EC:2.6.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.1 (aspartate aminotransferase)
21,665 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ribosomal protein S6 (RPS6) is located in the mRNA binding site of the 40S subunit of cytosolic ribosomes. Two maize (Zea mays) rps6 genes were identified that encode polypeptides (30 kD, 11.4 pI) with strong primary amino acid sequence and predicted secondary structure similarity to RPS6 of other eukaryotes. Maize RPS6 was analyzed by the use of two-dimensional gel electrophoresis systems, in vivo labeling with [(32)P]P(i) and immunological detection. Nine RPS6 isoforms were resolved in a two-dimensional basic-urea/sodium dodecyl sulfate-polyacrylamide gel electrophoresis system. Matrix-assisted laser desorption ionization time-of-flight mass spectrometry performed on trypsin-digested isoforms identified four serine (Ser) and one threonine (Thr) residue in the carboxy-terminal region as phosphorylation sites (RRS(238)KLS(241)AAAKAS(247)AAT(250)S(251)A-COOH). Heterogeneity in RPS6 phosphorylation was a consequence of the presence of zero to five phosphorylated residues. Phosphorylated isoforms fell into two groups characterized by (a) sequential phosphorylation of Ser-238 and Ser-241 and (b) the absence of phospho-Ser-238 and presence of phospho-Ser-241. The accumulation of hyper-phosphorylated isoforms with phospho-Ser-238 was reduced in response to oxygen deprivation and heat shock, whereas accumulation of these isoforms was elevated by cold stress. Salt and osmotic stress had no reproducible effect on RPS6 phosphorylation. The reduction in hyper-phosphorylated isoforms under oxygen deprivation was blocked by okadaic acid, a Ser/Thr phosphatase inhibitor. By contrast, the recovery of hyper-phosphorylated isoforms upon re-oxygenation was blocked by LY-294002, an inhibitor of phosphatidylinositol 3-kinases. Thus, differential activity of phosphatase(s) and kinase(s) determine complex heterogeneity in RPS6 phosphorylation.
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PMID:Regulated phosphorylation of 40S ribosomal protein S6 in root tips of maize. 1291 63

Adenovirus serotype 5 (Ad5)-based vectors can bind at least three separate cell surface receptors for efficient cell entry: the coxsackie-adenovirus receptor (CAR), alpha nu integrins, and heparan sulfate glycosaminoglycans (HSG). To address the role of each receptor involved in adenoviral cell entry, we mutated critical amino acids in fiber or penton to inhibit receptor interaction. A series of five adenoviral vectors was prepared and the biodistribution of each was previously characterized in mice. To evaluate possible species differences in Ad vector tropism, we characterized the effects of each detargeting mutation in non-human primates after systemic delivery to confirm our conclusions made in mice. In non-human primates, CAR was found to have minimal effects on vector delivery to all organs examined including liver and spleen. Cell-surface alpha nu integrins played a significant role in delivery of vector to the spleen, lung and kidney. The fiber shaft mutation S*, which presumably inhibits HSG binding, was found to significantly decrease delivery to all organs examined. The ability to detarget the liver corresponded with decreased elevations in liver serum enzymes (aspartate transferase [AST] and alanine transferase [ALT]) 24 hr after vector administration and also in serum interleukin (IL)-6 levels 6 hr after vector administration. The biodistribution data generated in cynomolgus monkeys correspond with those data derived from mice, demonstrating that CAR binding is not the major determinant of viral tropism in vivo. Vectors containing the fiber shaft modification may provide for a detargeted adenoviral vector on which to introduce new tropisms for the development of targeted, systemically deliverable adenoviral vectors for human clinical application.
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PMID:Receptor interactions involved in adenoviral-mediated gene delivery after systemic administration in non-human primates. 1463 2

Oral adsorbent, AST-120 removes uremic toxins (such as indoxyl sulfate) and retards the progression of chronic renal failure (CRF). However, its mechanism of action has not been precisely clarified. Since indoxyl sulfate elicits renal tubular nuclear factor-kappaB (NF-kappaB) activation in vitro, the present experiments were conducted to elucidate the involvement of NF-kappaB in the beneficial effects of AST-120 using rats with 3/4 nephrectomy, a model of early-stage CRF. Daily administration of AST-120 was started at 6 weeks after 3/4 nephrectomy and continued for 18 weeks. Sham-operated rats, untreated CRF rats and AST-120-treated CRF rats were compared for NF-kappaB DNA-binding activity, gene expression and renal histology. Systolic blood pressure was increased in CRF rats, and this increase was not affected by AST-120. Blood urea nitrogen, serum creatinine and urinary protein were increased in CRF rats. Although AST-120 attenuated these increases, it did not do so to a statistically significant extent. Indoxyl sulfate, which was accumulated in serum of CRF rats, was significantly eliminated by AST-120. Renal cortical NF-kappaB DNA-binding activity was increased in CRF rats. AST-120 significantly inhibited this increase. Monocyte/macrophage infiltration and increased monocyte chemoattractant protein-1 (MCP-1) mRNA observed in CRF rats were attenuated by AST-120. Furthermore, AST-120 significantly blocked renal fibrosis with concomitant inhibition of transforming growth factor beta1 (TGF-beta1) gene expression. It appeared that AST-120 reduced NF-kappaB activation and possibly the activity of NF-kappaB-dependent pathways of interstitial inflammation including MCP-1 expression and macrophage infiltration. The anti-inflammatory effect of AST-120 mediated via inhibition of NF-kappaB is a possible mechanism by which AST-120 retards the progression of renal fibrosis in CRF.
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PMID:Possible involvement of nuclear factor-kappaB inhibition in the renal protective effect of oral adsorbent AST-120 in a rat model of chronic renal failure. 1465 84

A procedure for isolation and purification of aspartate aminotransferase from wheat grain includes chromatography on DEAE cellulose, acidification-alkalization, precipitation with protamine sulfate, fractionation with ammonium sulfate, and chromatography on hydroxyapatite. The yield of protein was 27% with 95% purity. Crystals of the enzyme (0.05 x 0.025 x 0.015 mm3) were obtained from ammonium sulfate solution.
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PMID:Isolation, purification, and crystallization of aspartate aminotransferase from wheat grain. 1537 70

The effect of taurine intake on the biliary disposition and toxicity of acetaminophen (APAP) was examined in male Golden-Syrian hamsters. Animals were provided with taurine (5 mM) in drinking water for 1 week followed by APAP treatment (250 mg/kg, i.p.). Biliary excretion and plasma concentrations of APAP and its major metabolites were determined for up to 360 min. Taurine increased the bile flow, whereas the concentration of APAP or the metabolites in bile was not altered significantly. Accordingly the total biliary excretion of APAP and the metabolites was increased in hamsters fed taurine. Taurine increased the plasma concentrations of APAP-glutathione (GSH) and APAP-mercapturate, but the APAP-glucuronide or APAP-sulfate concentration was not changed. The area under the curve of the plasma APAP concentration was reduced significantly, suggesting that the elimination of APAP was enhanced by taurine intake. However, the hepatotoxicity resulting from a dose of APAP (450 mg/kg, i.p.) was not altered by taurine intake as determined by the elevation of serum alanine aminotransferase, aspartate aminotransferase, and sorbitol dehydrogenase activities. The results suggest that taurine administration could affect the disposition of APAP by enhancing its metabolism through the GSH-dependent pathway and also by increasing the biliary excretion of this drug and its metabolites. The pharmacological significance of this finding remains to be examined.
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PMID:Effect of taurine on biliary excretion and metabolism of acetaminophen in male hamsters. 1551 25

This study was planned to determine the protective role of zinc, if any, in attenuating the toxicity induced by nickel sulfate in rat liver. Female Sprague Dawley (SD) rats received either nickel alone in the dose of 800 mg/l in drinking water, zinc alone in the dose of 227 mg/l in drinking water, and nickel plus zinc or drinking water alone for a total duration of eight weeks. The effects of different treatments were studied on various parameters in rat liver which include antioxidant enzymes, levels of nickel and zinc and histoarchitecture at the light microscopic level. Further, the activities of hepatic marker enzymes AST and ALT were also studied in rat serum. Nickel treatment to the normal control animals, resulted in a significant increase in lipid peroxidation and enzyme activities of catalase and glutathione-S-transferase. On the contrary, nickel treatment to normal rats caused a significant inhibition in the levels of reduced glutathione. Superoxide dismutase activity was found to be decreased which however was not significant. Interestingly, when Zn was supplemented to nickel treated rats, the activities of catalase, and glutathione-S-transferase and the levels of GSH and lipid peroxidation came back to within normal limits. Activities of serum AST and ALT were increased significantly following nickel treatment to normal rats. Simultaneous zinc administration to nickel treated rats tended to restore the altered levels of AST and ALT. Normal control and zinc treated animals revealed normal histology of liver. On the other hand, nickel treated animals showed alterations in normal hepatic histoarchitecture which comprise of vacuolization of the hepatocytes and dilatation of sinusoids as well as increase in the number of bi-nucleated cells. Administration of zinc to nickel treated rats resulted in marked improvement in the structure of hepatocytes, thus emphasizing the protective potential of zinc in restoring the altered hepatic histoarchitecture. The nickel administration to normal rats indicated increased concentrations of nickel and decreased concentrations of zinc. However, zinc effectively brought the altered levels of nickel and zinc to within normal range. The study concludes that zinc has the potential in alleviating the toxic effects of nickel in rat liver because of its property to induce metallothionein (S-rich protein) as a free radical scavenger, or its indirect action in reducing the levels of oxygen reactive species.
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PMID:Protective role of zinc in nickel induced hepatotoxicity in rats. 1553 90

An outbreak of footrot occurred in a flock of Corriedale sheep; 27 animals were treated with antibiotic and footbathed in a 5% copper sulfate solution. Being deprived of water for > 17 h, many sheep drank the footbath solution. After 6 h 16 sheep became ill with acute copper poisoning, 10 animals died within 10 h; 6 were severely ill and were sent to Veterinary Hospital, and 4 had mild signs and recovered without treatment. The sick sheep had anorexia, dullness, grinding teeth, moaning, rumen atony, dehydration, dark blue-green diarrheic feces and congested membranes. They were treated with 3.4 mg tetrathiomolybdate/kg body weight and lactated Ringer's solution iv, oral molybdate, sulfate, kaolin and pectin, and drenched with antacids. Two of the 6 sheep died during hospitalization. The ingestion of copper solution caused an intense gastrointestinal injury that resulted in ulcers, petechial and echymotic hemorrhages in the mucosa, mild hemolysis detected by microscopic hemoglobinuria and a lowered packed cell volume, severe hepatic injury that raised the AST and gammaGT blood values, and moderate kidney lesions with increasing serum blood urea and nitrogen creatinine levels.
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PMID:Acute sheep poisoning from a copper sulfate footbath. 1558 48

MRP3 is an ABC transporter localized in the basolateral membrane of epithelial cells such as hepatocytes and enterocytes. In this study, the role of Mrp3 in drug disposition was investigated. Because Mrp3 preferentially transports glucuronide conjugates, we investigated the in vivo disposition of acetaminophen (APAP) and its metabolites. Mrp3+/+ and Mrp3-/- knockout mice received APAP (150 mg/kg), and bile was collected. Basolateral and canalicular excretion of APAP was also assessed in the isolated perfused liver. In separate studies, mice received 400 mg APAP/kg for assessment of hepatotoxicity. No differences were found in the biliary excretion of APAP, APAP-sulfate, and APAP-glutathione between Mrp3+/+ and Mrp3-/- mice. However, 20-fold higher accumulation of APAP-glucuronide (APAP-GLUC) was found in the liver of Mrp3-/- mice. Concomitantly, plasma APAP-GLUC content in Mrp3-/- mice was less than 10% of that in Mrp3+/+ mice. In addition, APAP-GLUC excretion in bile of Mrp3-/- mice was tenfold higher than in Mrp3+/+ mice. In the isolated perfused liver, we also found a strong decrease of APAP-GLUC secretion into the perfusate of Mrp3-/- livers. Plasma alanine aminotransferase (ALT), aspartate aminotransferase (AST), and histopathology showed that Mrp3-/- mice are more resistant to APAP hepatotoxicity than Mrp3+/+ mice, which is most likely a result of the faster repletion of hepatic GSH. In conclusion, basolateral excretion of APAP-GLUC in mice is nearly completely dependent on the function of Mrp3. In its absence, sufficient hepatic accumulation occurs to redirect some of the APAP-GLUC to bile. This altered disposition in Mrp3-/- mice is associated with reduced hepatotoxicity.
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PMID:Altered disposition of acetaminophen in mice with a disruption of the Mrp3 gene. 1625 50

This study was designed to determine the toxic effects of nickel sulfate on the biochemical and elemental profile of liver in protein deficient rats. Nickel sulfate in the dose of 800mg/l in drinking water was administrated to Sprauge Dawley (S.D) normal control as well as protein deficient rats for a total duration of eight weeks. The effects of nickel treatment and protein deficiency when given separately and in combination were studied on rat liver marker enzymes like Alkaline phosphatase (ALP),Glutamate oxaloacetate transaminase (GOT), Glutamate pyruvate transaminase (GPT) and also on the status of essential elements in rat liver. Protein deficient, Ni treated as well as combined protein deficient and nickel treated rats showed significant reductions in the body weight and hepatic protein contents as compared to normal control rats. Hepatic alkaline phosphatase activity and alanine aminotransferase showed a significant elevation in rats subjected to protein deficiency, nickel treatment and combined protein deficiency and nickel treatment. As regards to hepatic levels of aspartate aminotransferase a significant elevation was observed in protein deficient and nickel treated protein deficient animals. Nickel administration to normal and protein deficient rats has resulted in a significant increase in concentrations of nickel, phosphorus and sulfur in liver tissue. The concentration of zinc and copper in liver tissue decreased significantly in protein deficient, nickel treated and nickel treated protein deficient animals. Tissue iron concentrations were found to be decreased in protein deficient animals, but the concentrations of iron got elevated significantly in nickel treated and nickel treated protein deficient animals. It has been observed that selenium got decreased significantly in protein deficient, nickel treated and nickel treated protein deficient animals when compared to normal animals. The elevation of selenium in nickel treated protein deficient animals was also significantly higher when compared to protein deficient animals.
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PMID:Ineffectiveness of nickel in augmenting the hepatotoxicity in protein deficient rats. 1633 21

Fibrosis plays a role in the pathogenesis of progressive chronic kidney disease (CKD). The inhibition of the renin-angiotensin system, which promotes fibrosis, has become the standard of care in the treatment of patients with CKD. A novel charcoal compound, AST-120, has been used for over a decade in Japan to prevent progression of CKD. It is thought that the oral administration of AST-120 blocks the intestinal absorption of tryptophan-derived indole. This prevents the hepatic conversion of indole to indoxyl sulfate (IS). IS has been shown to stimulate the production of profibrotic cytokines such as transforming growth factor-beta. AST-120 lowers IS in a dose dependent fashion and does not change the creatinine appearance rate in the urine. Enteric capsules containing Bifidobacterium longum have been shown to prevent progression of CKD in a preliminary study. These findings suggest that prospective clinical trials be undertaken to determine if these other potential methods of inhibiting fibrosis are useful in slowing progressive CKD.
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PMID:A nexus of progression of chronic kidney disease: charcoal, tryptophan and profibrotic cytokines. 1636 55

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