EC:1.2.1.13 - FACTA Search

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Query: EC:1.2.1.13 (glyceraldehyde-3-phosphate dehydrogenase)
6,511 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activities of Mg(2+)-dependent and Na(+)-K(+)-stimulated ATPase in homogenates of rat retina were measured in the presence of increasing concentrations of oxidized glutathione (GSSG). The Mg(2+)-ATPase was not inhibited by GSSG at any of the concentrations tested. The Na(+)-K(+)-stimulated ATPase was not inhibited by 1 mM GSSG, but its activity was decreased by 20 and 35%, respectively, in the presence of 5 and 10 mM GSSG. Other enzymatic measurements using supernatant fractions of rat retina showed that 1-10 mM GSSG did not inhibit the activities of hexokinase, glucose-6-phosphate dehydrogenase, or glyceraldehyde-3-phosphate dehydrogenase. These results suggest that GSSG is not likely to exert significant deleterious changes on cellular processes, at least in cells and tissues in which normal glutathione (GSH) concentration is 2 mM or lower.
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PMID:Effects of oxidized glutathione on ATPase activities in rat retina. 165 10

Post-mortem biochemical analyses of dog lenses and of aqueous humour of a 2 year oral toxicity study in the dog with Fluvastatin (control, 1, 8 and 16 mg/kg/day) did not show any relationship to the observed lens opacities (3 animals out of 8 at 16 mg/kg/day). With respect to lens transparency, a daily dosage of 8 mg/kg/day Fluvastatin to dogs over a period of 2 years is non-cataractogenic. Mean data on lenticular enzyme activities (GPX, G6PH, GAPDH, ALD, AR, LDH, PFK and SDH) as well as measurements of GSH/GSSG, ATP, ADP, AMP, Gluc, Fruc, Sorb, G6P and F6P do not indicate changes which may directly lead to lens opacifications. Conformational changes of lens proteins (heat lability of PFK-activity), a shift in the albumin/IgG ratio of aqueous humour and equatorial lens protein composition changes (after isoelectrofocusing) were observed. The biological significance of these changes is unknown as the non-cataractogenic dose for lens opacities in beagle dogs is 8 mg/kg/day.
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PMID:Post-mortem biochemistry of beagle dog lenses after treatment with Fluvastatin (Sandoz) for 2 years at different dose levels. 215 8

The activity of the thiol-dependent enzyme glyceraldehyde-3-phosphate dehydrogenase (GPD), in vertebrate cells, was modulated by a change in the intracellular thiol:disulfide redox status. Human lung carcinoma cells (A549) were incubated with 1-120 mM H2O2, 1-120 mM t-butyl hydroperoxide, 1-6 mM ethacrynic acid, or 0.1-10 mM N-ethylmaleimide for 5 min. Loss of reduced protein thiols, as measured by binding of the thiol reagent iodoacetic acid to GPD, and loss of GPD enzymatic activity occurred in a dose-dependent manner. Incubation of the cells, following oxidative treatment, in saline for 30 min or with 20 mM dithiothreitol (DTT) partially reversed both changes in GPD. The enzymatic recovery of GPD activity was observed either without addition of thiols to the medium or by incubation of a sonicated cell mixture with 2 mM cysteine, cystine, cysteamine, or glutathione (GSH); GSSG had no effect. Treatment of cells with buthionine sulfoximine (BSO) to decrease cellular GSH by varying amounts caused a dose-related increase in sensitivity of GPD activity to inactivation by H2O2 and decreased cellular ability for subsequent recovery. GPD responded in a similar fashion with oxidative treatment of another lung carcinoma cell line (A427) as well as normal lung tissue from human and rat. These findings indicate that the cellular thiol redox status can be important in determining GPD enzymatic activity.
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PMID:Cellular recovery of glyceraldehyde-3-phosphate dehydrogenase activity and thiol status after exposure to hydroperoxides. 229 24

The redox status of three biological components capable of undergoing oxidation-reduction reactions, glutathione, NAD and NADP, were determined in muscle tissues of young and old rats. A considerable increase in the relative concentration of the oxidized form, at the expense of the reduced one was found in the old tissue reflecting a significantly less reducing environment than in young cells. The effects of varying the ratio of reduced/oxidized glutathione in vitro on the activity of the enzyme glyceraldehyde-3-phosphate dehydrogenase extracted from young and old animals were compared. It was found that concentrations of GSSG as found in old muscle tissue do not affect enzyme samples extracted from young muscle. The accumulation of oxidized glutathione observed in old cells does not, therefore, directly cause the age-related activity loss of this enzyme.
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PMID:Age-related changes in the redox status of rat muscle cells and their role in enzyme-aging. 398 83

A human small cell lung cancer cell line, U-1906, developed altered functional properties upon continuous in vitro cultivation. Cells obtained at late (U-1906 L) and early (U-1906 E) passages of cultivation differ in drug resistance to the cytostatic therapeutic agents cisplatin and doxorubicin. The U-1906 L cells are 1.6-fold and 1.3-fold more resistant to cisplatin and doxorubicin respectively, than are the U-1906 E cells. In the more resistant U-1906 L cells, the total glutathione (GSH plus GSSG) level is 40% lower, whereas the activities of GSH-linked enzymes such as GSH peroxidase and GSH transferases are significantly higher. Quantitative analysis with isoenzyme-specific ELISAs demonstrated increased concentrations of all three of the measurable GSTs, M1-1, M3-3 and P1-1, in the more resistant cells. The intracellular protein expression patterns of the U-1906 E and the U-1906 L cells are very similar as revealed by two-dimensional denaturing electrophoresis, but show significant alterations in the concentrations of some components. Two 35 kDa proteins of different pI values, the concentrations of which are increased in the U-1906 L cells, were both identified as glyceraldehyde-3-phosphate dehydrogenase, either by N-terminal or by internal amino acid sequence analysis. The present study demonstrates that the increased resistance of the U-1906 L cells may involve multiple detoxification mechanisms and that the contribution of the GSH-linked detoxification can be ascribed to the elevation of cytosolic GST isoenzymes, GSH peroxidase and glutathione reductase, rather than to the intracellular GSH concentrations.
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PMID:Acquired resistance to cisplatin and doxorubicin in a small cell lung cancer cell line is correlated to elevated expression of glutathione-linked detoxification enzymes. 802 Jan 51

In this report the protein human glyceraldehyde-3-phosphate dehydrogenase (GAPDH) has been examined to clarify the roles of (a) direct oxidation and (b) thiol-disulphide exchange (with glutathione disulphide) on the modification of its catalytic activity. An in vitro system using purified human GAPDH and [35S]-GSSG (glutathione disulphide), has permitted clarification of these possibilities by showing that S-glutathionylation of GAPDH does not result in an inactivation of the enzyme. Rather, the direct oxidation of GAPDH with hydrogen peroxide is responsible for inhibition of the catalytic activity of the protein. Furthermore, pre-treatment of the enzyme with hydrogen peroxide enhances the formation of glutathione-GAPDH mixed disulphides in the presence of glutathione disulphide. This may serve as a molecular "switch" directing the protein to other reported functions in the cell. It is also shown that the efficiency of S-glutathionylation of either native or oxidised GAPDH is enhanced by the presence of recombinant glutaredoxin (thiol transferase) of either bacterial or human origin. Under the conditions of analysis the glutaredoxin itself is also shown to readily undergo S-glutathionylation external to its active site. Taken together, the data indicate the complexity of mechanisms likely to be involved in regulating cellular proteins during oxidative stress and implicate controlled enzyme-catalysed S-glutathionylation as a potential selectivity factor in the redox modification of protein function by glutathione.
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PMID:Studies on the mechanism of oxidative modification of human glyceraldehyde-3-phosphate dehydrogenase by glutathione: catalysis by glutaredoxin. 964 55

The findings in this article illustrate the complexity residing in the regulation of reversible S-glutathionylation of proteins, such as GAPDH. This is clearly reflected in the design of suitable experimental approaches designed to cope with the interaction of several redox-dependent factors. Clear interactions are demonstrated between oxidative modification of GAPDH and its subsequent S-glutathionylation. Similarly, a redox interaction between GSSG and GAPDH with Grx as the catalyst is shown, suggesting that the Grx molecule may participate in catalytic S-glutathionylation in intact cells. Furthermore, Grx itself can readily undergo S-glutathionylation, indicating the potential for regulation of this catalyst of the reversible S-glutathionylation of other proteins. The methodologies detailed in this work may provide a good reference point for other attempts to elucidate the mechanism of reversible S-glutathionylation of purified proteins in a manner that more closely resembles the situation arising in intact cells during the generation of oxidative stress.
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PMID:S-glutathionylation of glyceraldehyde-3-phosphate dehydrogenase: role of thiol oxidation and catalysis by glutaredoxin. 1188 70

Glutaredoxin (GRx, thioltransferase) is implicated in cellular redox regulation, and it is known for specific and efficient catalysis of reduction of protein-S-S-glutathione-mixed disulfides (protein-SSG) because of its remarkably low thiol pK(a) ( approximately 3.5) and its ability to stabilize a catalytic S-glutathionyl intermediate (GRx-SSG). These unique properties suggested that GRx might also react with glutathione-thiyl radicals (GS(.)) and stabilize a disulfide anion radical intermediate (GRx-SSG), thereby facilitating the conversion of GS(.) to GSSG or transfer of GS(.) to form protein-SSG. We found that GRx catalyzes GSSG formation in the presence of GS-thiyl radical generating systems (Fe(2+)/ADP/H(2)O(2) + GSH or horseradish peroxidase/H(2)O(2) + GSH). Catalysis is dependent on O(2) and results in concomitant superoxide formation, and it is distinguished from glutathione peroxidase-like activity. With the horseradish peroxidase system and [(35)S]GSH, GRx enhanced the rate of GS-radiolabel incorporation into GAPDH. GRx also enhanced the rate of S-glutathionylation of glyceraldehyde-3-phosphate dehydrogenase with GSSG or S-nitrosoglutathione, but these glutathionyl donors were much less efficient. Both actin and protein-tyrosine phosphatase-1B were superior substrates for GRx-facilitated S-glutathionylation with GS-radical. These studies characterize GRx as a versatile catalyst, facilitating GS-radical scavenging and S-glutathionylation of redox signal mediators, consistent with a critical role in cellular regulation.
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PMID:Glutathione-thiyl radical scavenging and transferase properties of human glutaredoxin (thioltransferase). Potential role in redox signal transduction. 1255 67

Recombinant human brain calbindin D(28K) (rHCaBP), human Cu,Zn-superoxide dismutase (HCuZnSOD), rabbit muscle glyceraldehyde-3-phosphate dehydrogenase (GAPDH), and bovine serum albumin (BSA) were found to be S-glutathiolated in decomposed S-nitrosoglutathione (GSNO) solutions. Tryptic or Glu-C digestion and MALDI-TOF MS analyses of the digests are consistent with S-thiolation of Cys111 and Cys187 of HCuZnSOD and rHCaBP, respectively, upon exposure to decomposed GSNO. GAPDH activity analysis reveals that S-glutathiolation most likely occurs on the active site Cys149, and the single free Cys34 is assumed to be the site of S-glutathiolation in BSA. The yields of S-glutathiolation of rHCaBP, GAPDH, and BSA were much higher than those of HCuZnSOD. The latter is limited by the accessibility of Cys111 to the glutathiolating reagent in the HCuZnSOD dimer. Unlike decomposed GSNO, fresh GSNO, reduced glutathione (GSH), and oxidized glutathione (GSSG) are not efficient S-glutathiolating agents for the proteins examined here. On the basis of analysis by mass spectrometry and UV-visible absorption, GSNO decomposition in the dark at room temperature yields glutathione disulfide S-oxide [GS(O)SG], glutathione disulfide S-dioxide (GSO(2)SG), and GSSG as products. GS(O)SG is the efficient protein S-glutathiolating agent in GSNO solutions, not GSNO, which does not carry out efficient S-glutathiolation of rHCaBP, HCuZnSOD, or GAPDH in vitro. A hydrolysis pathway yielding GSOH and nitroxyl (HNO/NO(-)) as intermediates is proposed for GSNO decomposition in the dark. This is based on inhibition of GSNO breakdown by dimedone, a reagent specific for sulfenic acids, and on nitroxyl scavenging by metmyoglobin. The results presented here are contrary to numerous reports of protein S-thiolation by low-molecular weight S-nitrosothiols.
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PMID:Protein S-glutathiolation triggered by decomposed S-nitrosoglutathione. 1504 10

We have synthesized a novel reagent containing dansyl group, iodoacethyl dansylcadaverine (IADC), which specifically alkylates sulfhydryl groups. The carboxyl group of iodoacetic acid was activated with dicyclohexylcarbodiimide and was condensed with amino group of dansylcadaverine. Purity and chemical structure of IADC was confirmed with mass spectrometry (MS) and NMR. IADC alkylated GSH but not GSSG, which was confirmed by MS. The reactivity of IADC with proteins was also investigated with Western blotting using anti-dansyl antibody. IADC reacted only with sulfhydryl-containing proteins. The specificity of the interaction of IADC with sulfhydryl groups in proteins was confirmed by adding excessive amount of a well-known sulfhydryl-specific reagent, 5, 5'-dithiobis(2-nitrobenzoic acid), which led to a complete inhibition. To show the usefulness of IADC, the cysteines in glyceraldehyde-3-phosphate dehydrogenase (GAPDH) from chicken muscle were modified with this reagent, and GAPDH was then digested by lysyl endopeptidase. The peptides generated from digestion of IADC-incorporated GAPDH were applied to an anti-dansyl immunoaffinity column. The peptide fragments bound and eluted from the column were separated by HPLC, and the amino acid sequence of each peptide was analyzed, and peptide was identified as the one containing a Cys residue(s). These data showed that IADC is a useful reagent to specifically identify the positions of a Cys residue(s) in proteins.
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PMID:Synthesis and characterization of a novel reagent containing dansyl group, which specifically alkylates sulfhydryl group: an example of application for protein chemistry. 1589 76

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