Influence of dietary bile acids on formation of bile acids in rat

Various taurine-conjugated bile acids were fed to rats at the 1%-level in the diet for 3 or 7 days and the effect on several hydroxylations involved in the biosynthesis and metabolism of bile acids was studied. The hydroxylations studied were all catalyzed by the microsomal fraction of liver homogenate fortified with NADPH. The 7α-hydroxylation of cholesterol was inhibited by feeding taurocholic acid, taurocheno-deoxycholic acid and taurodeoxycholic acid for 3 as well as 7 days. No marked inhibition was obtained with taurohyodeoxycholic acid or taurolithocholic acid. The 12α-hydroxylation of 7α-hydroxy-4-cholesten-3-one was inhibited after 3 as well as 7 days by all bile acids except taurohyodeoxycholic acid. With this acid a marked stimulation of 12α-hydroxylation was observed. The effects of the different bile acids on the 7α-hydroxylation of taurodeoxycholic acid were not very marked. The 6β-hydroxylation of lithocholie acid and taurochenodeoxycholic acid was stimulated by taurocholic acid and taurodeoxycholic acid. The reaction was inhibited by taurochenodeoxycholic acid, at least after 7 days. Taurohyodeoxycholic acid inhibited the 6β-hydroxylation slightly and taurolithocholic acid had no effect. The results were discussed in the light of present knowledge concerning mechanisms of regulation of formation and metabolism of bile acids and it was suggested that the mechanisms may be more complex than previously thought.     

Biochemical and physiological evidence that bile acids produced and released by lake char (Salvelinus namaycush) function as chemical signals

It has been hypothesized that faeces of juvenile lake char (Salvelinus namaycush) may contain chemical cues that mediate behaviour of conspecifics. However, our knowledge of bile acids naturally produced and released by fish is limited. Using HPLC, we fractionated bile acids produced and released by lake char and examined their stimulatory effectiveness using electro-olfactogram recordings. Taurocholic acid, taurochenodeoxycholic acid, taurooxocholanic acid, taurooxodeoxycholic acid 3alpha-sulphate, trace amounts of taurolithocholic acid and an unidentified sulphated bile steroid were found in bile and faeces. Bile acids were either taurine amidated or sulphated, or both. Lake char released an average of 4 nmol min(-1) bile acids per kilogram of body weight into their tank water. Urinary bile acids accounted for only a small portion of total bile acids released into water. Water and faeces contained higher proportion of taurochenodeoxycholic acid and sulphated bile acids (relative to taurocholic acid) than bile. The electro-olfactogram recordings demonstrated that bile acids released by lake char were detectable by their olfactory system at nanomolar concentrations, which is well below the levels of bile acids released into water. The exquisite olfactory sensitivity of lake char to water-borne bile acids released by their conspecifics is consistent with a role for these compounds as important chemical signals.     

Regulation of cholesterol 7 alpha-hydroxylase by hepatic 7 alpha-hydroxylated bile acid flux and newly synthesized cholesterol supply

We measured hepatic cholesterol 7 alpha-hydroxylase activity, mass, and catalytic efficiency (activity/unit mass) in bile fistula rats infused intraduodenally with taurocholate and its 7 beta-hydroxy epimer, tauroursocholate, with or without mevalonolactone to supply newly synthesized cholesterol. Enzyme activity was measured by an isotope incorporation assay and enzyme mass by densitometric scanning of immunoblots using rabbit anti-rat liver cholesterol 7 alpha-hydroxylase antisera. Cholesterol 7 alpha-hydroxylase activity increased 6-fold, enzyme mass 34%, and catalytic efficiency 5-fold after interruption of the enterohepatic circulation for 48 h. When taurocholate was infused to the bile acid-depleted animals at a rate equivalent to the hepatic bile acid flux (27 mumol/100-g rat/h), cholesterol 7 alpha-hydroxylase activity and enzyme mass declined 60 and 61%, respectively. Tauroursocholate did not significantly decrease cholesterol 7 alpha-hydroxylase activity, mass and catalytic efficiency. The administration of mevalonolactone, which is converted to cholesterol, modestly increased cholesterol 7 alpha-hydroxylase activity and enzyme mass in the bile acid-depleted rats. However, when taurocholate was infused together with mevalonolactone, cholesterol 7 alpha-hydroxylase activity and catalytic efficiency were markedly depressed while enzyme mass did not change as compared with bile acid-depleted rats. These results show that (a) hepatic bile acid depletion increases bile acid synthesis mainly by activating cholesterol 7 alpha-hydroxylase with only a small rise in enzyme mass, (b) replacement with taurocholate for 24 h decreases both cholesterol 7 alpha-hydroxylase activity and mass proportionally, (c) when cholesterol is available (mevalonolactone supplementation), the infusion of taurocholate results in the formation of a catalytically less active cholesterol 7 alpha-hydroxylase, and (d) tauroursocholate, the 7 beta-hydroxy epimer of taurocholate, does not inhibit cholesterol 7 alpha-hydroxylase. Thus, bile acid synthesis is modulated by the catalytic efficiency and mass of cholesterol 7 alpha-hydroxylase. The enterohepatic flux of 7 alpha-hydroxylated bile acids and the formation of hepatic cholesterol apparently control cholesterol 7 alpha-hydroxylase by different mechanisms.     

Regulation of bile acid synthesis in cultured rat hepatocytes: stimulation by apoE-rich high density lipoproteins

Cultured rat hepatocytes obtained by liver perfusion with collagenase in the presence of soybean trypsin inhibitor were used to examine the role of high density lipoproteins (HDL) in supplying cholesterol to the hepatocyte for bile acid synthesis. Within 6 hr of adding HDL (d 1.07-1.21 g/ml) obtained from rat serum there was a significant stimulation of bile acid synthesis and secretion that reached 2-fold after 24 hr. The stimulation by HDL occurred at normal plasma concentrations (i.e., 500 micrograms/ml) and showed further stimulation in a dose-dependent manner reaching a maximum stimulation of 2- to 2.5-fold. The stimulation of bile acid synthesis was dependent on the cholesteryl ester content of the HDL. Several lines of evidence show that the HDL is taken up by a receptor-mediated process dependent on apoE. These include: 1) at the same concentration (500 micrograms/ml) apoE-poor HDL (not retained by heparin affinity chromatography of HDL isolated from the plasma of rats fasted for 72 hr stimulated bile acid synthesis by 48%, whereas apoE-rich HDL stimulated bile acid synthesis by 110%; 2) reductive methylation totally blocked the stimulation of bile acid synthesis by HDL; 3) HDLC, which contained apoE as its major protein component, also maximally stimulated bile acid synthesis; and 4) human HDL, which contained no detectable apoE, failed to stimulate bile acid synthesis. Additional studies showed that apoE-enriched HDL and HDLC both inhibited cholesterol synthesis (determined by the incorporation of 3H2O) and caused a net accumulation of cholesteryl esters in hepatocytes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Production of thermostable direct hemolysin by Vibrio parahaemolyticus enhanced by conjugated bile acids.

The effects of conjugated bile acids, glycocholic acid, and taurocholic acid (TC) on production of thermostable direct hemolysin (TDH) by Vibrio parahaemolyticus were determined by a reversed passive latex agglutination assay against TDH. The amount of TDH excreted in growth medium containing either glycocholic acid or taurocholic acid (5 mM/liter) was, on a per-cell basis, 4- to 16-fold greater than that excreted in medium without the bile acids. The amounts of TDH released from lysed cells grown with the bile acids (5 mM/liter) were 4- to 32-fold greater than those from lysed cells grown without, suggesting that the bile acids enhanced synthesis of TDH within bacterial cells. These data imply that the conjugated bile acids play a key role in the pathogenicity of V. parahaemolyticus.     

High-performance liquid chromatographic determination for bile components in fish,chicken and duck

A HPLC procedure for the determination of 13 bile acids and cyprinol sulfate in animals was developed. The mobile system 0.3% ammonium carbonate solution–acetonitrile (73:27, v/v) 10 min→(68:32) 10 min→(50:50) 10 min was available for separating all 14 bile components, except for deoxycholic and glycodeoxycholic acids, which could be further separated with 0.3% ammonium carbonate solution–acetonitrile (73:27). After applying this method, grass carp and common carp bile was found to contain mainly cyprinol sulfate, while the other 12 fish species bile contained mainly taurocholic, taurochenodeoxycholic and cholic acids. Chicken bile was mainly composed of glycolithocholic and taurocholic acids, but duck bile was mainly composed of taurochenodeoxycholic, cholic and ursodeoxycholic acids.     

Behaviour of phospholipase modified-HDL towards cultured hepatocytes. II. Increased cell cholesterol storage and bile acid synthesis

Human total HDL (hydrated density 1.070-1.210), HDL2 (1.070-1.125), HDL3 (1.125-1.210) or HDL separated by heparin affinity chromatography were treated with or without purified phospholipase A2 from Crotalus adamanteus. Control and treated HDL were reisolated and were then incubated with cultured hepatocytes. 1. Mass measurements evidenced a time-dependent cholesterol enrichment in hepatocytes cultured in the absence of lipoproteins. Addition of HDL2 still enhanced by 25% the cell cholesterol content and down-regulated endogenous sterol synthesis in similar proportions. Conversely, HDL3 slightly decreased the amount of free cholesterol in hepatocytes (-12%). 2. Incubations with phospholipase A2-treated HDL resulted in a 35%-50% increase of both the cellular cholesterol esterification and the cholesterylester accumulation, when compared to cells cultured in the presence of control-HDL. This effect was observed with HDL2, HDL3 and combining the data with all subfractions. 3. Cultured hepatocytes secreted cholic and beta-muricholic acids as major bile acids and HDL2 showed a tendency to stimulate their secretion. Phospholipase treatment of HDL again induced an increased production by hepatocytes of those two bile acids. Thus, whereas HDL2 and HDL3 display different behaviours with respect to cell cholesterol content, neosynthesis and bile acid secretion, their modifications by phospholipases always orientate the cell sterol metabolism in the same direction: increased cholesterylester accumulation and bile acid production.     

Feedback inhibition of bile acid synthesis in cultured pig hepatocytes

Bile acid synthesis by cultured pig hepatocytes, as measured by conversion of [14C]cholesterol to bile acids, increased during the second and third day of culture. This rise was inhibited after addition of various conjugated and unconjugated bile acids in a concentration of 100 microM. It could be completely prevented by cycloheximide, indicating that de novo protein synthesis is required for the increase in bile acid formation. No effect of exogenous bile salts on LDH release to the medium or on cellular ATP content was observed, demonstrating that hepatocyte viability was not affected. During the period in which bile acid synthesis was inhibited, pig hepatocytes were able to accumulate taurocholic acid (100 microM) up to 7-18 nmol per mg cell protein (decreasing during culture time). It is concluded that feedback regulation of bile acid synthesis is exerted by direct action of bile acids on the hepatocyte.     

Bile salt alteration of ion transport across jejunal mucosa.

The effect of conjugated dihydroxy and trihydroxy bile salts on electrolyte transport across isolated rabbit jejunal mucosa was studied. Both taurochenodeoxycholic acid and taurocholic acid increased the short-circuit current (Isc) in bicarbonate-Ringer solution but not in a bicarbonate-free, chloride-free solution. Taurochenodeoxycholic acid was significantly more effective than taurocholic acid in increasing Isc. The presence of theophylline prevented the taurochenodeoxycholic acid- and taurocholic acid-induced increase in Isc. Transmural ion fluxes across jejunal mucosa demonstrated that 2 mM taurochenodeoxycholic acid decreased net Na+ absorption, increased net Cl- secretion and increased the residual flux (which probably represents HCO3- secretion). These studies support the hypothesis that cyclic AMP may be a mediator of intestinal electrolyte secretion.     

Control of 3-hydroxy-3-methylglutaryl coenzyme A reductase by endogenously synthesized sterols in vitro and in vivo.

Isolated rat hepatocytes converted mevalonolactone into sterol intermediates and fatty acids 6- to 8-fold faster than mevalonate salt at concentrations less than 6 X 10(-4) M. Incubation of hepatocytes for 3 h normally results in induction of 3-hydroxy-3-methylglutaryl-CoA reductase. This increase in enzyme activity was inhibited by mevalonolactone and by mevalonate salt; at each concentration between 6 X 10(-4) M and 6 X 10(-8) M the lactone was a more effective inhibitor than the salt. The increase in enzyme activity was completely prevented by 6 X 10(-4) M lactone, and at this concentration the cells synthesized from the lactone an amount of sterol per hour which approximated that leavingthe cells in the same period. Administration of mevalonolactone to intact rats resulted in a dose-dependent inhibition of hepatic 3-hydroxy-3-methylglutaryl-CoA reductase activity. At the highest dose (400 mg of (RS)-mevalonolactone/200 g of rat) enzyme activities declined 85% within 45 min and were still suppressed below normals after 28 h. Mevalonolactone treatment resulted in increases in liver cholesterol content and in the cholesterol ester concentration of liver microsomes. The results demonstrate that the activity of hepatic 3-hydroxy-3-methylglutaryl-CoA reductase can be controlled by the rate of endogenous sterol synthesis both in vitro and in vivo.     

Effect of mevinolin and glycyrrhizinic acid on cholesterol and bile acid metabolism in cultured rabbit hepatocytes]

A comparison of effects of two hypocholesterolemic drugs--mevinolin and glycyrrhizinic acid, on cholesterol and bile acid metabolism in cultured rabbit hepatocytes has been carried out. The following parameters have been determined: i) cholesterol synthesis from [2-14C]acetate; ii) bile acid production from newly synthesized and [4-14C]-labeled HDL2 cholesterol, and, iii) total cholesterol efflux into the incubation medium Mevinolin (0.5 microgram/ml) inhibited [2-14C] acetate incorporation into cholesterol by more than 90%. Conversely, glycyrrhizinic acid did not influence cholesterol synthesis even when used at high (100 micrograms/ml) concentrations but stimulated the conversion of endogenous (by 37%) and exogenous (by 18%) cholesterol into bile acids and increased, in addition, the proportion of bile acids in the total sterol pool released from hepatocytes into the incubation medium. At the same time, mevinolin used at 0.5 microgram/ml decreased the bile acid production by endogenous (by 27%) and exogenous (by 40%) cholesterol. The data obtained suggest that glycyrrhizinic acid exerts hypocholesterolemic action by stimulation of cholesterol conversion into bile acids without any effect on cholesterol synthesis. As for mevinolin, it has a cholesterol-suppressing effect via a mechanism of cholesterol synthesis inhibition only.     

Active taurocholic acid flux through hepatoma cells increases the cellular pool of unesterified cholesterol derived from lipoproteins

The effect of bile acid flux on the fate of lipoprotein-derived cholesterol was studied in bile acid-transporting McNtcp.18 hepatoma cells. The intracellular unesterified cholesterol (UC) concentration rose when McNtcp.18 cells grown in the presence of either high density lipoproteins (HDL) or low density lipoproteins (LDL) were incubated with taurocholic acid (TCA). This effect was more pronounced when the exogenous source of cholesterol was HDL. The presence of TCA in the culture medium of McNtcp.18 cells had no discernible effect on the uptake of cholesteryl esters (CE) from either lipoprotein. TCA treatment of cells preincubated with either lipoprotein did not affect cholesterol synthesis but antagonized the stimulation of cholesterol esterification in cells that were incubated with LDL. The CE concentration in cells treated with TCA was decreased, relative to cells not incubated with TCA, suggesting that cellular CE stores were also hydrolyzed. The TCA treatment reduced the amount of total cholesterol released into the medium by the lipoprotein-treated cells, which was coincident with the reduction in the amount of apolipoprotein B in the culture medium. However, the proportion of UC released into the medium by the lipoprotein-treated cells was increased in cells capable of active bile acid transport. The results indicate that active bile acid flux through hepatoma cells increases the cellular pool of UC derived from lipoproteins. The UC released by the cells into the culture medium under this condition may represent cholesterol destined for direct biliary secretion.     

The effect of chylomicron remnants on bile acid synthesis in cultured rat hepatocytes

The effect of chylomicron remnants on bile acid synthesis in isolated rat hepatocytes in monolayer cultures was investigated. Production of bile acids by the cells in the presence of chylomicron remnants at a cholesterol concentration of 7.8-9 nmol/ml was increased by approx. 75% after 17 h and 25% after 24 h incubation. Similar concentrations of cholesterol added to the cells in the form of chylomicrons had no significant effect on bile acid synthesis. These results suggest that cholesterol taken up in chylomicron remnants may be an important source of substrate for bile acid synthesis.     

Involvement of Trihydroxyconjugated Bile Salts in Cholesterol Assimilation by Bifidobacteria

To determine the conditions of cholesterol assimilation, various strains of Bifidobacterium species were cultured in the presence of cholesterol and bile salts. During culturing, Bifidobacterium breve ATCC 15700 assimilates cholesterol in the presence of oxgall at pH values lower than 6. This strain was selected to study the influence of conjugated (taurocholic acid) and deconjugated (cholic acid) bile salts on cholesterol assimilation. B. breve ATCC 15700 assimilated cholesterol (up to 51%) when cultures were undertaken in the presence of taurocholic acid, whereas less than 13% of the initial amount of cholesterol was measured in the cells in the presence of cholic acid. Cultured in the presence of six individual di- or trihydroxyconjugated bile salts, bifidobacteria strains assimilated cholesterol. This assimilation appeared to be more important in the presence of trihydroxyconjugated bile salts (tauro- and glycocholic acids). It is concluded that trihydroxyconjugated bile salts are involved in the assimilation of cholesterol by bifidobacteria. Received: 20 June 1996 / Accepted: 19 July 1996     

Diabetes and intestinal cholesterol uptake from bile salt solutions

A previously validated in vitro technique was used to determine the effect of diabetes mellitus on the intestinal uptake of cholesterol from various micellar bile salt solutions. The bile salts studied included cholic (C), taurocholic (TC), glycocolic (GC), chenodeoxycholic (CDC), taurochenodeoxycholic (TCDC), glycochenodeoxycholic (GCDC), deoxycholic (DC), taurodeoxycholic (TDC), and glycodeoxycholic (GDC). In control rats there was a reciprocal decline in cholesterol uptake with increasing concentrations of these nine bile acids, and cholesterol uptake was greater from the conjugated primary bile acids than from the unconjugated ones. With a 5 mM concentration of bile acids, the ratios of the uptake of 0.2 mM cholesterol in control rats were C = CDC = DC, TCDC greater than TC greater than TDC, and GC = GCDC greater than GDC; with 20 mM concentrations, the ratios of cholesterol uptake in control rats were C greater than CDC greater than DC, TC greater than TCDC greater than TDC, and GC = GCDC greater than GDC. In the diabetic animals cholesterol uptake was higher than in control rats when using 5 or 20 mM of each of the conjugated bile acids and with cholic acid. In contrast, cholesterol uptake was similar in diabetic and control animals when cholesterol was solubilized with 5 or 20 mM CDC or DC. These differences in cholesterol uptake using the various bile acids and the failure of CDC and DC to facilitate the enhanced uptake of cholesterol in diabetic animals remains unexplained.(ABSTRACT TRUNCATED AT 250 WORDS)     

Differential uptake and metabolism of free and esterified cholesterol from high-density lipoproteins in the ovary

Rat luteal cells utilize high-density lipoproteins (HDL) as a source of cholesterol for steroid synthesis. Both the free and esterified cholesterol of HDL are utilized by these cells. In this report, we have examined the relative uptake of free and esterified cholesterol of HDL by cultured rat luteal cells. Incubation of the cells with HDL labeled with [3H]cholesterol or [3H]cholesteryl linoleate resulted in 4-6-fold greater uptake of the free cholesterol compared to esterified cholesterol. The increased uptake of free cholesterol correlated with its utilization for progestin synthesis: utilization of HDL-derived free cholesterol was 3-6-fold higher than would be expected from its concentration in HDL. The differential uptake and utilization of free and esterified cholesterol was further examined using egg phosphatidylcholine liposomes containing cholesterol or cholesteryl linoleate as a probe. Liposomes containing free cholesterol were able to deliver cholesterol to luteal cells and support steroid synthesis in the absence of apolipoproteins, and the addition of apolipoprotein A-I (apo A-I) moderately increased the uptake and steroidogenesis. Similar experiments using cholesteryl linoleate/egg phosphatidylcholine liposomes showed that inclusion of apo A-I resulted in a pronounced increase in the uptake of cholesteryl linoleate and progestin synthesis. These experiments suggest that free cholesterol from HDL may be taken up by receptor-dependent and receptor-independent processes, whereas esterified cholesterol uptake requires a receptor-dependent process mediated by apolipoproteins.     

Human beta-glucuronidase. Studies on the effects of pH and bile acids in regard to its role in the pathogenesis of cholelithiasis

Human bile contains a considerable amount of endogenous beta-glucuronidase. The effects of pH and bile acids on its activity have been studied in regard to its role in the pathogenesis of cholelithiasis. beta-Glucuronidase, purified from human liver to homogeneity, was structurally stable between pH 4 and 10, but was active only over a much narrower range of pH, with a pH optimum of 5.2. The inactivation below pH 4 was due to its irreversible denaturation, whereas the inactivation at higher pH was due to a true reversible pH effect on the enzyme velocity. Kinetic studies revealed that hydrogen ion acted as a substrate-directed activator of the free enzyme, but not the enzyme-substrate complex, with a molecular dissociation constant of 4 X 10(-6). The enzyme activity was not affected by unconjugated bile acids, primarily due to their extremely low water solubility. Conjugated bile acids, on the other hand, exerted heterogeneous and pH-dependent effects on the enzyme. At pH 5.2, taurocholic acid and glycocholic acid were substrate-directed activators of the enzyme; taurochenodeoxycholic acid and taurodeoxycholic acid, competitive inhibitors; and glycochenodeoxycholic acid and glycodeoxycholic acid, mixed inhibitors. At pH 7.0 all taurine and glycine conjugates behaved as substrate-directed activators. Though beta-glucuronidase activity at pH 7 was only 23% of its maximal activity at pH 5.2, conjugated bile acids tended to restore its activity to a certain extent at pH 7. Thus, endogenous beta-glucuronidase could play a significant role in pigment cholelithiasis.     

Effect of apolipoprotein E-free high density lipoproteins on cholesterol metabolism in cultured pig hepatocytes

We studied cholesterol synthesis from [14C]acetate, cholesterol esterification from [14C]oleate, and cellular cholesterol and cholesteryl ester levels after incubating cells with apoE-free high density lipoproteins (HDL) or low density lipoproteins (LDL). LDL suppressed synthesis by up to 60%, stimulated esterification by up to 280%, and increased cell cholesteryl ester content about 4-fold. Esterification increased within 2 h, but synthesis was not suppressed until after 6 h. ApoE-free HDL suppressed esterification by about 50% within 2 h. Cholesterol synthesis was changed very little within 6 h, unless esterification was maximally suppressed; synthesis was then stimulated about 4-fold. HDL lowered cellular unesterified cholesterol by 13-20% within 2 h and promoted the removal of newly synthesized cholesterol and cholesteryl esters. These changes were transient; by 24 h, both esterification and cellular unesterified cholesterol returned to control levels, and cholesteryl esters increased 2-3-fold. HDL core lipid was taken up selectively from 125I-labeled [3H]cholesteryl ester- and ether-labeled HDL. LDL core lipid uptake was proportional to LDL apoprotein uptake. The findings suggest that 1) the cells respond initially to HDL or LDL with changes in esterification, and 2) HDL mediates both the removal of free cholesterol from the cell and the delivery of HDL cholesteryl esters to the cell.     

Purification and reconstitution of the bile acid transport system from hepatocyte sinusoidal plasma membranes

The taurocholic acid transport system from hepatocyte sinusoidal plasma membranes has been studied using proteoliposome reconstitution procedures. Membrane proteins were initially solubilized in Triton X-100. Following detergent removal, the resultant proteins were incorporated into lipid vesicles prepared from soybean phospholipids (asolectin) using sonication and freeze-thaw procedures. The resultant proteoliposomes demonstrated Na+-dependent transport of taurocholic acid which could be inhibited by bile acids. Greatly reduced amounts of taurocholic acid were associated with the phospholipid or membrane proteins alone prior to proteoliposome formation. Membrane proteins were fractionated on an anionic glycocholate-Sepharose 4B affinity column which was prepared by coupling (3 alpha,7 alpha,12 alpha-trihydroxy-5 beta-cholan-24-oyl)-N alpha-lysine to activated CH-Sepharose 4B via the epsilon-amino group of lysine resulting in the retention of a free carboxyl group. The adsorbed proteins enriched in components in the 54 kDa zone, which were originally identified by photoaffinity labeling to be components of the bile acid transport system, were also incorporated into liposomes. This vesicle system showed almost a 4-fold increase in Na+-dependent taurocholic acid uptake when compared to proteoliposomes formed from total membrane protein, as well as sensitivity to inhibition by bile acids. These results demonstrate that the bile acid carrier system can be reconstituted in proteoliposomes and that utilizing proteins in the 54 kDa zone leads to a significant enhancement in the transport capacity of the reconstituted system, consistent with the role of 54 kDa protein(s) as component(s) of the bile acid carrier system.     

Dexamethasone regulates bile acid synthesis in monolayer cultures of rat hepatocytes by induction of cholesterol 7 alpha-hydroxylase.

To study the effect of steroid hormones on bile acid synthesis by cultured rat hepatocytes, cells were incubated with various amounts of these compounds during 72 h and conversion of [4-14C]cholesterol into bile acids was measured. Bile acid synthesis was stimulated in a dose-dependent way by glucocorticoids, but not by sex steroid hormones, pregnenolone or the mineralocorticoid aldosterone in concentrations up to 10 microM. Dexamethasone proved to be the most efficacious inducer, giving 3-fold and 7-fold increases in bile acid synthesis during the second and third 24 h incubation periods respectively, at a concentration of 50 nM. Mass production of bile acids as measured by g.l.c. during the second day of culture (28-52 h) was 2.2-fold enhanced by 1 microM-dexamethasone. No change in the ratio of bile acids produced was observed during this period in the presence of dexamethasone. Conversion of [4-14C]7 alpha-hydroxycholesterol, an intermediate of the bile acid pathway, to bile acids was not affected by dexamethasone. Measurement of cholesterol 7 alpha-hydroxylase activity in homogenates of hepatocytes, incubated with 1 microM-dexamethasone, showed 10-fold and 90-fold increases after 48 and 72 h respectively, as compared with control cells. As with bile acid synthesis from [14C]cholesterol, no change in enzyme activity was found in hepatocytes cultured in the presence of 10 microM steroid hormones other than glucocorticoids. Addition of inhibitors of protein and mRNA synthesis lowered bile acid production and cholesterol 7 alpha-hydroxylase activity and prevented the rise of both parameters with dexamethasone, suggesting regulation at the mRNA level. We conclude that glucocorticoids regulate bile acid synthesis in rat hepatocytes by induction of enzyme activity of cholesterol 7 alpha-hydroxylase.