Differential expression of the rat gamma-glutamyl transpeptidase gene promoters along with differentiation of hepatoblasts into biliary or hepatocytic lineage. (49/1207)

gamma-Glutamyl transpeptidase (GGT), a major enzyme of glutathione (GSH) homeostasis, is often used as a biliary marker to follow the differentiation of hepatic precursor cells. The expression of the GGT gene is driven by different promoters and yields multiple mRNAs, depending on the cell type or the stage of differentiation. In the present study, we analyzed the GGT mRNA expression pattern by quantitative reverse transcriptase-polymerase chain reaction or by in situ hybridization i) in the liver, in vivo, at early stages of development; ii) in oval cells, which proliferate and differentiate into hepatocytes in response to galactosamine injury in vivo; and finally, iii) during hepatoblast differentiation, in vitro. We show that GGT gene transcription originates from promoters P3, P4, and P5 in rat hepatic precursor cells. Differentiation of these cells induces profound alterations in GGT gene expression, leading to extinction of promoters P4 and P5, when they differentiate into the hepatocytic pathway, and to extinction of promoters P3 and P5 when they differentiate into the biliary pathway. This diversity in GGT mRNA expression provides unique molecular probes to follow hepatic precursor cell differentiation. Furthermore, the identification of factors governing GGT P5 and P4 promoter expression should provide further insight into the molecular events that occur as the liver precursor cell differentiates into the hepatic lineages.  (+info)

Hex expression suggests a role in the development and function of organs derived from foregut endoderm. (50/1207)

Hex is a divergent homeobox gene expressed as early as E4.5 in the mouse and in a pattern that suggests a role in anterior-posterior patterning. Later in embryogenesis, Hex is expressed in the developing thyroid, lung, and liver. We now show Hex expression during thymus, gallbladder, and pancreas development and in the adult thyroid, lung, and liver. At E10.0, Hex is expressed in the 3rd pharyngeal pouch, from which the thymus originates, the endodermal cells of liver that are invading the septum transversum, the thyroid, the dorsal pancreatic bud, and gallbladder primoridum. At E13.5, expression is maintained at high levels in the thyroid, liver, epithelial cells lining the pancreatic and extrahepatic biliary ducts and is present in both the epithelial and mesenchymal cells of the lung. Expression in the thymus at this age is less than in the other organs. In the E16.5 embryo, expression persists in the thyroid, pancreatic, and bile duct epithelium, lung, and liver, with thymic expression dropping to barely detectable levels. By E18.5, expression in the thyroid and bile ducts remains high, whereas lung expression is markedly decreased. At this age, expression in the pancreas and thymus is no longer present. Finally, we show the cell types in the adult thyroid, lung, and liver that express Hex in the mature animal. Our results provide more detail on the potential role of Hex in the development of several organs derived from foregut endoderm and in the maintenance of function of several of these organs in the mature animal.  (+info)

In vivo metabolism and mass balance of 4-[4-fluorophenoxy]benzaldehyde semicarbazone in rats. (51/1207)

The pharmacokinetics, mass balance, tissue distribution, and metabolism of Co 102862 was investigated in rats after a single oral dose. [(14)C]Co 102862 showed multiexponential pharmacokinetics in rat plasma with an extensive distribution phase. After p.o. administration (approximately 10 mg/kg), the half-lives were long for total radioactivity compared with unchanged Co 102862. Profiles of rat urine and bile suggest that Co 102862 is extensively metabolized in vivo. [(14)C]Co 102862 was extensively distributed into all tissues, with the fatty tissues and secretory glands tissues containing the highest radioactivity. Elimination of radioactivity from the tissues had an estimated half-life of 14 days. A total of 91% of the administered radioactivity was recovered in both intact and bile-duct cannulated rats over 120 and 48 h, respectively, with the majority ( approximately 74%) of the radioactivity being excreted in the urine. Approximately 10% of the total radioactivity remained in the tissues on day 5 and decreased with time to approximately 3% on day 28. Bile-duct cannulated experiments show the enterohepatic circulation is an important route of elimination and reabsorption. Six metabolites were identified in the urine and bile of which the carboxylic acid was the major metabolite. The carboxylic acid was the only metabolite found in plasma and was probably responsible for the radioactivity in the tissues.  (+info)

Efficacy of morphine sulfate-augmented hepatobiliary imaging in acute cholecystitis. (52/1207)

OBJECTIVE: A review of the English language literature was performed to determine the sensitivity and specificity of morphine sulfate-augmented hepatobiliary imaging for acute cholecystitis. Twenty publications, involving 914 patients, were reviewed from journals published between 1984 and 1999. The analysis of these patients has resulted in the largest combined review study to date. The sensitivity and specificity of morphine-augmented hepatobiliary imaging were calculated to be 96.1% and 88.6%, respectively. After reading this paper, the nuclear medicine technologist should be able to: (a) discuss the clinical use of morphine augmentation during hepatobiliary imaging; and (b) state the sensitivity and specificity of morphine sulfate-augmented hepatobiliary imaging.  (+info)

Cholecystokinin acts as an essential factor in the exacerbation of pancreatic bile duct ligation-induced rat pancreatitis model under non-fasting condition. (53/1207)

We examined the influence of 2 gut hormones involved in the enhancement of pancreatic exocrine secretion, secretin and cholecystokinin (CCK), in the exacerbation of pancreatitis. We also examined the role of the vagal system, which was considered to be a transmission route for these hormones. Our model of pancreatitis in the rat was prepared by pancreatic bile duct ligation (PBDL), which simultaneously ligated the pancreatic duct and the common bile duct. Serum amylase activity and histopathological changes in the pancreas were used as indices of pancreatitis. We also measured the volume of pancreatic juice, as well as the amylase activity and protein level of the pancreatic juice, as indices of increased pancreatic exocrine secretion. Two gut hormones were given 6 times at 1-h intervals. Administration of secretin (1-3 microg/kg, s.c.) did not influence serum amylase activity in rats with PBDL-induced pancreatitis. However, food stimulation and administration of CCK-8 (1 microg/kg, s.c.) increased serum amylase activity and promoted vacuolation of the pancreatic acinar cells in rats with PBDL-induced pancreatitis. Administration of atropine (3 mg/kg, s.c.) or a CCK1-receptor antagonist, Z-203 (0.1 mg/kg, i.v.), inhibited food-stimulated or CCK-8-induced (1 microg/kg, s.c.) enhancement of pancreatic exocrine secretion and exacerbation after the development of PBDL-induced pancreatitis. These results suggest that not secretin, which regulates the volume of pancreatic juice, but CCK, which regulates the secretion of pancreatic enzymes via the vagal system, plays an essential role in food-stimulated exacerbation after the development of pancreatitis.  (+info)

A spectrum of histopathologic findings in autoimmune liver disease. (54/1207)

We retrospectively studied 42 liver biopsy specimens from 39 patients who met serologic and histologic criteria of autoimmune liver diseases. We found 10 cases of overlap syndrome (OLS), 10 autoimmune cholangitis (AIC), 10 primary biliary cirrhosis (PBC), and 9 autoimmune hepatitis (AIH) type 1. The following results were obtained: (1) Granulomas and biliary duct lesions were more prominent in PBC and AIC than in OLS and AIH. (2) Bile duct loss was not observed in AIH cases. (3) Features of hepatocellular damage such as piecemeal necrosis, spotty lobular necrosis, and confluent necrosis, were much more prevalent in OLS and AIH than in PBC and AIC. (4) HLA-DR antigen expression by hepatocytes was more frequent in AIH and OLS, whereas the expression of the same antigen by the bile duct epithelium was more frequent in PBC and AIC. We conclude there is a morphologic spectrum in autoimmune liver diseases, in which PBC forms one end of the spectrum, AIH the other, OLS the middle but closer clinically and histologically to AIH than to PBC, and AIC, which seems to be an antimitochondrial antibody-negative subtype of PBC.  (+info)

Intestinal absorption and postabsorptive metabolism of linoleic acid in rats with short-term bile duct ligation. (55/1207)

We investigated in bile duct-ligated (BDL) and sham-operated control rats whether the frequent presence of essential fatty acid deficiency in cholestatic liver disease could be related to linoleic acid malabsorption, altered linoleic acid metabolism, or both. In plasma of BDL rats, the triene-to-tetraene ratio, a biochemical marker for essential fatty acid deficiency, was increased compared with controls (0.024 +/- 0.004 vs. 0.013 +/- 0.001; P < 0.05). Net and percentage of dietary linoleic acid absorbed were decreased in BDL rats compared with control rats (1.50 +/- 0.16 mmol/day and 81.3 +/- 3.3% vs. 2.08 +/- 0.07 mmol/day and 99.2 +/- 0.1%, respectively; each P < 0.001). At 24 h after [(13)C]linoleic acid administration, BDL rats had a similar ratio of plasma [(13)C]arachidonic acid to plasma [(13)C]linoleic acid concentration compared with control rats. Delta(6)-Desaturase activity was not significantly different in hepatic microsomes from control or BDL rats. At 3 h after [(13)C]linoleic acid administration, plasma appearance of [(13)C]linoleic acid and cumulative expiration of (13)CO(2) were decreased in BDL rats, compared with controls (by 54% and 80%, respectively). The present data indicate that the impaired linoleic acid status in cholestatic liver disease is mainly due to decreased net absorption and not to quantitative alterations in postabsorptive metabolism.  (+info)

Lack of effect of incretin hormones on insulin release from pancreatic islets in the bile duct-ligated rats. (56/1207)

Hyperglycemia associated with obstructive jaundice seriously affects the prognosis of patients with hepatobiliary diseases. We investigated secretory properties of isolated islets from bile duct-ligated (BDL) rats. Pancreatic islets from BDL rats lost their secretory responses to glucagon-like peptide-1 (GLP-1), although their responses to glucose were normal. Loss of potentiation of insulin release was also observed in glucagon and glucose-dependent insulinotropic peptide (GIP), whereas modulation of the release by forskolin, dibutyryl cAMP, or epinephrine remained unaffected. cAMP production by BDL islets was not increased by these insulinotropic hormones. Serum levels of glucagon, but not GIP, were increased in BDL rats. GLP-1 levels were also elevated, although they did not reach statistical significance. Immunoblotting of trimeric G protein subunits demonstrated that G(s)alpha L and G(s)alpha S, but not G(i)alpha 1/2 and G(i)alpha 3/o alpha, were less expressed in BDL islets. Therefore, unresponsiveness of the beta-cell to cAMP-raising hormones is involved in glucose intolerance under cholestasis. It results from diminished expression of alpha-subunits of the relevant G protein, G(s), and desensitization of receptors of these hormones.  (+info)