Fibrinolytic properties have been detected in animal and human gallbladder (GB) bile. Plasminogen activator inhibitor-1 (PAI-1) has been reported in greater concentration in GB stone bile and may be a nucleating factor in the pathogenesis of GB stone formation. It is unknown whether or not human choledochal bile has similar properties, which could have a role in choledocholithiasis. The aims of this study were to determine the presence of fibrinolytic properties of human choledochal bile and to compare those properties among normal, acalculous, and calculous-infected choledochal bile. Tissue plasminogen activator (t-PA) and PAI-1 of choledochal bile were measured by enzyme linked immunosorbent assay in patients with cholangitis due to acalculous bile duct obstructions (n = 9), choledocholithiasis with cholangitis (n = 20), and normal bile (n = 7). The t-PA concentration of choledochal bile was no different among the three groups (acalculous-infected bile, median 4.61 ng/ml, and calculous-infected bile, 4.61 ng/ml, versus normal bile, 7.33 ng/ml). PAI-1 was detected in choledochal bile in significantly greater concentrations in patients with acalculous cholangitis due to bile duct obstructions and choledocholithiasis with cholangitis (acalculous-infected bile, median 0.36 ng/ml, and calculous-infected bile, 0.1 ng/ml, versus normal bile, 0.02 ng/ml, p < 0.05), but the bile concentration of PAI-1 was no different between the acalculous and calculous-infected choledochal bile. Human choledochal bile possesses t-PA and PAI-1. PAI-1 was present in greater concentrations in both acalculous and calculous-infected choledochal bile. Increased levels of PAI-1 may be an epiphenomenon of cholangitis rather than a factor in the pathogenesis of choledocholithiasis.
Aged ; Bile/microbiology ; Bile/chemistry* ; Cholangitis/microbiology ; Cholangitis/metabolism ; Cholangitis/etiology ; Cholangitis/chemically induced ; Cholestasis/metabolism ; Cholestasis/complications ; Common Bile Duct/metabolism* ; Common Bile Duct Calculi/metabolism ; Common Bile Duct Calculi/complications ; Female ; Human ; Male ; Middle Age ; Plasminogen Activator Inhibitor 1/analysis* ; Tissue Plasminogen Activator/analysis*

Bile acid is a type of metabolite degraded from cholesterol in liver. Its accumulation in liver could cause liver diseases, liver damage and liver fibrosis. In this experiment, dimethyl nitrosamine (DMN) liver fibrosis was established in rats. The rats were delivered into the normal group, the model group and four treated groups. After the four-week modeling, the treated groups were orally administered with drugs for 2 weeks, whereas the model and normal groups were given equal amount of sterile water at the same time. In the experiment, serum bile acid was taken the as marker, and liver function indexes and changes in bile acid metabolism were detected and observed to identify liver damage-related bile acid targets. It was the first time to evaluate the reverse effect of artificial CsB and its components on liver fibrosis in rats with bile acid metabolic level, and discuss its potential mechanism. The main study contents and results are as follows: a quantitative analysis was made on totally 17 endogenous bile acids, including taurocholic acid conjugated bile acid, glycine conjugated bile acid and free bile acid, and a liver damage evaluation was made for the model according to the detection of serum biochemical indexes and the pathological biopsy. After modeling, ALT, AST activity and TBil content significantly increased, whereas Alb significantly decreased. According to the pathological biopsy HE staining, the model group showed damage in normal hepatic lobule structure, liver cell edema and connective tissue proliferation in portal area; The treated groups showed mitigation in pathological changes to varying degrees. Cordyceps sinensis and its components may impact the bile acid metabolism in rats by activating HDCA, TCA, TCDCA, TLCA, TUDCA, UDCA, THDCA metabolim-related receptors or blocking relevant signaling pathway.
Animals ; Bile Acids and Salts ; metabolism ; Biological Factors ; administration & dosage ; Cordyceps ; chemistry ; physiology ; Humans ; Liver Cirrhosis ; drug therapy ; metabolism ; Male ; Moths ; chemistry ; microbiology ; Rats ; Rats, Wistar

BACKGROUND/AIMS: White bile is colorless, translucent fluid found occasionally in malignant bile duct obstruction (MBO). Little information is available on the cause and effect of white bile. The aim of this study was to determine the frequency and clinical significance of white bile in MBO. METHODS: Bile was aspirated during endoscopic retrograde cholangiopancreatography in consecutive patients with MBO. White bile was defined as bile bilirubin <1.5 mg/dL and yellow bile was defined as bile bilirubin >or=1.5 mg/dL in the bile. Two groups were compared prospectively for the duration of jaundice, itching, cholangitis, level of obstruction, and decremental rate of bilirubin after the insertion of 7 Fr endoscopic nasobiliary drainage until the insertion of metal stent or 10 Fr plastic stent. RESULTS: Among 60 patients with MBO, 16 (26.7%) had white bile. WBC count in blood was higher (9,456/mm3 vs. 7,400/mm3, p=0.029) and cholangitis was more common (11/16 vs. 7/44, p=0.000) in white than yellow bile group. Proximal portion of MBO had no communication with GB in 9/16 patients with white bile group and 17/44 patients with yellow bile group (p>0.05). Mean survival of the inoperable 35 patients was 242 days in yellow bile and 227 days in white bile group (p>0.05). CONCLUSIONS: White bile in MBO was not rare and was associated with cholangitis. Gallbladder did not seem to play a role in the formation of white bile. Further study for the pathogenesis and prognosis of white bile in MBO will be necessary.
Aged ; Bile/*chemistry/microbiology ; Bile Duct Neoplasms/*diagnosis/etiology/mortality ; Bilirubin/analysis ; Cholangiopancreatography, Endoscopic Retrograde ; Cholangitis/diagnosis/etiology/mortality ; Cholestasis/*diagnosis/etiology/mortality ; Data Interpretation, Statistical ; Drainage ; Female ; Humans ; Male ; Middle Aged ; Stents ; Survival Analysis

Poliumoside is representative of phenylethanoid glycosides, which are widely found in many plants. Poliumoside is also regarded as the main active component of Callicarpa kwangtungensis Chun (CK), though its oral bioavailability in rat is extremely low (0.69%) and its in vivo and in vitro metabolism has not yet been systematically investigated. In the present study, an ultra performance liquid chromatography/quadrupole time-of-flight mass spectrometry (UPLC/Q-TOF-MS) method was employed to identify the metabolites and investigate the metabolic pathways of poliumoside in rat after oral administration 1.5 g·kg of poliumoside. As a result, a total of 34 metabolites (30 from urine, 17 from plasma, and 4 from bile) and 9 possible metabolic pathways (rearrangment, reduction, hydration, hydrolyzation, dehydration, methylation, hydroxylation, acetylation, and sulfation) were proposed in vivo. The main metabolite, acteoside, was quantified after incubated with rat intestinal bacteria in vitro. In conclusion, the present study systematically explored the metabolites of poliumoside in vivo and in vitro, proposing metabolic pathways that may be significant for further metabolic studies of poliumoside.
Administration, Oral ; Animals ; Bacteria ; metabolism ; Bile ; chemistry ; Caffeic Acids ; administration & dosage ; blood ; chemistry ; urine ; Callicarpa ; chemistry ; Chromatography, High Pressure Liquid ; Drugs, Chinese Herbal ; administration & dosage ; chemistry ; metabolism ; Glycosides ; administration & dosage ; blood ; chemistry ; urine ; Intestines ; microbiology ; Male ; Mass Spectrometry ; methods ; Molecular Structure ; Plasma ; chemistry ; Rats ; Rats, Sprague-Dawley ; Urine ; chemistry