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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 standard lead precipitation method was used for ultracytochemical localization of glucose-6-phosphatase (G-6-Pase) in the in vivo and in vitro forms of the Chang rat hepatoma and in the normal adult rat liver. Reaction product was visualized as very fine particulate within the cisternae of the nuclear envelope and endoplasmic reticulum. Cytochemically, the amount of the G-6-Pase reaction product in both forms of the tumor cells was obviously less than that in the normal hepatocytes. Apparently, the enzyme was not completely deleted from the hepatoma cells. The results supported some biochemical data of certain other hepatomas. The successful ultracytochemical localization of G-6-Pase in cultured hepatoma cells has not been reported previously.
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PMID:Ultracytochemical localization of glucose-6-phosphatase in Chang rat hepatoma in vivo and in vitro. 19 99

The intracellular location of a variety of enzymes was studied in Amoeba proteus with the use of electron microscopic cytochemical methods, in an attempt to assess the relationships between different membranous organelles. One group of enzymes, including nucleoside diphosphatases (IDPase, UDPase, GDPase, ADPase), carbamoyl phosphatase, alkaline phosphatase, and BAXD oxidase was localized mainly in the rough endoplasmic reticulum, nuclear envelope, and convex side of the Golgi apparatus. Esterase activity had a similar localization except that the Golgi apparatus was "stained" throughout most of its extent. A second group of enzymes was found in Golgi cisternae and vesicles, and in come vacuoles. This group included acid phosphatase, thiamine pyrophosphatase, and aryl sulfatase. Some enzymes previously detected in cytoplasmic membranes of other cells, including glucose-6-phosphatase, showed little or no activity in amoebae. The results suggest that there are chemical similarities and probable functional relationships between the rough endoplasmic reticulum, the nuclear envelope, and the convex side of the Golgi apparatus. On the other hand, the concave pole of the Golgi apparatus, aggregates of smooth tubules and vesicles, and the cell surface appear more closely related to one another than to the endoplasmic reticulum and the convex side of the Golgi apparatus. The cytochemical similarity between the Golgi apparatus and certain vacuoles such as food vacuoles may reflect the role of the Golgi apparatus in the formation of lysosomes. The locations of reaction products of the various enzymes in amoebae are compared with observations reported for other cell types.
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PMID:Relationships between membranous organelles in amoebae studied by electron microscopic cytochemical staining. 19 99

Activities of organelle specific enzymes (succinate dehydrogenase, glucose-6-phosphatase, acidic DNAase, acidic RNAase, acidic and alkaline phosphatases) were measured in homogenates and subcellular fractions of liver tissue of patients with cholelithic disease. Liver tissue samples analyzed were investigated also by light and electron microscopy. The data obtained were considered in connection with localization of cholelith in biliary system, type of inflammation, presence of subhepatic cholestasis and of accompanying syndrome of pancreatitis. Typical alterations were observed in the activity of organelle specific enzymes and in the ultrastructure of mitochindria, lysosomes and endoplasmic reticulum in cholelithic disease. The most distinct alterations in the enzymatic activities were found in choledocholithiasis as well as in subhepatic jaundice.
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PMID:[Changes in organelle-specific enzyme activity and the ultrastructure of liver cells in cholelithiasis]. 19 99

The ultrastructural distribution of glucose-6-phosphatase activity has been investigated in the salamander and frog pancreas. In the pancreas of salamander the enzyme was located in the A-cells, while in frog it occurred in all main types of islet cells B-, A-, and D-cells). As a rule, the reaction intensity was higher in the frog islet cells. No reaction was recorded in the exocrine pancreatic tissue of both species. The glucose-6-phosphatase activity was constantly detected in the lumen of rough endoplasmic reticulum and between the nuclear envelopes. Other enzyme localizations, observed especially in the A-cells of the salamander pancreas, were considered possible diffusion artifacts ro remnants of other phosphatase activity. The enzyme distribution in different types of islet cells, as well as its functional significance are discussed in relation to the findings of other authors.
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PMID:Fine structural localization of glucose-6-phosphatase activity in the pancreatic islets of two amphibian species (Salamandra salamandra L. and Rana esculenta L.). 20 Nov 37

In the livers from young (3-6 month) and old (30 month) C57/BL mice and BN/Bi rats light microscope histochemistry has shown that enzyme activity is not always distributed evenly throughout the lobule. The mitochondrial enzyme succinic dehydrogenase, the plasma membrane enzyme 5'-nucleotidase and the endoplasmic reticulum enzyme glucose-6-phosphatase showed heavier reaction product in the perioportal regions of the lobule compared with the centrilobular regions. Alkaline phosphatase showed an altered distribution pattern with age: in young livers this was uniform throughout the lobule while in old livers there was enhanced peripoertal activity. Electron microscope cytochemistry showed that this was due to increased numbers of bile canaliculi in this region containing reaction product and to the additional presence of reaction product associated with the microvilli lining the space of Disse.
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PMID:Differential enzyme distribution in lobules of livers from young and old mice and rats. 20 21

NADPH cytochrome c (cyt c) reductase and glucose-6-phosphatase, two enzymes thought to be restricted to the endoplasmic reticulum (ER) and widely used as ER markers, are present in isolated Golgi fractions assayed immediately after their isolation. Both enzymes are rapidly inactivated in fractions stored at 0 degrees C in 0.25 M sucrose, conditions which do not affect the activity of other enzymes in the same preparation. The inactivation process was shown to be dependent on time and protein concentration and could be prevented by EDTA and catalase. Morphological evidence shows that extensive membrane damage occurs parallel with the inactivation. Taken together with the immunological data in the companion paper, the findings indicate that the enzymes NADPH cyt c reductase and probably glucose-6-phosphate are indigenous components of Golgi membranes.
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PMID:Endoplasmic reticulum marker enzymes in Golgi fractions--what does this mean? 21 50

The effects of an analog of thyroxine, 3,5-dimethyl-3'-isopropyl-L-thyronine (DIMIT), on fetal rat hepatocyte ultrastructure and microsomal function were investigated by using the techniques of quantitative electron microscopy and enzyme assays. Rats were injected with DIMIT (10 microgram/100 g BW) or vehicle daily from the 15th through the 19th day of pregnancy. Fetuses were sacrificed on the 20th day of gestation. In comparison with controls, DIMIT-treated livers 1) were devoid of glycogen; 2) contained smaller hepatocytes; 3) contained a greater number of hepatocytes; 4) had an increased volume density of mitochondria; and 5) had increased NADPH-cytochrome c reductase and glucose-6-phosphatase activities. Surface areas of rough and smooth surfaced endoplasmic reticulum were unaffected by the hormone analog, and cytochrome P-450 was not induced. All of the changes that were produced by DIMIT in the 20-day-old fetal rat, as well as smooth endoplasmic reticulum and cytochrome P-450 development, are observed in normal animals within the first 3 days after birth. The data suggest that thyroid hormone may be a physiological stimulus for certain aspects of early hepatic development, but that it acts in combination or in sequence with other factor(s) to produce the full complement of structural and functional changes that occur perinatally in the rat.
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PMID:Effects of a thyroid hormone analog on fetal rat hepatocyte ultrastructure and microsomal function. 21 99

The effects of added polyamines on carbamylphosphate (carbamyl-P):glucose phosphotransferase and glucose-6-phosphate (Glc-6-P) phosphohydrolase activities of rat hepatic D-Glc-6-P phosphohydrolase (EC 3.1.3.9) of intact and detergent-treated microsomes have been investigated. With the former preparation, in the presence of 1.4 mM phosphate substrate and 90 mM D-glucose (phosphotransferase), 1 mM spermine, spermidine, and putrescine activated Glc-6-P phosphohydrolase 67%, 57%, and 35%, respectively. Carbamyl-P:glucose phosphotransferase, under comparable conditions, was activated 57%, 34%, and 18%. NH+4 (0.25--5.0 mM) produced at best but a minor activation (0--14%), while poly(L-lysine) (Mr = 3400; degree of polymerization 16) equimolar relative to other polyamines with respect to ionized free amino groups activated the hydrolase 358% and the transferase 222%. Treatment of microsomes with the detergent deoxycholate reduced, but did not abolish, polyamine-induced activation. The stimulatory effects of polyamines persisted in the presence of excess catalase, indicating their independence from H2O2 formation; and were eliminated in the presence of Ca2+. Kinetic analysis revealed that all tested polyamines decreased the apparent Michaelis constant values for carbamyl-P and Glc-6-P, but had no effect on the Km for glucose. Poly(L-lysine) increased the V value for both Glc-6-P phosphohydrolase and apparent V values for phosphotransferase extrapolated to infinite concentrations of either carbamyl-P or glucose. The other tested polyamines elevated only this last velocity parameter. It is proposed that a major mechanism by which polyamines activate glucose-6-phosphatase-phosphotransferase is through their electrostatic interactions with phospholipids of the membrane of the endoplasmic reticulum of which this enzyme is a part. Conformational alterations thus induced may in turn affect catalytic behavior. It is suggested that polyamines, or similar positively charged peptides, might participate in the cellular regulation of synthetic and hydrolytic activities of glucose-6-phosphatase.
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PMID:Stimulation by polyamines of carbamylphosphate:glucose phosphotransferase and glucose-6-phosphate phosphohydrolase activities of multifunctional glucose-6-phosphatase. 22 Oct 50

Biochemical and morphological studies were performed on livers from normal, adrenalectomized (ADX), and ADX and dexamethasone (DEX)-treated rats to investigate the effects of glucocorticoids on microsomal membrane synthesis. Overnight fasted normal, ADX and ADX rats treated 2 or 4 h with DEX received [3H]leucine and [14C]glycerol. Livers were removed, and tissue specimens were prepared for electron microscopy and tissue fractionation. Liver microsomal subfractions were prepared and subsequently washed to produce rough and smooth microsomal membranes. Radioactivity and membrane composition were determined, and glucose-6-phosphatase activity was measured in washed microsomal membranes. Adrenalectomy caused decreased microsomal membrane synthesis. Two and 4 h of DEX administration restored microsomal membrane synthesis to normal levels. ADX also caused an alteration in composition of the microsomal membranes (reflected in decreased phospholipid-protein ratios), which was restored to normal levels by 4 h after DEX administration. The earliest effects of the hormone on membrane synthesis were observed in smooth microsomes as part of a smooth endoplasmic reticulum (SER) proliferation. These findings were supported by observations made with the electron microscope. The proliferating SER was enriched in at least one component: glucose-6-phosphatase. Although the specific relationship of SER to glucocorticoid action remains unclear, the interpretation is offered that SER proliferation and alteration in glucose-6-phosphatase distribution are component parts of the total response of the hepatocyte to glucocorticoids.
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PMID:Effects of glucocorticoids on microsomal membrane synthesis in hepatocytes from adrenalectomized rats. 22 Nov 89

Cell fractionation, enzyme analysis, and electron microscopy were used to study the effects of streptozotocin-induced diabetes and insulin replacement on liver structure and function. In liver homogenates from diabetic rats, glucose-6-phosphatase (G-6-Pase) activity was stimulated about 2 1/2-fold over that found in normal animals. Analyses of isolated rough and smooth microsomes from diabetic rats for G-6-Pase activity showed a fourfold increase in the smooth microsomes and a small increase in enzyme activity in rough microsomes when compared with these fractions from control animals. Associated with the increased enzyme activity was a reduction in liver glycogen. Insulin treatment of the diabetic rats caused a fall in homogenate G-6-Pase levels to approximately normal values and stimulated the accumulation of hepatic glycogen. Administration of insulin to these animals also caused a decrease in G-6-Pase activity, which was most pronounced in the smooth microsomes. Studies with the electron microscope revealed ultrastructural alterations in livers of the diabetic rats, which were most striking in the periportal region of the lobule. Periportal hepatocytes from diabetic rats displayed dispersed particles of glycogen separated by cytoplasm rich in SER rather than dense masses of glycogen with little SER, as is characteristic of these cells in normal animals. Centrilobular cells from the diabetic animals displayed some disorganization of the RER and a dispersed pattern of glycogen with abundant SER, similar to the pattern found in these cells from normal animals. After insulin treatment the periportal cells appeared normal morphologically, whereas the centrilobular hepatocytes displayed regions of both dense masses and dispersed glycogen. In the glycogen masses, little SER was found; however, in the areas of dispersed glycogen particles, an abundance of this organelle was evident. We conclude from these studies that diabetes causes an increase in amount of hepatic smooth endoplasmic reticulum (SER), especially within periportal hepatocytes. The results of cell fractionation indicate that membranes of the smooth endoplasmic reticulum are enriched in G-6-pase. We interpret these results to indicate that diabetes causes hepatocytes to form additional smooth endoplasmic reticulum with specialized membranes, at least with respect to G-6-Pase. It is suggested that this cellular specialization is a response of the hepatocyte to the diabetic state, namely, a demand for increased hepatic glucose production and release into the blood stream, thus contributing to the hyperglycemia characteristic of this disease. Insulin administration to the diabetic animals reverses the above alterations.
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PMID:Hepatic glucose-6-phosphatase activities and correlated ultrastructural alterations in hepatocytes of diabetic rats. 22 Dec 99


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