R, Weiss F, and Siuzdak G

Subjects
Chromatography, High Pressure Liquid, Female, Humans, Male, Mass Spectrometry, Solvents, Steroids cerebrospinal fluid, Steroids urine, Steroids analysis
Abstract

Nanoelectrospray ionization (nanoESI) mass spectrometry was performed on naturally occurring steroid sulfates and unconjugated steroids derivatized to their sulfate esters using precursor ion monitoring. Initially, an extraction method was developed based on a combinatorial approach employed to obtain the most efficient liquid/liquid extraction protocol. The new method allowed unconjugated steroids and their sulfated analogues to be isolated separately in a two-step procedure using diethyl ether/hexane (90:10, v/v) in the first step to extract the unconjugated steroids and chloroform/2-butanol (50:50, v/v) in the second step to extract steroid sulfates. Precursor ion scanning performed with a triple-quadrupole mass spectrometer was used to examine quantitatively the extracted unconjugated and sulfated steroids, where the recovery efficiency averaged 70 and 87%, respectively. In addition, some steroids could be structurally elucidated by employing tandem mass spectrometry. The limit of detection for steroid sulfates from the biological matrix was 200 amol/microL (approximately 80 fg/microL) with only 1 microL of sample being injected. Endogenous levels of the unconjugated and sulfated steroids were detected and quantified from physiological samples including urine and blood. Internal standards, pregnenolone-d4 sulfate and dehydroepiandrosterone-d2 (DHEA), were used for quantitation. Extraction and nanoESI analyses were also performed on cerebrospinal fluid where the neurosteroid DHEA sulfate was detected. The small amount of material consumed (typically less than 20% of the injection volume) suggests that nanoESI has even greater potential for high sensitivity when combined with nanoLC approaches, especially for monitoring reproductive and adrenal steroids, as well as for the analysis of the less abundant neurosteroids.

Published
1999
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37. Conjugated bile acid replacement therapy for short-bowel syndrome.

Author

Gruy-Kapral C, Little KH, Fordtran JS, Meziere TL, Hagey LR, and Hofmann AF

Subjects
Animals, Aspartate Aminotransferases blood, Bile Acids and Salts adverse effects, Body Weight drug effects, Cattle, Cholic Acids adverse effects, Cholic Acids therapeutic use, Diarrhea drug therapy, Dietary Fats metabolism, Energy Intake, Feces chemistry, Female, Follow-Up Studies, Humans, Ileostomy, Intestinal Absorption, Middle Aged, Sarcosine adverse effects, Sarcosine analogs & derivatives, Sarcosine therapeutic use, Short Bowel Syndrome metabolism, Short Bowel Syndrome physiopathology, Bile Acids and Salts therapeutic use, Short Bowel Syndrome drug therapy
Abstract

Background & Aims: Although fat malabsorption in the short-bowel syndrome is caused in part by decreased bile acid secretion, bile acid replacement therapy is not used because of the belief that ingested bile acids would worsen diarrhea, outweighing the benefits of improved fat absorption. This study compared the effect of a natural conjugated bile acid mixture from ox bile with that of cholylsarcosine, a synthetic conjugated bile acid, on fat absorption and diarrhea in a patient with the short-bowel syndrome. Cholylsarcosine is resistant to bacterial metabolism and has no cathartic activity., Methods: Metabolic balance studies and a clinical trial were performed in an emaciated patient with the short-bowel syndrome and ileostomy in whom parenteral nutrition could not be used., Results: In balance studies, conjugated bile acid replacement therapy with either preparation caused fat absorption to increase by approximately 40 g/day. Calcium absorption also increased. Neither bile acid product caused a clinically significant increase in ileostomy water output. During a 4-month outpatient trial, while the patient ingested 2 g/meal natural bile acids, her weight increased from 80 to 98 lb, without side effects., Conclusions: Conjugated bile acid replacement therapy should be part of the armamentarium for the treatment of selected patients with the short-bowel syndrome.

Published
1999
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38. Monitoring pregnancy in twinning pygmy loris (Nycticebus pygmaeus) using fecal estrogen metabolites.

Author

Jurke MH, Czekala NM, Jurke S, Hagey LR, Lance VA, Conley AJ, and Fitch-Snyder H

Subjects
Animals, Estrone analogs & derivatives, Feces chemistry, Female, Gestational Age, Pregnancy, Twins, Estrone analysis, Lorisidae physiology, Pregnancy Tests veterinary, Pregnancy, Animal
Abstract

Estrone and estrone conjugates were measured in the feces of three female pygmy lorises (Nycticebus pygmaeus) throughout estrus, pregnancy, and the postpartum period. Two females gave birth to twins, while the third had a single stillborn. A comparison between the hormonal profiles of these three pregnancies with each other and with previously reported pregnancies resulting in singletons or twins [Jurke et al., American Journal of Primatology 41:103-115, 1997] revealed a characteristic pattern of hormonal excretion. This report adds data to and confirms previous claims that monitoring estrone in this species provides a tool to assess gestation length (via determination of estrus period) and to predict the date of parturition and the number of offspring. However, there was an exceptional case of a pregnancy which had the hormonal appearance of a twin pregnancy but resulted in a single stillborn infant. This case prompted us to search for new insights into the characteristics and the origin of the estrogens that are excreted into the feces. Aromatase activity was evaluated in five partial placentae.

Published
1998
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39. An improved method for the measurement of lidocaine and its metabolites in rat plasma.

Author

Rossi SS, Moore AC, Hagey LR, Yaksh TL, and Chaplan SR

Subjects
Animals, Chromatography, Thin Layer, Male, Rats, Rats, Sprague-Dawley, Lidocaine blood, Lidocaine metabolism
Abstract

An improved method is described for the quantitation of lidocaine and its dominant metabolites in rat plasma, 3-hydroxy-lidocaine glucuronide and 3-hydroxy-MEG-X glucuronide. Frozen plasma samples (100-200 microliters) were thawed and deproteinated by precipitation with acetonitrile, before the conversion of glucuronidates into their respective hydroxylated forms by acid hydrolysis. After extraction with solid-phase C18 cartridge chromatography, the metabolites and parent drug were analyzed by capillary gas chromatography-nitrogen phosphorus detection, without derivativization. A detection limit of 0.005 microgram/ml for lidocaine and nonglucuronidated metabolites and 0.01 microgram/ml for glucuronidated metabolites was achieved. The method offers significant improvements in sensitivity relative to existing techniques, which should be of specific benefit to studies in which sample volume is limited, such as those concerned with the pharmacokinetics of lidocaine metabolism in small-animal pain state models.

Published
1997
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40. Biliary bile acids of fruit pigeons and doves (Columbiformes): presence of 1-beta-hydroxychenodeoxycholic acid and conjugation with glycine as well as taurine.

Author

Hagey LR, Schteingart CD, Ton-Nu HT, and Hofmann AF

Subjects
Animals, Chenodeoxycholic Acid analysis, Chenodeoxycholic Acid chemistry, Cholic Acid, Cholic Acids analysis, Chromatography, High Pressure Liquid, Magnetic Resonance Spectroscopy, Molecular Structure, Bile chemistry, Bile Acids and Salts analysis, Chenodeoxycholic Acid analogs & derivatives, Columbidae, Glycine chemistry, Taurine chemistry
Abstract

The biliary bile acid composition of 30 species of pigeons and doves belonging to seven genera in the avian order Columbiformes was determined using TLC, HPLC, GLC/MS, LSIMS, and NMR. In 23 of 25 species of fruit pigeons and doves, chenodeoxycholic acid was the major bile acid (> 50%). In only 1 species (Ptilinopus ornatus) was cholic the major bile acid. A number of species (7 of 15 species in the genus Ptilinopus, and 6 of 9 species in the genus Ducula) contained 1 beta,3 alpha,7 alpha-trihydroxy-5 beta-cholan-24-oic acid in proportions ranging from 2 to 43%. This 1 beta-hydroxy derivative of chenodeoxycholic acid has not been previously identified as a major biliary bile acid in vertebrates. Five of 15 species of the genus Ptilinopus, 5 of 9 species of the genus Ducula, and the only species examined for the genus Gymnophaps contained 23R-hydroxy chenodeoxycholic acid in detectable proportions, ranging from 1 to 4%. Bile acids were conjugated (in N-acyl linkage) with glycine and taurine in 28 species and with only taurine in 2 species. The fruit pigeons are the first non-mammalian genera identified to date in whom bile acids are conjugated with glycine, as well as with taurine. An incidental finding was that a gallbladder was present in 3 genera (Ptilinopus, Ducula, and Gymnophaps) and absent in 4 genera (Gallicolumba, Chalcophaps, Otidiphaps, and Treron).

Published
1994

41. International trade in bear gall bladders: forensic source inference.

Author

Espinoza EO, Shafer JA, and Hagey LR

Subjects
Animals, Asia, Commerce, Forensic Medicine, North America, Bile Acids and Salts analysis, Gallbladder chemistry, Ursidae classification
Abstract

Fresh and desiccated gall bladders of the Ursidae family (bears) obtained as criminal evidence were characterized by analysis of the principal biliary components, mainly ursodeoxycholyl-taurine, cholyl-taurine and chenodeoxycholyl-taurine using TLC and HPLC. This bile acids profile appears to be an Ursidae family characteristic. Results show that of the samples from Asia only 3% were from the Ursidae family and 18% were from "farmed bears." Samples seized in the U.S.A. and Canada showed that 22.6% and 85% respectively, were from Ursids. The remaining samples were consistent with bile from the domestic pig (Suidae).

Published
1993

42. Ursodeoxycholic acid in the Ursidae: biliary bile acids of bears, pandas, and related carnivores.

Author

Hagey LR, Crombie DL, Espinosa E, Carey MC, Igimi H, and Hofmann AF

Subjects
Animals, Animals, Newborn, Chenodeoxycholic Acid analysis, Cholic Acid, Cholic Acids analysis, Chromatography, High Pressure Liquid, Deoxycholic Acid analysis, Reference Values, Species Specificity, Taurine metabolism, Bile chemistry, Bile Acids and Salts analysis, Carnivora metabolism, Ursidae metabolism, Ursodeoxycholic Acid analysis
Abstract

The biliary bile acid composition of gallbladder bile obtained from six species of bears (Ursidae), the Giant panda, the Red panda, and 11 related carnivores were determined by reversed phase liquid chromatography and gas chromatography-mass spectrometry. Bile acids were conjugated solely with taurine (in N-acyl linkage) in all species. Ursodeoxycholic acid (3 alpha, 7 beta-dihydroxy-5 beta-cholan-24-oic acid) was present in all Ursidae, averaging 1-39% of biliary bile acids depending on the species; it was not detected or present as a trace constituent (< 0.5%) in all other species, including the Giant panda. Ursodeoxycholic acid was present in 73 of 75 American Black bears, and its proportion averaged 34% (range 0-62%). Ursodeoxycholic acid averaged 17% of biliary bile acids in the Polar bear (n = 4) and 18% in the Brown bear (n = 6). Lower proportions (1-8%) were present in the Sun bear (n = 2), Ceylon Sloth bear (n = 1), and the Spectacled bear (n = 1). Bile of all species contained taurine-conjugated chenodeoxycholic acid and cholic acid. In some related carnivores, deoxycholic acid, the 7-dehydroxylation product of cholic acid, was also present. To determine whether the 7 beta hydroxy group of ursodeoxycholic acid was formed by hepatic or bacterial enzymes, bile acids were determined in hepatic bile obtained from bears with chronic biliary fistulae. Fistula bile samples contained ursodeoxycholic acid, chenodeoxycholic acid, and a trace amount of cholic acid, all as taurine conjugates, indicating that ursodeoxycholic acid is a primary bile acid formed in the liver in Ursidae.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1993

43. Transcriptional regulation of cholesterol 7 alpha-hydroxylase mRNA by conjugated bile acids in primary cultures of rat hepatocytes.

Author

Stravitz RT, Hylemon PB, Heuman DM, Hagey LR, Schteingart CD, Ton-Nu HT, Hofmann AF, and Vlahcevic ZR

Subjects
Animals, Cells, Cultured, Cholesterol 7-alpha-Hydroxylase metabolism, Dexamethasone pharmacology, Kinetics, L-Lactate Dehydrogenase biosynthesis, Liver drug effects, Rats, Structure-Activity Relationship, Thyroxine pharmacology, Transcription, Genetic drug effects, Bile Acids and Salts pharmacology, Cholesterol 7-alpha-Hydroxylase biosynthesis, Gene Expression Regulation, Enzymologic drug effects, Liver enzymology, RNA, Messenger biosynthesis, Taurine pharmacology
Abstract

The role of bile acids in the regulation of cholesterol 7 alpha-monooxygenase (EC 1.14.13.17) was characterized using primary cultures of rat hepatocytes supplemented with dexamethasone and thyroxine. Taurocholate and taurodeoxycholate (50 microM) repressed cholesterol 7 alpha-hydroxylase mRNA to 44 +/- 9 and 52 +/- 4%, respectively, of control values. Repression by these natural, relatively hydrophobic bile acids was concentration dependent, with an IC50 of about 50 microM, and time dependent with a t1/2 for repression of 22 h. In contrast, two natural hydrophilic bile acids, tauroursodeoxycholate and taurohyodeoxycholate, had no effect on cholesterol 7 alpha-hydroxylase mRNA levels. Taurochenodeoxycholate and taurolithocholate also had no effect, but these hydrophobic bile acids were rapidly hydroxylated to more hydrophilic bile acids. Hydrophilic bile acid analogues (nor (C23) bile acids and beta-hydroxy epimers) repressed cholesterol 7 alpha-hydroxylase mRNA less potently than their corresponding and more hydrophobic C24 or alpha-hydroxy derivatives. Cholesterol 7 alpha-hydroxylase specific activity was decreased by taurocholate or taurodeoxycholate (50 microM) to 26 +/- 9 and 56 +/- 3% of control, respectively; its transcriptional activity was repressed to 52 +/- 5% of control by taurocholate (50 microM). The addition of cholesterol or the induction of cholesterol biosynthesis did not influence repression of cholesterol 7 alpha-hydroxylase mRNA levels by taurocholate. Based on several lines of evidence, cAMP was not involved in bile acid-induced repression. In rat hepatocytes cultured under conditions in which cholesterol 7 alpha-hydroxylase gene expression is maintained at in vivo levels, hydrophobic bile acids repress this enzyme at the level of gene transcription independently of cholesterol availability.

Published
1993

44. 5 beta-hydroxylation by the liver. Identification of 3,5,7-trihydroxy nor-bile acids as new major biotransformation products of 3,7-dihydroxy nor-bile acids in rodents.

Author

Schteingart CD, Hagey LR, Setchell KD, and Hofmann AF

Subjects
Animals, Bile Ducts physiology, Biotransformation, Carbon Radioisotopes, Chenodeoxycholic Acid metabolism, Cricetinae, Dogs, Gas Chromatography-Mass Spectrometry, Glucose metabolism, Humans, Hydroxylation, In Vitro Techniques, Magnetic Resonance Spectroscopy, Rabbits, Rats, Species Specificity, Sulfates metabolism, Sulfur Radioisotopes, Taurine metabolism, Ursodeoxycholic Acid metabolism, Bile Acids and Salts metabolism, Chenodeoxycholic Acid analogs & derivatives, Liver metabolism, Ursodeoxycholic Acid analogs & derivatives
Abstract

24-Norursodeoxycholic acid (nor-UDCA), when administered into the anesthetized biliary fistula hamster or injected into the perfusate of an isolated liver, was hydroxylated at C-5 to give 5 beta-hydroxynorursodeoxycholic acid 2 (3 alpha,5,7 beta-trihydroxy-24-nor-5 beta-cholan-23-oic acid), which was secreted into bile mainly as such. Similarly, 24-norchenodeoxycholic acid (nor-CDCA) was 5 beta-hydroxylated to give 5 beta-hydroxynor-chenodeoxycholic acid 4 (3 alpha,5,7 alpha-trihydroxy-24-nor-5 beta-cholan-23-oic acid), which was also secreted into bile without appreciable further biotransformation. The site of hydroxylation was assigned by 13C and 1H NMR and mass spectrometry. 5-Hydroxylation was a major biotransformation pathway at physiological bile acid loads. 5-Hydroxylation of UDCA also occurred in the perfused rat liver but to a lesser extent. 5-Hydroxylation of nor-UDCA was not observed in rabbit, dog, or man, indicating that its formation is species-specific. 5-Hydroxylation of nor-CDCA and nor-UDCA is the first reported example of hydroxylation of a tertiary carbon atom of bile acids. Nor-dihydroxy bile acids appear to be useful for the detection of minor hydroxylation pathways, because their prolonged hepatobiliary retention exposes them repeatedly to hydroxylases present in the hepatobiliary system.

Published
1993

45. Negative feedback regulation of the ileal bile acid transport system in rodents.

Author

Lillienau J, Crombie DL, Munoz J, Longmire-Cook SJ, Hagey LR, and Hofmann AF

Subjects
Animals, Bile Acids and Salts administration & dosage, Bile Acids and Salts chemistry, Biological Transport, Active drug effects, Diet, Feedback, Guinea Pigs, Rats, Rats, Sprague-Dawley, Taurocholic Acid pharmacology, Time Factors, Bile Acids and Salts metabolism, Ileum metabolism
Abstract

Background: Active transport of conjugated bile acids by ileal enterocytes is a key mechanism for conservation of the bile acid pool. Experiments were performed to determine whether such transport is regulated by substrate load., Methods: Using anesthetized biliary fistula guinea pigs or rats, the ileum was perfused with ursodeoxycholyltaurine at a concentration causing maximal ileal transport of this bile acid; absorption was assessed by biliary recovery. Before ileal perfusion, animals ingested one of three diets: chow, chow with added conjugated bile acid, or chow with added cholestyramine., Results: In the guinea pig, ingestion of a taurocholate-enriched diet resulted in a 75% decrease in the absorption rate of ursodeoxycholyltaurine. Similar results were obtained with cholylsarcosine (a deconjugation-dehydroxylation resistant analogue) or with chenodeoxycholylglycine, the endogenous bile acid of the guinea pig. In contrast, cholestyramine ingestion caused an increase in ursodeoxycholyltaurine absorption. In the rat, cholyltaurine or cholylsarcosine ingestion also caused decreased ileal transport. In the guinea pig, maximal down-regulation of active ileal bile acid transport occurred after 2-3 days of bile acid feeding; up-regulation required 3-4 days., Conclusions: Bile acid metabolism is regulated by feedback inhibition of active ileal transport in addition to the well-established feedback inhibition of bile acid biosynthesis in the liver. Together, these two regulatory mechanisms ensure constancy of bile acid secretion.

Published
1993
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46. Chemical synthesis and hepatic biotransformation of 3 alpha,7 alpha-dihydroxy-7 beta-methyl-24-nor-5 beta-cholan-23-oic acid, a 7-methyl derivative of norchenodeoxycholic acid: studies in the hamster.

Author

Yoshii M, Mosbach EH, Schteingart CD, Hagey LR, Hofmann AF, Cohen BI, and McSherry CK

Subjects
Animals, Biliary Fistula metabolism, Biotransformation, Cholagogues and Choleretics chemical synthesis, Cholagogues and Choleretics metabolism, Cholagogues and Choleretics pharmacology, Chromatography, Thin Layer, Cricetinae, Kinetics, Magnetic Resonance Spectroscopy, Male, Mass Spectrometry, Mesocricetus, Ursodeoxycholic Acid chemical synthesis, Ursodeoxycholic Acid pharmacology, Liver metabolism, Ursodeoxycholic Acid analogs & derivatives, Ursodeoxycholic Acid metabolism
Abstract

A new bile acid analogue, 3 alpha,7 alpha-dihydroxy-7 beta-methyl-24-nor-5 beta-cholan-23-oic acid (7-Me-norCDCA) was synthesized from the methyl ester of norursodeoxycholic acid, and its hepatic biotransformation was defined in the hamster. To synthesize 7-Me-norCDCA, the 3 alpha-hydroxyl group of methyl norursodeoxycholate was protected as the hemisuccinate, and the 7 beta-hydroxyl group was oxidized with CrO3 to form the 7-ketone. A Grigard reaction with methyl magnesium iodide followed by alkaline hydrolysis gave 7-Me-norCDCA (greater than 70% yield). The structure of the new compound was confirmed by proton magnetic resonance and mass spectrometry. After intraduodenal administration of the 14C-labeled compound into the anesthetized biliary fistula hamster, it was rapidly and efficiently secreted into the bile; 80% of radioactivity was recovered in 2 h. After intravenous infusion, the compound was efficiently extracted by the liver and secreted into the bile (greater than 75% in 3 h). Most (93%) of the biliary radioactivity was present in biotransformation products. The major biotransformation product (48.7 +/- 6.0%) was a new compound, assigned the structure of 3 alpha,5 beta,7 alpha- trihydroxy-7 beta-methyl-24-nor-5 beta-cholan-23-oic acid (5 beta-hydroxy-7- Me-norCDCA). In addition, conjugates of 7-Me-norCDCA with taurine (13.7 +/- 5.0%), sulfate (10.3 +/- 3.0%), or glucuronide (5.1 +/- 1.7%) were formed. 7-Me-norCDCA was strongly choleretic in the hamster; during its intravenous infusion, bile flow increased 2 to 3 times above the basal level, and the calculated choleretic activity of the compound (and its metabolic products) was much greater than that of many natural bile acids, indicating that the compound induced hypercholeresis. It is concluded that the biotransformation and physiological properties of 7-Me-norCDCA closely resemble those of norCDCA. Based on previous studies, the major biological effect of the 7-methyl group in 7-Me-norCDCA is to prevent its bacterial 7-dehydroxylation in the distal intestine.

Published
1991

47. Hypercholeresis induced by unconjugated bile acid infusion correlates with recovery in bile of unconjugated bile acids.

Author

Gurantz D, Schteingart CD, Hagey LR, Steinbach JH, Grotmol T, and Hofmann AF

Subjects
Animals, Bile metabolism, Bile Acids and Salts metabolism, Cholagogues and Choleretics pharmacology, Liver metabolism, Ursodeoxycholic Acid metabolism, Bile physiology, Bile Acids and Salts pharmacology, Ursodeoxycholic Acid pharmacology
Abstract

Using the isolated perfused rat and hamster liver, the relationship between bile flow, bile acid secretion rate and bile acid biotransformation after the injection of a small, bolus dose of radioactive ursodeoxycholate or of its C23 homolog, norursodeoxycholate, was examined. Ursodeoxycholate was promptly secreted into bile mostly as amino acid conjugates; less than 3% was secreted in unchanged form in the rat and less than 2% in the hamster. In contrast, norursodeoxycholate was secreted slowly, and biotransformed into glucuronide conjugates and unconjugated trihydroxy derivatives; it was also secreted in part in unchanged form. In the rat, 7% was secreted in unconjugated trihydroxy derivatives and 3% in unchanged form; in the hamster, 7% was secreted as unconjugated trihydroxy derivatives and 4% in unchanged form. The secreted bile acid species that showed the highest correlation with bile flow by far was always the unconjugated form in both rat and hamster. By multiple regression analysis, the apparent choleretic activity (microliters of induced bile flow per micromoles recovered bile acid molecules) indicated marked hypercholeresis for the unconjugated bile acid marked hypercholeresis for the unconjugated bile acid with values ranging from 100 to 300 microliters/mumol. Bile flow also correlated with total bile acid recovery for ursodeoxycholate in rat and norursodeoxycholate in hamster, but in all studies the apparent choleretic activity was far lower. Other calculations indicated that most bile flow during the first 30 min was induced by secretion of the unconjugated bile acid species in all experiments, the proportion ranging from 50% to 90%. The results indicate that when a bolus of ursodeoxycholate or norursodeoxycholate is presented to the perfused rodent liver, the secretion of the unchanged bile acid appears to be responsible for most of the bile flow, probably by a cholehepatic shunting mechanism.

Published
1991

48. Transport, metabolism, and effect of chronic feeding of lagodeoxycholic acid. A new, natural bile acid.

Author

Schmassmann A, Angellotti MA, Clerici C, Hofmann AF, Ton-Nu HT, Schteingart CD, Marcus SN, Hagey LR, Rossi SS, and Aigner A

Subjects
Animals, Bile metabolism, Biotransformation, Chromatography, High Pressure Liquid, Colon metabolism, Cricetinae, Deoxycholic Acid pharmacology, Intestinal Absorption, Male, Rabbits, Rats, Deoxycholic Acid pharmacokinetics, Liver metabolism
Abstract

Ursodeoxycholic acid, the 7 beta-hydroxy epimer of chenodeoxycholic acid, is more hydrophilic and less hepatotoxic than chenodeoxycholic acid. Because "lagodeoxycholic acid," the 12 beta-hydroxy epimer of deoxycholic acid, is also more hydrophilic than deoxycholic acid, it was hypothesized that it should also be less hepatotoxic than deoxycholic acid. To test this, lagodeoxycholic acid was synthesized, and its transport and metabolism were examined in the rat, rabbit, and hamster. The taurine conjugate of lagodeoxycholic acid was moderately well transported by the perfused rat ileum (Tmax = 2 mumol/min.kg). In rats and hamsters with biliary fistulas, the taurine conjugate of lagodeoxycholic acid was well transported by the liver with a Tmax greater than 20 mumol/min.kg; for the taurine conjugate of deoxycholic acid, doses infused at a rate greater than 2.5 mumol/min.kg are known to cause cholestasis and death. Hepatic biotransformation of lagodeoxycholic acid in the rabbit was limited to conjugation with glycine; in the hamster, lagodeoxycholic acid was conjugated with glycine or taurine; in addition, 7-hydroxylation occurred to a slight extent (approximately 10%). When lagodeoxycholic acid was instilled in the rabbit colon, it was absorbed as such although within hours it was progressively epimerized by bacteria to deoxycholic acid. When injected intravenously and allowed to circulate enterohepatically, lagodeoxycholic acid was largely epimerized to deoxycholic acid in 24 hours. Surgical creation of a distal ileostomy abolished epimerization in the rabbit, indicating that exposure to colonic bacterial enzymes was required for the epimerization. Lagodeoxycholic acid was administered for 3 weeks at a dose of 180 mumol/day (0.1% by weight of a chow diet; 2-4 times the endogenous bile acid synthesis rate); other groups received identical doses of deoxycholic acid (hamster) or cholyltaurine, a known precursor of deoxycholic acid (rabbit). After 3 weeks of lagodeoxycholic acid ingestion, liver test results and liver appearance were normal. The total bile acid pool expanded by 37% in the rabbit, lagodeoxycholic acid composing 10% of biliary bile acids. In the hamster, the total bile acid pool was expanded by 95%, lagodeoxycholic acid composing 22% of biliary bile acids; biliary lipid secretion remained unchanged. Tracer studies indicated that the fractional turnover rate of lagodeoxycholic acid was high (157%/day, rabbit; 116%/day, hamster) because of its rapid epimerization to deoxycholic acid in the colon. These studies indicate that lagodeoxycholic acid, the more hydrophilic epimer of deoxycholic acid, is transported and metabolized as other dihydroxy bile acids but is much less toxic than deoxycholic acid.(ABSTRACT TRUNCATED AT 400 WORDS)

Published
1990
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49. Biliary bile acid profiles of domestic fowl as determined by high performance liquid chromatography and fast atom bombardment mass spectrometry.

Author

Elkin RG, Wood KV, and Hagey LR

Subjects
Animals, Chickens, Chromatography, High Pressure Liquid, Ducks, Mass Spectrometry, Turkeys, Bile Acids and Salts analysis, Poultry metabolism
Abstract

1. The biliary bile acid profiles of domestic chickens (Gallus domesticus), turkeys (Meleagris gallopavo), and ducks (Anas platyrhynchos) were determined by high performance liquid chromatography (HPLC) and fast atom bombardment mass spectrometry (FAB-MS). 2. Chenodeoxycholyltaurine and cholyltaurine were the predominant bile acids in chicken and turkey bile, whereas duck bile contained primarily chenodeoxycholyltaurine and phocaecholyltaurine. 3. Allocholyltaurine was also detected in chicken and turkey bile, but not in duck bile. 4. FAB-MS analyses of individual HPLC peak fractions from chicken and duck bile extracts confirmed the presence of either taurine-conjugated dihydroxy- or trihydroxycholanoates. 5. Direct FAB-MS analyses of avian bile extracts not subjected to HPLC permitted a rapid assessment of the relative proportion of taurine-conjugated dihydroxy- to trihydroxycholanoates.

Published
1990
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50. Effect of side-chain shortening on the physiologic properties of bile acids: hepatic transport and effect on biliary secretion of 23-nor-ursodeoxycholate in rodents.

Author

Yoon YB, Hagey LR, Hofmann AF, Gurantz D, Michelotti EL, and Steinbach JH

Subjects
Animals, Biliary Tract metabolism, Biological Transport, Cholesterol metabolism, Cricetinae, Guinea Pigs, Male, Phospholipids metabolism, Rats, Rats, Inbred Strains, Taurocholic Acid metabolism, Ursodeoxycholic Acid analogs & derivatives, Ursodeoxycholic Acid metabolism, Bile Acids and Salts metabolism, Liver metabolism
Abstract

To define whether side-chain length influences the physiologic properties of bile acids, nor-ursodeoxycholate (nor-UDC), the C23-nor derivative of ursodeoxycholate (UDC), was synthesized in both nonradioactive and radioactive forms (23-14C). Its hepatic translocation, hepatic biotransformation, and effect on bile flow, biliary bicarbonate, and biliary lipid secretion were compared with that of UDC and those of their respective glycine and taurine conjugates in anesthetized biliary fistula hamsters, rats, and guinea pigs, as well as the isolated perfused hamster liver. Hepatic uptake and biliary output of nor-UDC was slower than that of UDC or cholyltaurine in the isolated perfused hamster liver. In biliary fistula animals, nor-UDC was secreted only in bile. Biliary recovery of nor-UDC as compared to that of UDC was prolonged in the rat and hamster, although not in the guinea pig. Hepatic biotransformation, assessed by chromatography of bile, showed that conjugation of nor-UDC was inefficient, as unconjugated nor-UDC was present in bile; there was little amidation with glycine or taurine in any species, but sulfates and glucuronides, as well as other metabolites, were formed, with the pattern of biotransformation varying among species. When infused over a dosage range of 0.2-30 mumol/kg X min, nor-UDC induced a striking choleresis of canalicular origin. The bile acid-dependent flow was increased threefold in hamsters, ninefold in rats, and nearly twofold in guinea pigs when compared to that induced by UDC. The choleresis was associated with a linear increase in bicarbonate output and concentration in bile, and little phospholipid or cholesterol secretion was induced. A competition experiment in the bile fistula hamster indicated that nor-UDC or its metabolites, or both, appeared to compete for canalicular transport of ursocholyltaurine (a cholyltaurine epimer) when the latter was secreted under its Vmax conditions. Conjugates of nor-UDC and UDC were promptly and almost completely recovered in bile without appreciable hepatic biotransformation; the conjugates did not induce a hypercholeresis or increase biliary bicarbonate concentration. It is proposed that a fraction of nor-UDC is secreted into canalicular bile in the unconjugated form and is protonated by a hydrogen ion derived from carbonic acid that was generated by the hydration of luminal CO2 by carbonic anhydrase present in biliary ductular cells. The protonated bile acid is absorbed, thus generating a bicarbonate anion. The bile acid passes through the cholangiocyte, returns to the sinusoids via the periductular capillary plexus, and is resecreted into bile.(ABSTRACT TRUNCATED AT 400 WORDS)

Published
1986
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