Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0008370 (cholestasis)
 9,378 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pigment gallstones are defined as any dark brown-to-black stone, consisting of calcium salts of bilirubin, phosphate, carbonate and other anions, and can be separated into carbonate- and noncarbonate-containing groups. Pigment stones predominate in the rural Orient, in cirrhosis, and in elderly United States patients undergoing cholecystectomy. Clinical associations include bile duct obstruction, stasis, and possibly hemolysis. Of pigment stones, 50% are radioopaque and account for two-thirds of all opaque stones. The concentrations of bile salts, phospholipids,, cholesterol, and total bilirubin in bile are similar to normal levels, but the concentration of unconjugated bilirubin is increased in the bile of some patients. Increased unconjugated bilirubin in bile may be caused by increased hydrolysis of excreted conjugated bilirubin. Unconjugated bilirubin is solubilized by bile salts, but the interaction is primarily nonmicellar. Ionized calcium and pH are important determinants of solubility. Sulfated glycoproteins, excreted in increased amounts in patients with cholelithiasis, may be the site of pigment stone precipitation because these compounds bind calcium salts tightly. E coli is frequently cultured from pigment stones in Japan but not in the United States; thus, bacterial beta-glucuronidase may be important in stone formation in Japan but probably not in the West. Stasis leads to increased calcium secretion and to increases in the concentration of sparingly soluble compounds that may then precipitate. Incomplete emptying of the gallbladder may result in the same concentration process. Unsaturated fats and chronic vagal stimulation cause pigment stone formation in animals. At present, surgery is the only treatment for pigment lithiasis.
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PMID:Pigment gallstones. 31 81

Reports have suggested that patients with gallstones have gallbladder bile that is less acidic and more saturated with calcium carbonate than patients without gallstones. This failure to acidify bile may play a role in the formation of gallstones. We, therefore, compared gallbladder bile pH, ionized calcium, and calcium carbonate saturation index from patients undergoing either incidental gallbladder removal (controls, n = 23) or elective cholecystectomy for gallstones (n = 55). Gallstones were classified as either cholesterol (n = 39) or black pigment (n = 16) stones. No difference in gallbladder bile pH was noted among the controls, cholesterol stone, and pigment stone patients. In addition, no difference in ionized calcium concentration or CCSI was noted among the three groups. The pH in additional patients (n = 49) with acute cholecystitis, common bile duct obstruction, biliary tract infection, and cystic duct obstruction was significantly more acidic. We conclude that neither a defect in bile acidification nor increased saturation of calcium carbonate explains why human cholesterol or pigment gallstones form.
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PMID:Patients with uncomplicated cholelithiasis acidify bile normally. 139 97

In recent clinical and animal experimental studies, ursodeoxycholic acid (UDCA) has been noted to have marked choleretic and cytoprotective actions. To define the mechanism and determine whether such favorable influence is specific to UDCA, the choleretic action of beta-muricholic acid (beta-MCA), which has a similar chemical structure, was studied using an isolated rat-liver-perfusion system. As a result, beta-MCA and taurine-conjugated beta-MCA (T beta-MCA) stimulated bile flow accompanied by elevation of bile acid output and phospholipid output, and beta-MCA caused an elevation in biliary HCO3- concentration in normal rat livers. After colchicine treatment, taurocholic acid (TCA) administration was associated with marked cholestasis while both beta-MCA and T beta-MCA still increased bile flow under the same conditions. Furthermore, simultaneous administration of beta-MCA or, more markedly, T beta-MCA reversed the effects of TCA alone in colchicine-treated rat liver; significant preventive effects against the cholestasis could be shown. These data suggest that beta-MCA and especially T beta-MCA can support choleresis even under conditions of colchicine-dependent microtubule dysfunction. The effects of T beta-MCA on organelle lipids and their intracellular transport may differ from those of TCA, presumably because of the anticholestatic and cytoprotective effects of T beta-MCA.
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PMID:Tauro-beta-muricholate preserves choleresis and prevents taurocholate-induced cholestasis in colchicine-treated rat liver. 156 76

The effects of gomisin A, which is a lignan component of schizandra fruits, on liver functions in various experimental liver injuries and on bile secretion in CCl4-induced liver injury were studied. Gomisin A weakly accelerated the disappearance of plasma ICG by itself at a high dose (100 mg/kg, i.p.). All of the hepatotoxic chemicals used in this study inhibited the excretion of ICG from plasma. Gomisin A showed a tendency to prevent the delays of the disappearance of plasma ICG induced by CCl4, d-galactosamine and orotic acid, but not that by ANIT. Bile flow and biliary outputs of total bile acids and electrolytes (Na+, K+, Cl- and HCO3-) were decreased in CCl4-treated rats. Gomisin A maintained bile flow and biliary output of each electrolyte nearly to the level of the vehicle-treated group, but did not affect biliary output of total bile acids. These findings suggest that gomisin A possesses a liver function-facilitating property in normal and liver injured rats and that its preventive action on CCl4-induced cholestasis is due to maintaining the function of the bile acids-independent fraction.
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PMID:Effects of gomisin A on liver functions in hepatotoxic chemicals-treated rats. 406 75

We investigated the effects of 17 alpha-ethinylestradiol treatment of rats on various transport functions in isolated basolateral and canalicular liver plasma membrane vesicles. Both membrane subfractions were purified to a similar degree from control and cholestatic livers. Although moderate membrane lipid alterations were predominantly observed in basolateral vesicles, no change in basolateral Na+/K(+)-ATPase activity was found. Furthermore, while Na(+)-dependent taurocholate uptake was decreased by approximately 40% in basolateral vesicles, the maximal velocity of ATP-dependent taurocholate transport was decreased by 63% in canalicular membranes. In contrast, only minimal changes or no changes at all were observed for electrogenic taurocholate transport in "cholestatic" canalicular membranes and total microsomes, respectively. However, canalicular vesicles from cholestatic livers also exhibited marked reductions in ATP-dependent transport of S-(2,4-dinitrophenyl)glutathione and in Na(+)-dependent uptake of adenosine, while in the same vesicles HCO3-/SO4- exchange and Na+/glycine cotransport activities were markedly stimulated. These data show that in addition to the previously demonstrated sinusoidal transport abnormalities ethinylestradiol-induced cholestasis is also associated with multiple canalicular membrane transport alterations in rat liver. Hence, functional transport alterations at both polar surface domains might ultimately be responsible for the inhibitory effects of estrogens on the organic anion excretory capacity and on bile formation in rat liver.
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PMID:Ethinylestradiol treatment induces multiple canalicular membrane transport alterations in rat liver. 851 79

Cholangiocytes, the epithelial cells that line intrahepatic bile ducts, participate in bile secretion via basal and agonist-stimulated transport of solutes and water. On the basis of subtle structural differences between cholangiocytes lining small vs. large bile ducts, as well as known phenotypic variations among transporting epithelia in other organs, we demonstrated that cholangiocytes are functionally heterogeneous along the intrahepatic biliary tree of normal rats. In studies reported here, we confirm and extend the concept of functional heterogeneity of cholangiocytes by employing the bile duct-ligated (BDL) rat model of cholestasis associated with selective cholangiocyte proliferation. Using novel isolation and separatory techniques, we prepared subpopulations of pure small, medium, and large cholangiocytes from BDL rats and compared them with regard to gene expression and basal or agonist-responsive transport activities. Although transcripts for gamma-glutamyl transpeptidase and cytokeratin 19, two cholangiocyte-specific proteins, and glyceraldehyde-3-phosphate dehydrogenase, a housekeeping gene, were in all three subpopulations, genes for several proteins involved in solute transport [Cl-/HCO3- exchanger, cystic fibrosis transmembrane conductance regulator (CFTR), and secretin receptor] were expressed only in medium and large cholangiocytes. Consistent with these findings, secretin increased intracellular levels of adenosine 3',5'-cyclic monophosphate (cAMP) and 36Cl- efflux rates in medium and large cholangiocytes but not in small cholangiocytes. Also, forskolin/8-(4-chlorophenylthio)-cAMP stimulated 36Cl- efflux rates only in medium and large cholangiocytes, consistent with selective functional expression of CFTR in these subpopulations. These results support the molecular and functional heterogeneity of cholangiocytes within the intrahepatic biliary ductal system and are consistent with the notion that hormone-regulated transport of solutes after BDL occurs principally in medium and large cholangiocytes in a fashion similar to that observed in normal rat liver.
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PMID:Molecular and functional heterogeneity of cholangiocytes from rat liver after bile duct ligation. 912 53

Cholestasis in patients with sepsis has been attributed to the effects of endotoxin (lipopolysaccharides, LPS) and LPS-induced cytokines, which are also potent stimulators of systemic and hepatic nitric oxide (NO) synthesis. NO donors stimulate bile acid-independent bile flow in normal rat liver, but the effects of LPS-induced NO on bile formation remain unclear. To address this question we examined the effects of NO and its mediator guanosine 3',5'-cyclic monophosphate (cGMP) on bile flow and biliary HCO3- and glutathione excretion in isolated perfused rat livers (IPRL) from LPS-treated rats. Portal and systemic NO2- + NO3- plasma levels were increased 47-fold in LPS-treated rats and were also elevated in perfusate (6-fold) and bile (9-fold) after isolating and perfusing livers from these animals. Bile flow, HCO3-, and glutathione output were decreased by 33%, 25%, and 81% in these IPRL, respectively. Stimulation of NO synthesis with L-arginine or inhibition of inducible NO synthesis with aminoguanidine did not change bile flow, although pretreatment with aminoguanidine inhibited NO production by 85%. Moreover, the choleretic effects of infusions of the NO donors sodium nitroprusside (SNP) and S-nitroso-acetyl-penicillamine were markedly reduced in endotoxemic IPRL compared with normal controls, and SNP-induced HCO3- and glutathione excretion were reduced by 61% and 86%, respectively. SNP-induced cyclic GMP production was 2.3-fold lower than in normals, but the choleretic effect of dibutyryl cGMP was only slightly reduced in endotoxemic livers. These findings indicate that LPS reduces bile acid-independent bile flow primarily by inhibiting biliary excretion of glutathione and to a lesser extent HCO3-, whereas LPS-induced NO does not modulate bile formation in endotoxemia. Thus, impairment of the major determinants of bile acid-independent bile flow by LPS may contribute significantly to the pathogenesis of the cholestasis of sepsis.
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PMID:Endotoxin impairs biliary glutathione and HCO3- excretion and blocks the choleretic effect of nitric oxide in rat liver. 914 37

Accumulation of bile acids (BA) and cholangiocyte proliferation occur in cholestasis, but BA effects on the proliferative and secretory capacity of cholangiocytes are undefined. Cholangiocyte proliferation coupled with increased expression of H3 histone and secretin receptor (SR) genes and secretin-stimulated adenosine 3',5'-cyclic monophosphate (cAMP) levels is limited to large cholangiocytes. We isolated pooled small and large cholangiocytes and studied the effect of taurocholic (TC) and taurolithocholic (TLC) acids on proliferation, by measurement of H3 histone gene expression, and secretion, by measurement of SR gene expression, cAMP levels, and Cl-/HCO3- exchanger activity. In pooled cholangiocytes, TC and TLC increased H3 histone (12-fold) and SR (3-fold) gene expression and both spontaneous (1.4-fold) and secretin-induced (4-fold) cAMP response. TC and TLC increased H3 histone (10-fold) and SR (2-fold) gene expression and secretin-induced cAMP response and Cl-/HCO3- exchanger activity (3-fold) only in large cholangiocytes. In large cholangiocytes, BA may have a signaling function in the modulation of ductal secretion.
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PMID:Bile acids stimulate proliferative and secretory events in large but not small cholangiocytes. 927 33

Formation of bile requires the coordinated function of two epithelial cell types: hepatocytes, that are responsible for secretion of the major osmolytes and biliary constituents and cholangiocytes that regulate the fluidity and alkalinity of bile through secretion of osmolytes such as Cl- and HCO3- Studies in isolated cholangiocyte preparations have elucidated the basic transport mechanisms involved in constitutive and stimulated secretory activities in the biliary epithelium. Basolateral Na+/H+ exchanger and Na+:HCO3- symporter mediate HCO3- uptake, while an apical cAMP-activated Cl-/HCO3- exchanger secretes bicarbonate into the lumen. Cholangiocytes also possess a cAMP-stimulated Cl- conductance (CFTR) and a Ca-activated Cl- channel, both likely located at the apical membrane. Cholangiocyte secretory functions are regulated by a complex network of hormones mainly acting via the cAMP system. In addition, recent data indicate that part of the regulation of ductular secretion may take place at the apical membrane of the cholangiocyte through factors present into the bile, such as ATP, bile acids and glutathione. Primary damage to the biliary epithelium is the cause of several chronic cholestatic disorders (cholangiopathies). From a pathophysiological point of view, common to all cholangiopathies is the coexistance of cholangiocyte death and proliferation and various degrees of portal inflammation and fibrosis. Cholestasis dominates the clinical picture and, pathophysiologically, may initiate or worsen the process. Alterations in biliary electrolyte transport could contribute to the pathogenesis of cholestasis in primary bile duct diseases. Cystic Fibrosis-related liver disease represents an example of biliary cirrhosis secondary to a derangement of cholangiocyte ion transport. Most primary cholangiopaties recognize an immune-mediated pathogenesis. Cytokines, chemokines, and proinflammatory mediators released in the portal spaces or produced by the cholangiocyte itself, likely activate fibrogenesis, stimulate apoptotic and proliferative responses, and alter the transport functions of the epithelium.
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PMID:Transport systems in cholangiocytes: their role in bile formation and cholestasis. 962 63

Biochemical functions of kidney glomeruli and tubules were estimated in pregnancy complicated by cholestasis. The investigated group consisted of 72 women with pregnancy complicated by cholestasis and 30 healthy pregnant patients as a control group. Biochemical assays were performed for the deamination of amino acids, carbonic acid dissociation and creatinine metabolism. Statistical analysis was carried out using the t-test and P<0.05 was considered to be significant. In diurnal urine samples collected from pregnant patients with cholestasis, decreased concentrations of NH4+ (42.0+/-8.9 versus 50.3+/-7.6 mmol/24 h), H+ (19.0+/-7.0 versus 25.0+/-5.0 mmol/24 h), creatinine (1.15+/-0.2 versus 1.43+/-0.3 mmol/24 h) as well as lower levels of creatinine clearance (89.0+/-23.0 versus 135.0+/-30.0 ml/min) and normal levels of potassium and sodium were observed. Serum creatinine and uric acid concentrations were elevated (86.6+/-7.07 versus 66.3+/-4.42 micromol/l and 32.1+/-8.3 versus 19.0+/-3.57 micromol/l). Diurnal urine volume was lower in patients with cholestasis than in the control group (995+/-313 versus 1264+/-426 ml/24 h). Disturbances of biochemical functions of kidney glomeruli and tubules, regarding creatinine metabolism and deamination of amino acids, and dissociation of carbonic acid, were seen in patients with cholestasis during pregnancy.
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PMID:The biochemical functions of the renal tubules and glomeruli in the course of intrahepatic cholestasis in pregnancy. 1073 21


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