EC:2.6.1.1 - FACTA Search

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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)

Increased serum activities of the enzymes alanine aminotransferase (ALT) and aspartate aminotransferase (AST) occurred in 12 out of 19 patients with idiopathic parkinsonism when they were treated with the ergot derivative lergotrile at an oral dose varying from 50 to 150 mg daily. Hepatocellular injury was confirmed by microscopic examination of liver biopsies obtained from 3 of these patients when the serum activities of ALT and AST were appreciably elevated. Light microscopy revealed features of mild acute hepatocellular injury, and electron microscopy showed proliferation of the smooth endoplasmic reticulum and apparently unique mitochondrial changes in hepatocytes. This is the first report of pathological changes in the liver associated with the therapeutic use of an ergot derivative. The presence of a potentially reactive cyanide group in the lergotrile molecule could be causally related to the observed hepatocellular injury. It is suggested that serum ALT and AST activities should be monitored carefully when the therapeutic potential of any new ergot derivative is assessed.
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PMID:Hepatocellular injury with distinctive mitochondrial changes induced by lergotrile mesylate: a dopaminergic ergot derivative. 3 55

We have developed a sensitive method for the measurement of rhodanese activity in human serum which is based on the colorimetric method for the determination of thiocyanate produced from methanethiosulfonate and cyanide as substrates. Thiocyanate gives a red complex with ferric ion in an acidic condition. The present method is about 70-fold more sensitive than the conventional method using cyanide and thiosulfate as substrates and correlates well (r = 0.997) with the conventional method in bovine liver rhodanese. Within-run precision of the method is 0.91% for 420 units/l serum and the calibration curve is linear up to 1850 units/l. The normal value for human serum, determined by the present method on 31 healthy persons, was 20.9 +/- 20.0 units/l (mean +/- 2S.D.). Rhodanese activity was clearly elevated in some serum samples which were observed at abnormal values in some biochemical diagnostic tests and showed significant positive correlations with guanase activity (r = 0.728, p less than 0.01) and glutamic-oxalacetic transaminase activity (r = 0.625, p less than 0.01).
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PMID:Improved method for measurement of rhodanese activity using methanethiosulfonate as sulfur donor substrate and its application to human serum. 166 23

Both the precursor and the mature form of mitochondrial aspartate aminotransferase were synthesized in a cell-free coupled transcription/translation system directed by the recombinant expression plasmid pOTS-pmAspAT and pOTS-mAspAT, respectively. Both newly synthesized forms of the protein were imported into isolated mitochondria, with the precursor correctly processed to the mature form. In both cases the import process showed resistance to externally added pronase and was abolished in mitochondria treated with the uncoupler carbonyl cyanide m-chlorophenylhydrazone. Moreover the imported products showed the same intramitochondrial localization as judged by a subfractionation procedure. In both cases import was time dependent and was completed in about 15 min. Finally a competitive inhibition of the import of the precursor of aspartate aminotransferase was found due to externally added purified aspartate aminotransferase.
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PMID:The in vitro-synthesized precursor and mature mitochondrial aspartate aminotransferase share the same import pathway in isolated mitochondria. 192 19

Since ethanol consumption decreases hepatic aminotransferase activities in vivo, mechanisms of ethanol-mediated transaminase inhibition were explored in vitro using mitochondria-depleted rat liver homogenates. When homogenates were incubated at 37 degrees with 50 mM ethanol for 1 hr, alanine aminotransferase decreased by 20%, while aspartate aminotransferase was unchanged. After 2 hr, aspartate aminotransferase decreased by 20% and by 3 hr, alanine and aspartate aminotransferases were decreased by 31 and 23%, respectively. Levels of acetaldehyde generated during ethanol oxidation were 525 +/- 47 microM at 1 hr, 855 +/- 14 microM at 2 hr, and 1293 +/- 140 microM at 3 hr. Although inhibition of alcohol oxidation with methylpyrazole or cyanide markedly decreased ethanol-mediated transaminase inhibition, neither incubation with acetate nor generation of reducing equivalents by oxidation of lactate, malate, xylitol, or sorbitol altered the activity of either enzyme. However, semicarbazide, an aldehyde scavenger, prevented inhibition of both aminotransferases by ethanol. Moreover, incubation with 5 mM acetaldehyde for 1 hr inhibited alanine and aspartate aminotransferases by 36 and 26%, respectively. Cyanamide, an aldehyde dehydrogenase inhibitor, had little effect on ethanol-mediated transaminase inhibition. Thus, metabolism of ethanol by rat liver homogenates produces transaminase inhibition similar to that described in vivo and this effect requires acetaldehyde generation but not acetaldehyde oxidation. Since addition of pyridoxal 5'-phosphate to assay mixes did not reverse ethanol effects, aminotransferase inhibition does not result from displacement of vitamin B6 coenzymes.
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PMID:Evidence for the generation of transaminase inhibitor(s) during ethanol metabolism by rat liver homogenates: a potential mechanism for alcohol toxicity. 366 1

Mitochondrial aspartate aminotransferase is synthesized on free polysomes as a higher molecular weight precursor (Sonderegger, P., Jaussi, R., Christen, P., and Gehring, H. (1982) J. Biol. Chem. 257, 3339-3345). The present study examines whether the coenzyme pyridoxal phosphate or pyridoxamine phosphate is required for the uptake of the precursor into mitochondria. Chicken embryo fibroblasts were cultured in medium prepared with and without pyridoxal. In cells grown in the presence of pyridoxal only holoform of aspartate aminotransferase and no apoenzyme was detected. Cells cultured under pyridoxal deficiency contained about 30% of apoenzyme in secondary cultures. All of this apoform was identified as mitochondrial isoenzyme. In order to differentiate whether this apoenzyme corresponded to newly synthesized protein or originated from pre-existing holoenzyme, double isotope-labeling experiments were performed. Secondary cultures of chicken embryo fibroblasts grown under pyridoxal depletion were labeled with [3H]methionine, and then pulsed with [35S]methionine. In another series of experiments, the 3H-labeled cells were pulsed with [35S]methionine in the presence of the protonophore carbonyl cyanide m-chlorophenylhydrazone in order to accumulate the precursor. Subsequently, the accumulated precursor was chased into the mitochondria by addition of the carbonyl cyanide m-chlorophenylhydrazone antagonist cysteamine. The holo- and apoenzyme from the ultrasonic extract of the double-labeled cells were separated by affinity chromatography on a phosphopyridoxyl-AH-Sepharose column, immunoprecipitated, and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fluorography. Under both experimental conditions, the 3H/35S ratio of the apoenzyme was less than half of that of the holoenzyme. Therefore, the apoenzyme and not the holoenzyme is the first product of the precursor in the mitochondria. Apparently, the precursor of mitochondrial aspartate aminotransferase is transported into mitochondria as apoprotein and is processed there independently of the coenzyme.
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PMID:The precursor of mitochondrial aspartate aminotransferase is translocated into mitochondria as apoprotein. 373 49

The import of the precursor of mitochondrial aspartate aminotransferase was reconstituted in vitro with isolated mitochondria thus corroborating the earlier conclusion of a post-translational uptake. The higher Mr precursor was synthesized in a reticulocyte lysate programmed with free polysomes from chicken liver. After incubation with intact mitochondria from chicken heart about 50% of the precursor was converted to the mature form in a time-dependent process, its rate being a function of the amount of mitochondria added. The same amount of precursor was processed to the mature form on addition of a mitochondrial extract. No conversion to the mature enzyme took place when the precursor was incubated with intact mitochondria in the presence of the uncoupling agent carbonyl cyanide m-chlorophenylhydrazone or of the chelator o-phenanthroline which penetrates the mitochondrial inner membrane. In contrast, the chelator bathophenanthroline disulfonate which does not diffuse into the mitochondrial matrix did not inhibit the appearance of the mature form. The results indicate that that precursor must pass through an energized inner mitochondrial membrane before it is processed by a chelator-sensitive protease in the mitochondrial matrix. Excess mature mitochondrial aspartate aminotransferase did not compete with the precursor for its uptake into mitochondria. Mature mitochondrial aspartate aminotransferase is an alpha 2-dimer with Mr = 2 X 45,000. Both the precursor synthesized in a rabbit reticulocyte lysate and the precursor accumulated in the cytosol of carbonyl cyanide m-chlorophenylhydrazone-treated chicken embryo fibroblasts were found to exist as homodimer or hetero-oligomer and high Mr complexes (Mr greater than 300,000).
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PMID:In vitro import into mitochondria of the precursor of mitochondrial aspartate aminotransferase. 394 Oct 76

Cytoskeleton inhibitors were tested in chicken embryo fibroblast cultures for possible effects on the import of the precursor of mitochondrial aspartate aminotransferase into mitochondria. Vinblastine (50 microM) increased the steady-state pool of the precursor 2.5-fold in pulse experiments with [35S]methionine. If the precursor was accumulated during a pulse in the presence of the uncoupler carbonyl cyanide m-chlorophenylhydrazone (CCCP) and then chased under diluting CCCP, vinblastine (50 microM) prolonged the half-life of the precursor from 0.5 min in the control to 3 min. Other cytoskeleton inhibitors, i.e. vincristine (25 to 150 microM), colchicine (50 microM), nocodazole (50 microM), podophyllotoxin (50 microM), taxol (45 microM), cytochalasin D (20 microM) and phalloidin (25 microM) did not show this effect. The observed inhibition by vinblastine does not seem to relate to its action on microtubuli.
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PMID:Vinblastine inhibits the maturation of the precursor of mitochondrial aspartate aminotransferase. Vincristine and six other cytoskeleton inhibitors do not show this effect. 613 15

1. The effects of various inhibitors of electron transport and of oxidative phosphorylation and the effects of ionophores on the uptake of native aspartate aminotransferase into mitochondria were investigated. 2. Both antimycin and cyanide completely inhibited the uptake of the enzyme. On the other hand, uptake was stimulated to ATP and by oligomycin; however, the stimulation by ATP is inhibited by oligomycin. 3. The effects of ionophores of the valinomycin type in media containing K+ ions depended on the conditions used. Valinomycin alone stimulated the uptake of the enzyme, but in the presence of phosphate ions uptake was abolished. Nonactin was without effect at a low K+ concentration, but was stimulatory at 100 mM-KCl. Gramicidin also stimulated the uptake process. 4. Nigericin completely abolished uptake of aspartate aminotransferase into mitochondria. 5. The uptake of te enzyme was decreased by 18% in the absence of inhibitors or ionophores when the external pH was increased from 6.9 to 7.6. 6. These results indicate that ATP is not directly involved in the uptake of aspartate aminotransferase into mitochondria, neither is there a requirement for a cation gradient. Rather the uptake depends on the maintenance of a pH gradient across the mitochondrial inner membrane.
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PMID:Uptake of aspartate aminotransferase into mitochondria in vitro depends on the transmembrane pH gradient. 709 21

In chicken embryo fibroblasts pulsed wih [35S]methionine, a precursor of mitochondrial aspartate aminotransferase with higher molecular weight (delta Mr approximately 3000) was detected by immunoprecipitation and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Peptide mapping of the precursor and the mature enzyme confirmed their precursor-product relationship. No precursor of the homologous cytosolic isoenzyme was found. The precursor of the mitochondrial isoenzyme is synthesized on membrane-free polysomes in the cytosol (Sonderegger, P., Jaussi, R., Christen, P., and Gehring, H. (1982) J. Biol. Chem. 257, 3339-3345); its half-life is 30 to 60 s. The pronounced susceptibility of the precursor toward exogenous proteases contrasts the stability of the mature enzyme and thus indicates that the conformation or the quarternary structure of the protein must change concomitantly with its import into mitochondria. Administration of the protonophore carbonyl cyanide m-chlorophenylhydrazone (CCCP) to the cell cultures blocks the import of many matrix and inner membrane proteins into mitochondria. The precursor of mitochondrial aspartate aminotransferase is found to be accumulated in the cytosol. However, its steady state concentration in CCCP-treated cells exceeds the concentration in untreated cells by not more than 1 order of magnitude. During a chase, the radioactive precursor disappears with a half-life of approximately 5 with min without formation of mature enzyme. Thus, in CCCP-treated cells, a degradative process is limiting the accumulation of the precursor in the cytosol. When the chase is performed in the presence of cysteamine, an antagonist of CCCP, the precursor is processed to the mature enzyme. Newly synthesized cytosolic aspartate aminotransferase is not degraded.
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PMID:Biosynthesis and topogenesis of aspartate aminotransferase isoenzymes in chicken embryo fibroblasts. The precursor of the mitochondrial isoenzyme is either imported into mitochondria or degraded in the cytosol. 714 50

The rat liver rhodanese (thiosulphate: cyanide sulfurtransferase EC 2.6.1.1) has been immobilized on polyacrylamide gels. The immobilized enzyme had a pH optimum of 7.4 and Km values of 3.25 mM and 1.12 mM for S2O3(2-) and KCN, respectively. The enzyme was competitively inhibited by NaNO2 and CH3COONa and noncompetitively by amyl-nitrite. A modulation of activity was observed in the presence of Ca2+, Zn2+, and Cu2+. The results are discussed in line with the detoxicating function of liver rhodanese.
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PMID:Immobilized rhodanese: some aspects of anion inhibition kinetics and modulation by cations. 835 60

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