Edmund Purucker

TIMP expression in toxic and cholestatic liver injury in rat

BACKGROUND/AIMSnHepatic fibrosis is a dynamic pathological process with a net accumulation of extracellular matrix proteins. Recent evidence suggests that besides their increased synthesis, inhibition of matrix degradation plays a significant role. ECM degradation occurs via metalloproteinases which are inhibited in situ by specific tissue inhibitors of metalloproteinases (TIMPs). The aim of our studies was to determine the expression of TIMPs during toxic liver injury and cholestatic liver injury leading to fibrosis.nnnMETHODSnWe examined the expression of TIMP-1, -2 and -3 in two different rat models for liver injury (intraperitoneal CCl4 injection and bile duct ligation) by Northern blot analysis and in situ hybridization. For comparison, the mRNA expression of the acute phase protein haptoglobin was measured.nnnRESULTSnTIMP-1 was increased during the early phase of toxic liver injury and in cholestasis. Its expression occurred predominantly in areas of inflammation, in hepatocytes, and in mesenchymal and endothelial cells. There was a slight upregulation of TIMP-2 expression during cholestasis. TIMP-3 was not detected at all.nnnCONCLUSIONSnOur results emphasize an involvement of TIMP-1 in matrix homeostasis, indicating its possible participation in liver fibrosis.

Study of human isoursodeoxycholic acid metabolism

BACKGROUND/AIMSnThe aim of this study was to examine the metabolism of isoursodeoxycholic acid (isoUDCA) in humans.nnnMETHODSnIsoUDCA was synthesized of >99% purity and administered orally for 1 week, 3 x 250 mg/day, to six healthy male subjects. Bile acids were extracted from duodenal bile, serum, and 24-h urine samples collected before and at the end of the study period, separated into groups of conjugates, and analyzed by gas chromatography-mass spectrometry and fast atom bombardment mass spectrometry.nnnRESULTSnIsoUDCA was tolerated without any side effect. Liver function tests did not change. Bile acid concentrations (mean+/-SEM) increased from 11.9+/-1.87 to 15.3+/-1.37 mmol/l in bile (n.s.), and from 3.4+/-0.10 to 6.8+/-0.43 micromol/l in serum (p<0.05). Urinary excretion of bile acids increased from 5.3+/-0.29 to 82.2+/-7.84 micromol/24 h (p<0.01). All changes were due to significant increases of isoUDCA and UDCA in bile, serum and urine, and of 3-dehydro-UDCA, the 3-oxo intermediate of isomerization, in bile and in serum. The relative enrichments of isoUDCA, UDCA, and 3-dehydro-UDCA, were: in bile, 2.2%, 25.7%, and 0.7%; in serum, 24.7%, 23.5%, and 6.1%; and in urine, 83.7%, 2.0%, and 2.4%. Whereas 78% of serum isoUDCA was unconjugated, 93-94% of biliary and urinary isoUDCA was conjugated with N-acetylglucosamine.nnnCONCLUSIONSnThis study indicates good tolerance and significant intestinal absorption of orally administered isoUDCA. IsoUDCA is extensively isomerized, probably both by intestinal and hepatic enzymes to yield UDCA which became the major biliary compound. In vitro, using the human hepatoblastoma cell line Hep G2, isoUDCA was found to be cytoprotective towards ethanol-induced cell injuries.

Effect of glutathione depletion and hydrophilic bile acids on hepatic acute phase reaction in rats with extrahepatic cholestasis.

Background: Extrahepatic cholestasis by biliary obstruction induces an acute phase reaction in the liver. It is a complex process involving cytokines, hormones and growth factors. To determine whether the regulation of acute phase proteins (APP) in cholestasis depends on glutathione (GSH), the effect of buthionine sulfoximine-induced (BSO-induced) GSH depletion on the expression of various APP was studied. In addition, we determined the influence of hepatoprotective bile acids on hepatic APP and underlying cytokine events. Methods: Liver samples of bile-duct-ligated or sham-operated rats were examined. mRNA expression was quantified by densitometric analysis of Northern blots. Results: Expression of APP increased 2-5-fold in bile-duct-ligated rats as compared to sham-operated controls. This acute phase reaction remained similar independently of whether cholestasis occurred for 5 days or 3 weeks. In contrast to ! 2-macroglobulin and tissue inhibitor of metalloproteinases-1 (TIMP-1), mRNA levels of both # -fibrinogen and haptoglobin were significantly up-regulated after GSH depletion by BSO in cholestasis. Feeding of ursodeoxycholic and iso-ursodeoxycholic acid markedly down-regulated ! 2-macroglobulin and TIMP-1 expression in cholestasis but did not affect overexpression of # -fibrinogen and haptoglobin. Cholestasis leads to an increased APP expression accompanied by an increased expression of inflammatory cytokines (IL-6, TNF- ! ). After feeding of hydrophilic bile acids, increases in inflammatory cytokines were abrogated. Conclusions: We show that GSH is involved in the acute phase reaction during obstructive cholestasis. In addition, bile acids might selectively ameliorate the acute phase response by reducing expression of the APP not affected by GSH depletion ( ! 2-macroglobulin and TIMP-1).BACKGROUNDnExtrahepatic cholestasis by biliary obstruction induces an acute phase reaction in the liver. It is a complex process involving cytokines, hormones and growth factors. To determine whether the regulation of acute phase proteins (APP) in cholestasis depends on glutathione (GSH), the effect of buthionine sulfoximine-induced (BSO-induced) GSH depletion on the expression of various APP was studied. In addition, we determined the influence of hepatoprotective bile acids on hepatic APP and underlying cytokine events.nnnMETHODSnLiver samples of bile-duct-ligated or sham-operated rats were examined. mRNA expression was quantified by densitometric analysis of Northern blots.nnnRESULTSnExpression of APP increased 2-5-fold in bile-duct-ligated rats as compared to sham-operated controls. This acute phase reaction remained similar independently of whether cholestasis occurred for 5 days or 3 weeks. In contrast to alpha2-macroglobulin and tissue inhibitor of metalloproteinases-1 (TIMP-1), mRNA levels of both beta-fibrinogen and haptoglobin were significantly up-regulated after GSH depletion by BSO in cholestasis. Feeding of ursodeoxycholic and iso-ursodeoxycholic acid markedly down-regulated alpha2-macroglobulin and TIMP-1 expression in cholestasis but did not affect overexpression of beta-fibrinogen and haptoglobin. Cholestasis leads to an increased APP expression accompanied by an increased expression of inflammatory cytokines (IL-6, TNF-alpha). After feeding of hydrophilic bile acids, increases in inflammatory cytokines were abrogated.nnnCONCLUSIONSnWe show that GSH is involved in the acute phase reaction during obstructive cholestasis. In addition, bile acids might selectively ameliorate the acute phase response by reducing expression of the APP not affected by GSH depletion (alpha2-macroglobulin and TIMP-1).

Metabolism and effects on cholestasis of isoursodeoxycholic and ursodeoxycholic acids in bile duct ligated rats

Isoursodeoxycholic acid (isoUDCA), the 3 beta-epimer of ursodeoxycholic acid (UDCA), may have pharmaceutical potential because of its similar hydrophilicity and in vitro cytoprotection as compared with UDCA. We compared metabolism and effects on cholestasis of UDCA and isoUDCA in experimental cholestasis in rats. Cholestasis was induced by bile duct ligation. For bile flow and biliary bile acid analysis, UDCA or isoUDCA were infused intraduodenally. For the study of chronic effects, chow was supplemented with 2.5 g/kg UDCA or isoUDCA for 3 weeks. Sham-operated animals served as controls. IsoUDCA became completely converted to UDCA in the liver. Choleresis and biliary bile acids were the same after the intraduodenal administration of either compound. Oral administration of UDCA or isoUDCA significantly improved liver biochemistry but not clinical and histological parameters in chronic cholestasis. The decrease of serum cholic acid in control animals was more pronounced after isoUDCA (-93%) than after UDCA (-76%). Only after UDCA, this decrease was compensated by increases of UDCA, beta-muricholic acid (MCA), and Delta(22)-beta-MCA. Our results show that isoUDCA has the same effect on choleresis and liver biochemistry as UDCA. IsoUDCA features pro-drug characteristics of UDCA and causes compared to the latter lower serum bile acid concentrations in non-cholestatic animals.