EC:3.1.3.9 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.9 (glucose-6-phosphatase)
3,081 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of fixation with various concentrations of glutaraldehyde or formaldehyde, acetone or ethanol, and freeze-drying on 5 phosphatases of Eimeria tenella and chick kidney cell cultures were demonstrated in situ. Gultaraldehyde inactivated the phosphatases more than did the formaldehyde, but the effect of the combination of the 2 (Karnovsky's fixative) was greater than that of either glutaraldehyde or formaldehyde alone. The higher the concentration of aldehyde and the longer the duration of exposure, the greater the inactivation. The order of sensitivity to aldehyde fixation of the enzymes tested was glucose-6-phosphatase greater than thiamine pyrophosphatase greater than 5'-nucleotidase greater than adenosine triphosphatase greater than acid phosphatase. Cytologic detail was preserved more efficiently with glutaraldehyde than with formaldehyde. Optimal preservation of enzyme activity for cytochemistry was with 2% glutaraldehyde for 30 min or 2% formaldehyde for 1 hr for G-6-Pase, TPPase, and 5'-nucleotidase, and with 2% glutaraldehyde or 2% formaldehyde for 2 hr with ATPase and AcPase. Quenching with subsequent fixation in cold acetone or ethanol resulted in complete inactivation of G-6-Pase, TPPase, and 5'-nucleotidase; although cells fixed in this manner yielded large amounts of reaction product for ATPase and AcPase, the distribution was diffuse, and some of it appeared to be artifactual. Quenching with subsequent freeze-drying was unsatisfactory because nearly all of the cell layers rolled off the cover glasses.
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PMID:Effect of fixation on demonstration of phosphatases of Eimeria tenella grown in chick kidney cell cultures. 6 Dec 71

Since acrolein can penetrate more quickly and deeply into tissue blocks than glutaraldehyde, the possibility of the use of this aldehyde as a prefixative in enzyme cytochemistry was reinvestigated. At low concentrations, acrolein preserves the activities of the enzymes investigated, including those of glucose-6-phosphatase, which is known as one of the most vulnerable to aldehyde fixation; thus, acrolein is usable in enzyme ultracytochemistry. Enzyme activities are also preserved in tissues fixed with acrolein and glutaraldehyde combined. The rapid penetration of acrolein enables fixation in larger tissue blocks and provides greater freedom in specimen selection, especially important advantages when encountering heterogeneous materials as in pathology.
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PMID:Acrolein as a fixative for enzyme cytochemistry. 18 91

During the NADPH-Fe induced peroxidation of liver microsomal lipids, products are formed which show various cytopathological effects including inhibition of microsomal glucose-6-phosphatase. The major cytotoxic substance has been isolated and identified as 4-hydroxy-2,3-trans-nonenal. The structure was ascertained by means of ultraviolet, infrared and mass spectrometry and high-pressure liquid chromatographic analysis. Moreover, 4-hydroxynonenal, prepared by chemical synthesis, was found to reproduce the biological effects brought about by the biogenic aldehyde. Preliminary investigations suggest that as compared to 4-hydroxynonenal very low amounts of other 4-hydroxyalkenals, namely 4-hydroxyoctenal, 4-hydroxydecenal and 4-hydroxyundecenal are also formed by actively peroxidizing liver microsomes. In the absence of NADPH-Fe liver microsomes produced only minute amounts of 4-hydroxyalkenals. The biochemical and biological effects of synthetic 4-hydroxyalkenals have been studied in great detail in the past. The results of these investigations together with the finding that 4-hydroxyalkenals, in particular 4-hydroxynonenal, are formed during NADPH-Fe stimulated peroxidation of liver microsomal lipids, may help to elucidate the mechanism by which lipid peroxidation causes deleterious effects on cells and cell constituents.
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PMID:Identification of 4-hydroxynonenal as a cytotoxic product originating from the peroxidation of liver microsomal lipids. 625 73

During the NADPH-Fe-induced peroxidation of liver microsomal lipids products are formed which are provided with cytopathological activities. In a previous study one of the major products was identified as an aldehyde of the 4-hydroxyalkenal class, namely 4-hydroxynonenal. In the present study another cytotoxic product has been isolated and identified as 4,5-dihydroxy-2,3-decenal. The isolation was performed by means of thin-layer chromatography and high-pressure liquid chromatography and the structure was ascertained mainly by means of mass spectroscopy of the free aldehyde and of its derivatives. In the absence of NADPH-Fe liver microsomes produced no 4,5-dihydroxydecenal. The inhibitory activity of 4,5-dihydroxydecenal on microsomal glucose-6-phosphatase is somewhat lower than that exhibited by 4-hydroxynonenal. This lower inhibitory activity correlates with the lower capacity to bind to the microsomal protein of 4,5-dihydroxydecenal as compared to 4-hydroxynonenal. The reactivities of the two aldehydes with cysteine were comparable. The production of toxic aldehydes may represent a mechanism by which lipid peroxidation causes deleterious effects on cellular functions.
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PMID:Cytotoxic aldehydes originating from the peroxidation of liver microsomal lipids. Identification of 4,5-dihydroxydecenal. 632 Aug 98

Previous studies have demonstrated that the hepatotoxin carbon tetrachloride rapidly promotes lipid peroxidation and inhibits microsomal calcium sequestration, microsomal glucose-6-phosphatase activity and cytochrome P-450. Due to its profound effects on lipid peroxidation, we have examined the oral administration of 2.5 ml/kg carbon tetrachloride on the urinary excretion of the lipid metabolites formaldehyde, malondialdehyde, acetaldehyde and acetone. Urine samples were collected up to 48 h after treatment. The urinary metabolites were identified and quantitated by gas chromatography-mass spectrometry and high-pressure liquid chromatography. Time-dependent increases in the urinary excretion of the four metabolites were observed after carbon tetrachloride administration. At 48 h after treatment, the increases in the excretion of malondialdehyde, formaldehyde, acetaldehyde and acetone were approximately 55, 78, 57 and 268%, respectively, relative to control values. The data were expressed in nanomoles per kilogram body weight per 4.5 h. The results clearly demonstrate that carbon tetrachloride increases the urinary excretion of four lipid metabolites which may serve as noninvasive biomarkers of xenobiotic-induced lipid peroxidation.
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PMID:Carbon-tetrachloride-induced urinary excretion of formaldehyde, malondialdehyde, acetaldehyde and acetone in rats. 841 71

Preliminary data have been obtained indicating that glucose-6-phosphatase is inactivated upon preincubation with 447 and 224 mM acetaldehyde for 30 min at room temperature, resulting in a loss of 67% and 33% of the original activity, respectively. The reaction with acetaldehyde is rapid because 44% of the enzymic activity is lost in 5 min. Comparable quantities of ethanol inhibit the enzyme to the extent of 11%, indicating a very slight, statistically insignificant organic solvent effect. Because chronic alcoholics present a clinical picture of hypoglycemia, hyperuricemia, reduced gluconeogenesis, and lactic acidemia, it is hypothesized that glucose-6-phosphatase may be a focal enzyme whose inactivation may be related to each of the disorders. Glucose-6-phosphatase is the terminal key enzyme in the gluconeogenesis pathway leading to increased blood glucose. Inhibition thereof may explain both the alternate reduction of pyruvate with concommittent increased formation of lactic acid, and the increase in the pentose phosphate pathway leading to hyperuricemia (as also observed in von Gierke's disease).
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PMID:A hypothesis linking hypoglycemia, hyperuricemia, lactic acidemia, and reduced gluconeogenesis in alcoholics to inactivation of glucose-6-phosphatase activity by acetaldehyde. 894 49

THE ALDEHYDES INTRODUCED IN THIS PAPER AND THE MORE APPROPRIATE CONCENTRATIONS FOR THEIR GENERAL USE AS FIXATIVES ARE: 4 to 6.5 per cent glutaraldehyde, 4 per cent glyoxal, 12.5 per cent hydroxyadipaldehyde, 10 per cent crotonaldehyde, 5 per cent pyruvic aldehyde, 10 per cent acetaldehyde, and 5 per cent methacrolein. These were prepared as cacodylate- or phosphate-buffered solutions (0.1 to 0.2 M, pH 6.5 to 7.6) that, with the exception of glutaraldehyde, contained sucrose (0.22 to 0.55 M). After fixation of from 0.5 hour to 24 hours, the blocks were stored in cold (4 degrees C) buffer (0.1 M) plus sucrose (0.22 M). This material was used for enzyme histochemistry, for electron microscopy (both with and without a second fixation with 1 or 2 per cent osmium tetroxide) after Epon embedding, and for the combination of the two techniques. After fixation in aldehyde, membranous differentiations of the cell were not apparent and the nuclear structure differed from that commonly observed with osmium tetroxide. A postfixation in osmium tetroxide, even after long periods of storage, developed an image that-notable in the case of glutaraldehyde-was largely indistinguishable from that of tissues fixed under optimal conditions with osmium tetroxide alone. Aliesterase, acetylcholinesterase, alkaline phosphatase, acid phosphatase, 5-nucleotidase, adenosine triphosphatase, and DPNH and TPNH diaphorase activities were demonstrable histochemically after most of the fixatives. Cytochrome oxidase, succinic dehydrogenase, and glucose-6-phosphatase were retained after hydroxyaldipaldehyde and, to a lesser extent, after glyoxal fixation. The final product of the activity of several of the above-mentioned enzymes was localized in relation to the fine structure. For this purpose the double fixation procedure was used, selecting in each case the appropriate aldehyde.
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PMID:Cytochemistry and electron microscopy. The preservation of cellular ultrastructure and enzymatic activity by aldehyde fixation. 1397 66