Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.5 (5'-nucleotidase)
 3,167 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Membrane-bound liver alkaline phosphatase (Mem-LiALP, EC 3.1.3.1) is a high-molecular-mass liver alkaline phosphatase (ALP) present in metastatic, infiltrative and cholestatic liver disease. Shedding of hepatocyte plasma membrane fragments (LiPMF) is thought to be responsible for the appearance of Mem-LiALP in the circulation. Several other membrane-bound enzymes, such as gamma-glutamyltransferase (gamma-GT), leucine aminopeptidase (LAP), and 5'-nucleotidase (5'-Nu) are present in the membrane of the shedded LiPMF. By means of immunohistochemical and immunoassay procedures, we presently show that AD-1, a specific monoclonal antibody originally produced against Mem-LiALP, reacts with LAP, a constituent of the human liver plasma membrane. Using AD-1 as an immunosorbant, we isolated circulating LiPMF from cholestatic sera to a high level of purity and separated it from other high-molecular-mass material, such as liver ALP or similar lipoprotein-X complexes. These purified membrane fragments retained their biochemical characteristics. Glycosyl-phosphatidylinositol anchor bearing liver ALP (Anch-LiALP) could be released from the LiPMF by Triton X-100. Whereas ALP was released upon treatment of AD-1 purified LiPMF with phospholipase C, phospholipase D only cleaved the glycosyl-phosphatidylinositol anchor following detergent solubilization of the enzyme. Serum LiPMF from patients with different kinds of cholestatic liver disease were bound onto AD-1 coated nitrocellulose disks and the activity of four membrane-bound enzymes (LAP, ALP, 5'Nu, gamma-GT) was analyzed. A considerable interindividual variation of enzyme activities was observed, suggesting some heterogeneity in the membrane composition of these fragments.
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PMID:Purification of circulating liver plasma membrane fragments using a monoclonal antileucine aminopeptidase antibody. 861 23

Except for increased serum alkaline phosphatase (AP) levels, the changes in liver function test (LFT) values during normal pregnancy have not been clearly established, mainly because most studies do not include matched controls. We therefore measured the serum values of routine liver tests including 5'-nucleotidase and total bile acids in 103 healthy pregnant women (first trimester, n = 34; second trimester, n = 36; third trimester, n = 33) and in 103 age-matched controls not receiving oral contraception. Fasting blood samples were taken. Because of hemodilution, serum albumin levels were significantly lower during all trimesters. As expected, AP activity was significantly higher in the third trimester. Serum aspartate transaminase (AST) activity and total bile acid (TBA) concentrations did not differ between pregnant and nonpregnant women. Serum alanine transaminase (ALT) activity was slightly higher in the second-trimester pregnant women than in controls (6.8 +/- 4.5 vs. 8.2 +/- 5.8, P = .04), although all values remained within normal limits. In pregnant women, total and free bilirubin concentrations were significantly lower during all three trimesters, as was conjugated bilirubin during the second and third trimesters. Serum gamma-glutamyl transpeptidase (GGT) activity was significantly lower in the second and third trimesters. Serum 5'-nucleotidase activity was slightly but significantly higher in the second and third trimesters. The knowledge of these results is useful for the interpretation of LFT values and the management of liver diseases during pregnancy.
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PMID:Liver function tests in normal pregnancy: a prospective study of 103 pregnant women and 103 matched controls. 862 Nov 29

Liver disease is increasingly recognized as a major cause of morbidity in cystic fibrosis (CF). Preliminary data suggest that ursodeoxycholic acid (UDCA) may be beneficial for treatment of this manifestation. We performed a double-blind, multicenter trial in these patients to establish efficacy and safety of UDCA in terms of the improvement of clinical and nutritional indicators besides standard liver function tests. We also intended to establish whether taurine supplementation has a beneficial effect in patients receiving UDCA. From June to December 1990, we enrolled in 12 centers 55 CF patients with liver disease (39 male subjects; median age, 13.8 years). They were randomly assigned to receive for 1 year one of the following treatments: UDCA (15 mg/kg body weight daily) plus taurine (30 mg/kg body weight daily), UDCA plus placebo, placebo plus taurine, or double placebo. Clinical and laboratory evaluations were performed every 3 months. After 1 year, deterioration of overall clinical conditions, as indicated by the Shwachman-Kulczycki score (SKS), occurred in patients who received placebo but not in those who received UDCA (P = .025). Patients treated with UDCA also showed an improvement in gamma-glutamyl transpeptidase (GGT) (P = .004) and 5'-nucleotidase (P = .006) levels. Treatment with taurine was followed by a significant increase in serum prealbumin levels (P = .053), a trend toward a reduction in fat malabsorption, and no effect on the biochemical profile. No severe side effects occurred with any treatment. Thus, we concluded that UDCA administration improves clinical and biochemical parameters in CF patients with liver disease. Taurine supplementation may be indicated in patients with severe pancreatic insufficiency and poor nutritional status.
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PMID:Ursodeoxycholic acid for liver disease associated with cystic fibrosis: a double-blind multicenter trial. The Italian Group for the Study of Ursodeoxycholic Acid in Cystic Fibrosis. 867 68

In cattle with hepatic lipidosis, hepatic abscessation, leptospirosis, biliary calculi or fasciolosis, the progression of the disease was studied by serial measurements of serum total bile acid concentrations, plasma glutamate dehydrogenase, gamma-glutamyltransferase, 5'-nucleotidase and leucine aminopeptidase activities Terminalia avicennioides and by liver biopsy. Regardless of the cause of the hepatic disease, weight loss, anorexia, dullness and depression were consistent features. Signs of hepatic encephalopathy, such as blindness, head pressing, excitability, ataxia and weakness were less common and, together with pyrexia and jaundice, were grave prognostic signs. Plasma ammonia concentrations were significantly elevated compared to clinically normal cattle, but such changes were not always accompanied by a decline in plasma urea concentrations. In normal, healthy cattle, the plasma ammonia:urea concentration ratio is 9:1 and the plasma ammonia:glucose concentration is 11:1. In hepatic disease, a plasma ammonia:glucose ratio > 40:1 or plasma ammonia:urea ratio > 30:1, particularly with a rising total ketone body concentration and a declining glucose concentration, carried a guarded prognosis. The study suggested that other factors, such as hypokalaemia, alkalosis, short-chain volatile fatty acids, and false and true neuro-transmitters, may be important in the pathogenesis of hepatic coma in cattle.
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PMID:Clinical and pathological studies in cattle with hepatic disease. 909 45

Diagnostic enzymology measures the serum or plasma levels of enzymes that were originally located within the cell, or were attached to its plasma membrane with their active sites exposed to the external milieu. The process by which they are released varies under different physiological and pathological conditions. In this way, shedding of hepatocyte plasma membranes is thought to be responsible for the release of liver plasma membrane fragments (LiPMF) into the circulation in metastatic, infiltrative and cholestatic liver diseases. Several membrane-bound enzymes, such as gamma-glutamyltransferase (gamma-GT), alkaline phosphatase (ALP), leucine aminopeptidase (LAP) and 5'-nucleotidase (5'-Nu) are expressed at the surface of the shedded LiPMF. These enzymes are attached to the cell membrane by means of hydrophobic interactions between the anchoring domain of the enzyme and lipid components of the cell membrane, e.g. through a specific glycan phosphatidylinositol (GPI) anchor. There is a striking homology between these LiPMF and the membrane fragments shedded or actively formed by other cells, such as bone matrix vesicles-rich in bone ALP-, membrane fragments of the syncitiotrophoblast-rich in placental ALP-, and membrane fragments present in duodenal fluid-rich in intestinal ALP. With the exception of LiPMF, membrane-bound (Mem-) forms of ALP are only very exceptionally found in human serum. Normally, the soluble (Sol-ALP) dimeric fractions of the enzyme predominate in serum, but liver, bone, placental and intestinal ALP can also be present as GPI-anchor bearing (Anch-) hydrophobic isoforms. Models for the release in the circulation of Mem-, Anch- and Sol-liver and intestinal ALP, involving both plasma membrane-associated GPI-phospholipase-D (GPI-PLD) and liver bile salts are proposed.
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PMID:How do plasma membranes reach the circulation? 943 85

Curcumin, the active constituent of Curcuma longa, which itself possesses antitumour activity against experimental tumours, enhances the antitumour effect of the widely used anticancer drug cisplatin, when used in combination against fibrosarcoma. Tumour marker enzymes such as aminotransferases, lactate dehydrogenase, gamma-glutamyl transpeptidase, alkaline phosphatase, 5'-nucleotidase were analysed in liver and kidney homogenates of experimental rats. All these enzyme activities were markedly increased in tumour bearing animals. On cisplatin administration, the enzyme levels were decreased but not to near normal values. Curcumin, when treated along with cisplatin brought back the enzyme levels to near the control values. Thus curcumin and cisplatin combination may be worth trying against tumours like fibrosarcoma.
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PMID:Dietary curcumin with cisplatin administration modulates tumour marker indices in experimental fibrosarcoma. 1009 41

We studied the effect of cyclosporin A (CyA) on liver plasma membrane (LPM) composition, fluidity, and functions and on hepatic glutathione (GS) and oxidative status. We also evaluated the ability of S-adenosylmethionine (SAMe) to antagonize the CyA-induced disturbances in rats. The animals were randomly divided into four groups and treated daily with saline, CyA vehicle, CyA, and SAMe plus CyA, respectively, for 1 week. Bile, blood, and liver samples and LPM vesicles were obtained at the end of the treatments. CyA-induced cholestasis was associated with alterations in LPM composition and fluidity. The contents of total phospholipids, phosphatidylcholine, and proteins were decreased and cholesterol and the cholesterol/phospholipid molar ratio increased. Na(+), K(+)-ATPase activity was decreased, whereas those of 5'-nucleotidase, Mg(2+)-ATPase, and gamma-glutamyltransferase increased. The hepatic contents of proteins and GS and the reduced/oxidized glutathione molar ratio were decreased and hepatic malondialdehyde increased. SAMe cotreatment 1) significantly improved or abolished the CyA-induced changes in LPM fluidity and composition and the changes in the activity of the carrier and enzymes tested, 2) counteracted the hepatic depletion of GS and proteins caused by CyA and normalized the reduced/oxidized glutathione ratio, and, as expected, 3) prevented cholestasis and the inhibitory effect of CyA on hepatobiliary transport of the major bile components. We conclude that CyA-induced cholestasis and hepatotoxicity in the rat is associated with changes in LPM composition and fluidity, liver GS depletion, and oxidative stress. SAMe cotreatment significantly improves or totally protects against these hepatotoxic effects.
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PMID:S-Adenosylmethionine protects against cyclosporin A-induced alterations in rat liver plasma membrane fluidity and functions. 1041 91

We studied the value of alkaline phosphatase (AP), gamma-glutamyl transpeptidase (GGT), and 5'-nucleotidase (5'-NU) activities in the diagnosis of intrahepatic (IHC) versus extra-hepatic cholestasis (EHC). Eighty patients were included prospectively. All presented with cholestasis as defined by a concomitant increase in at least two of three cholestatic enzymes (AP, GGT, 5'-NU), a low cytolytic ratio (alanine aminotransferase/AP [xN/xN] < or = 5), and no evidence for associated liver tumor. We compared 43 patients with IHC due to chronic liver disease to 37 patients with EHC due to main bile duct obstruction. Fasting blood samples for activity determination (AP, GGT, 5'-NU) were taken before performing liver biopsy in cases of IHC and before endoscopic or surgical management in cases of EHC. Enzyme activities were compared using univariate and multivariate analysis. AP (276 IU/L [35-3,140] vs. 123 IU/L [37-699]: p < 0.0001), GGT (595 IU/L [98-5,200] vs. 211 IU/L [38-925]; p < 0.0001), and 5'-NU (32 IU/L [10-142] vs. 16 IU/L [4-107]: p < 0.0003) were significantly higher in EHC when compared to IHC. Only in GGT and 5'-NU activities were independent variables significantly linked to the mechanism of cholestasis. In IHC, the ratio GGT/5'-NU (xN/xN) was significantly lower than in EHC (2.8 [0.7-7.2] vs. 3.7 [1.8-10.5]: p < 0.006). A threshold of GGT/5'-NU < 1.9 had a sensitivity of 40% and a specificity of 100% for the diagnosis of IHC. Although such hepatobiliary enzymes cannot be regarded as diagnostic, they can provide useful information to orientate the clinician in the diagnosis of cholestasis.
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PMID:Respective value of alkaline phosphatase, gamma-glutamyl transpeptidase and 5' nucleotidase serum activity in the diagnosis of cholestasis: a prospective study of 80 patients. 1077 84

Bacterial endotoxin (lipopolysaccharide; LPS) given to animals in large doses results in pronounced, midzonal liver injury. Exposure to smaller, non-injurious doses of LPS augments the toxicity of certain hepatotoxicants. This study was conducted to delineate the development of injury in a rat model of augmentation of aflatoxin B(1) (AFB(1)) hepatotoxicity by LPS. At large doses (i.e., > 1 mg/kg, ip), AFB(1) administration resulted in pronounced injury to the periportal regions of the liver. Male, Sprague-Dawley rats (250-350 g) were treated with 1 mg AFB(1)/kg, ip or its vehicle (0.5% DMSO/saline) and 4 h later with either E. coli LPS (7.4 x 106 EU/kg, iv) or its saline vehicle. Liver injury was assessed 6, 12, 24, 48, 72, or 96 h after AFB(1) administration. Hepatic parenchymal cell injury was evaluated as increased alanine aminotransferase (ALT) and aspartate aminotransferase (AST) activities in serum and from histologic examination of liver sections. Biliary tract alterations were evaluated as increased concentration of serum bile acids and activities of gamma-glutamyltransferase (GGT), alkaline phosphatase (ALP), and 5'-nucleotidase (5'-ND) in serum. At all times and for all markers, injury in rats treated with either AFB(1) or LPS alone was absent or modest. In the AFB(1)/LPS cotreated group, hepatic parenchymal cell injury was pronounced by 24 h and had returned to control values by 72 h. The injury began in the periportal region and spread midzonally with time. Furthermore, changes in serum markers indicative of biliary tract alterations were evident by 12 h and had returned to control values by 72 h. Thus, the nature of the hepatic lesions suggested that LPS potentiated the effects of AFB(1) on both parenchymal and bile duct epithelial cells.
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PMID:Bacterial lipopolysaccharide exposure augments aflatoxin B(1)-induced liver injury. 1082 77

Exposure to small, noninjurious doses of the inflammagen, bacterial endotoxin (lipopolysaccharide, LPS) augments the toxicity of certain hepatotoxicants including aflatoxin B(1) (AFB(1)). Mediators of inflammation, in particular neutrophils (PMNs), are responsible for tissue injury in a variety of animal models. This study was conducted to examine the role of PMNs in the pathogenesis of hepatic injury after AFB(1)/LPS cotreatment. Male, Sprague-Dawley rats (250-350 g) were treated with either 1 mg AFB(1)/kg, ip or its vehicle (0.5% DMSO/saline), and 4 h later with either E. coli LPS (7. 4 x 10(6) EU/kg, iv) or its saline vehicle. Over a course of 6 to 96 h after AFB(1) administration, rats were killed and livers were stained immunohistochemically for PMNs. LPS resulted in an increase in PMN accumulation in the liver that preceded the onset of liver injury. To assess if PMNs contributed to the pathogenesis, an anti-PMN antibody was administered to reduce PMN numbers in blood and liver, and injury was evaluated. Hepatic parenchymal cell injury was evaluated as increased alanine aminotransferase (ALT) and aspartate aminotransferase (AST) activities in serum and from histologic examination of liver sections. Biliary tract alterations were evaluated as increased concentration of serum bile acids and activities of gamma-glutamyltransferase (GGT), alkaline phosphatase (ALP), and 5'-nucleotidase (5'-ND) in serum. Neutrophil depletion protected against hepatic parenchymal cell injury caused by AFB(1)/LPS cotreatment but not against markers of biliary tract injury. This suggests that LPS augments AFB(1) hepatotoxicity through two mechanisms: one of which is PMN-dependent, and another that is not.
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PMID:Lipopolysaccharide augments aflatoxin B(1)-induced liver injury through neutrophil-dependent and -independent mechanisms. 1105 57


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