Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

New light microscopic visualization methods were developed for the histochemical detection of non-specific alkaline and acid phosphatase, Mg-, Ca- and Na, K-dependent adenosine triphosphatase, myosin adenosine triphosphatase, glucose-6-phosphatase, 5'-nucleotidase and thiamine pyrophosphatase with cerium ions as trapping agents in cryostat and plastic sections. The techniques are based on the conversion of cerium phosphate into cerium perhydroxide by H2O2 which decomposes at 55 degrees-60 degrees C into cerium hydroxide and oxygen radicals. These radicals are able to oxidize diaminobenzidine (DAB) to DAB brown. Addition of nickel ions to the DAB-H2O2 mixture generates bluish-black stained nickel-DAB complexes. Compared with the classical metal precipitation, azo, azoindoxyl and tetrazolium procedures the H2O2-DAB and especially the H2O2-DAB-nickel methods provided identical or superior results in catalytic phosphatase histochemistry and immunohistochemistry when using non-specific alkaline phosphatase as the enzyme label.
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PMID:The cerium perhydroxide-diaminobenzidine (Ce-H2O2-DAB) procedure. New methods for light microscopic phosphatase histochemistry and immunohistochemistry. 285 63

Focal hepatocellular lesions, induced in our infant mouse system (15-day-old B6C3F1 mice) by a single carcinogenic dose of diethylnitrosamine (2.5 or 5.0 micrograms/g body weight), were characterized histochemically using toluidine blue, periodic acid-Schiff, glycogen phosphorylase, glycogen synthetase, glucose-6-phosphatase, glucose-6-phosphate dehydrogenase, glyceraldehyde-3-phosphate dehydrogenase, ATPase, gamma-glutamyl transpeptidase, and acid phosphatase. Animals were killed 5, 12, 18, and 24 weeks following diethylnitrosamine treatment. The first focal lesions were observed in mice killed at 12 weeks. All foci showed patchy cytoplasmic basophilia and a slight decrease in the glycogen content. The early foci (12 weeks) showed no change in the levels of glycogen phosphorylase and glycogen synthetase, a strong reduction of glucose-6-phosphatase, and a high increase in glucose-6-phosphate dehydrogenase. In addition, 56% of foci in males and 86% of foci in females showed a slight rise in glyceraldehyde-3-phosphate dehydrogenase, and 12% of foci in males and 17% of foci in females had a lower acid phosphatase. The level of cytoplasmic ATPase was slightly decreased in 22% of foci. By 24 weeks, a decrease in the activity of cytoplasmic ATPase was observed in 84 and 100% of foci in males and females, respectively. The increase in the membrane ATPase was observed in 65% of foci in males and 7% of foci in females. By that time, the decrease in acid phosphatase was observed in 78% of foci in males and 37% of foci in females. The gamma-glutamyl transpeptidase failed to show any increase in its activity, indicating that this enzyme was not a "marker" of the hepatocellular lesions developing under the experimental conditions. Strong decrease in glucose-6-phosphatase in association with a manifest increase in glucose-6-phosphate dehydrogenase and glyceraldehyde-3-phosphate dehydrogenase activities indicated a shift from gluconeogenesis to glycolysis. Since this metabolic shift occurred concurrently with an increase in the labeling indices and focal size, it appears that these changes act in concert, representing expression of the acquired functional and replicating potential of the focal cell population.
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PMID:Histochemical characterization of focal hepatic lesions induced by single diethylnitrosamine treatment in infant mice. 285 11

The stability and response of histochemical phenotypes of altered hepatic foci (AHF) were studied both in the presence and following the withdrawal of 0.05% phenobarbital (PB) treatment in rats previously given a single dose of diethylnitrosamine (DEN) 20-24 h following partial hepatectomy (PH). AHF were scored by their expression of three biochemical markers: gamma-glutamyl transpeptidase (GGT), adenosine triphosphatase and glucose-6-phosphatase (G6P). AHF demonstrated significant heterogeneity with respect to the marker alterations. The use of three markers in the present study confirmed the findings of our earlier study, which showed the maximal response of GGT+ AHF to PB administration following PH/DEN initiation and the stability of GGT+/AHF induced by the PH/DEN/PB regimen after the withdrawal of PB. In the regimen employed, the GGT marker alone scored the great majority of the AHF detected by all three markers. The frequency distribution of histochemical phenotypes remained relatively constant in AHF during continuous PB administration and in AHF promoted by PB followed by a 6-month period of feeding a diet containing no PB. These findings suggest that individual AHF remain phenotypically stable throughout the PB promotion phase, i.e., do not progress from one phenotype to another. In every marker class, the mean volume of AHF increased during continuous PB administration. These data illustrate the enhancing effect of PB on the growth of the AHF. The size of AHF continued to increase following the withdrawal of PB in the 3-month PB treatment group, but not in the animals treated for 4 months. A mechanism that may account for the differences in these two treatment groups is discussed.
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PMID:The quantitative analysis and stability of histochemical markers of altered hepatic foci in rat liver following initiation by diethylnitrosamine administration and promotion with phenobarbital. 286 7

In rats treated orally with a single dose of aflatoxin B1 (5 mg/kg body weight) characteristic focal and nodular liver lesions developed which differed in their fine structure, enzyme histochemical pattern and growth behaviour from other types of carcinogen-induced hepatic foci and nodules described earlier. The foci were composed of a distinct cell population which showed specific structural changes of the cytoplasm. Typically, unusually large and abundant basophilic bodies consisting of highly ordered stacks of cisternae of the rough endoplasmic reticulum (ER) were arranged in long, striped bands and stood out against an acidophilic background which was due to hypertrophy of the smooth ER. We propose the descriptive terms 'tigroid cells', and 'tigroid cell foci' for this population of altered hepatocytes. Correlative cytochemical investigations on the tigroid cell foci revealed characteristic changes in carbohydrate metabolism, such as a decrease in the activity of glycogen synthetase and glycogen phosphorylase and an increase in the activity of glucose-6-phosphate dehydrogenase and glyceraldehyde-3-phosphate dehydrogenase. The activity of glucose-6-phosphatase and ATPase was normal (or partially reduced) and that of the gamma-glutamyl-transpeptidase was always lacking. A progressive increase in the number and size of the tigroid cell foci and transitions from tigroid cell foci to neoplastic nodules with similar morphological and cytochemical features were observed during the time period of 104 weeks. The mitotic index within tigroid cell foci and nodules was approximately 100 times higher than that of the surrounding hepatic tissue or the liver parenchyma of untreated control animals. The important question whether the tigroid cell foci represent a specific pre-neoplastic or early neoplastic cell population requires further investigations.
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PMID:Tigroid cell foci and neoplastic nodules in the liver of rats treated with a single dose of aflatoxin B1. 286 15

Marker enzyme activities of different subcellular fractions were analyzed in cortex homogenates from rat kidney after different periods (15, 30, 60, and 90 min) of warm ischemia. Lactate dehydrogenase, alanine aminopeptidase, N-acetyl-beta-D-glucosaminidase, and succinate-cytochrome c reductase were not altered by ischemia in these periods. ATPase (2,4-dinitrophenol-stimulated and azide-sensitive), 5'-nucleotidase, K-Mg-nitrophenylphosphatase decline within 30 min of ischemia, whereas the microsomal enzymes glucose-6-phosphatase and NADPH-cytochrome c reductase decreased not before 60 min of ischemia. The early decrease of ATPase and of plasma membrane enzymes can be regarded as a consequence of membrane alterations. This enzymatic approach may be helpful to evaluate pharmacological agents for preventing and reserving ischemic effects in kidneys in a rational manner.
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PMID:Changed enzyme activities in rat kidney during ischemia. 286 6

The effect of feeding hypolipidemic peroxisome proliferators on the induction of altered hepatic foci (AHF) in Fischer rats was studied in order to determine whether such agents can induce or promote the development of AHF. In the first study, rats were fed ciprofibrate (10 mg/kg/day) for 1 yr. AHF, neoplastic nodules, and hepatocellular carcinomas were induced. The presence of putative gamma-glutamyltranspeptidase (GGT) activity was numerically the most common marker, although it was absent in larger foci and nodules. A deficiency in canalicular ATPase and glucose-6-phosphatase provided the best markers for the larger foci and nodules. In the second study, rats were subjected to partial hepatectomy, and half of the animals were then intubated with diethylnitrosamine (10 mg/kg). One wk later, rats were fed Wy-14,643 at concentrations of 0, 0.05, and 0.1% in the diet for 6 mo. At 6 mo, the number and volume of foci were increased by the feeding of Wy-14,643 after partial hepatectomy alone and were greatly increased when Wy-14,643 was fed after partial hepatectomy/diethylnitrosamine administration. Canalicular adenosine triphosphatase and glucose-6-phosphatase deficiencies were the most common markers of AHF, and AHF of these phenotypes occupied practically all of the focal volume. The larger AHF did not express GGT, and those foci exhibiting GGT were much less common and occupied very little volume. The absence of the GGT protein itself, as opposed to an inhibition of GGT activity, was verified by immunohistochemical staining using an antibody to GGT. These studies show that hypolipidemic peroxisome proliferators can stimulate an increase in AHF following a single dose of diethylnitrosamine and a mitotic stimulus, and they thus can act as promoters in two-stage liver carcinogenesis. GGT is a poor marker for identifying AHF induced by peroxisome proliferators during the early, premalignant phase of hepatocarcinogenesis.
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PMID:Induction of altered hepatic foci in rats by the administration of hypolipidemic peroxisome proliferators alone or following a single dose of diethylnitrosamine. 287 87

Pectin-induced changes in microflora have been shown to elevate the covalent binding of 2,6-dinitrotoluene (2,6-DNT)-related materials to total rat hepatic macromolecules. Therefore, the effect of diets varying in pectin content on the induction of foci and hepatic tumors induced by 2,6-DNT was studied in male F344 rats. 2,6-DNT (3.0-3.5 and 0.6-0.7 mg/kg/day) was incorporated into NIH-07 (NIH), an open formula cereal-based diet high in pectin content, AIN-76A (AIN), a purified pectin-free diet, or AIN-76A supplemented with 5% pectin (AP). Hepatic foci were scored after histochemical staining for gamma-glutamyl transpeptidase (GGT), canalicular adenosine triphosphatase or glucose-6-phosphatase following administration of test diets for 3, 6 and 12 months. The number of foci per cm3 of liver increased in a dose- and time-department manner following incorporation of 2,6-DNT into test diets with NIH greater than AP greater than AIN. In the NIH diet, 2,6-DNT did not alter the phenotypic distribution of foci. Animals fed control or 2,6-DNT-containing AIN and AP diets had few or no GGT foci throughout the study. Hepatocellular carcinomas and neoplastic nodules were observed only in rats fed NIH containing 2,6-DNT. The concentrations of 2,6-DNT-related material covalently bound to hepatic macromolecules after a single oral dose of radiolabeled 2,6-DNT given after 12 months on the diets increased in control rats and in rats receiving low dose 2,6-DNT in the diet with AIN less than AP less than NIH. These studies show that the carcinogenicity of 2,6-DNT differs depending on whether rats are fed an NIH or AIN (+/- pectin) diet. The results suggest that diet-induced alterations in the covalent binding of 2,6-DNT are not the sole factor in determining the carcinogenic response to 2,6-DNT. Furthermore, unidentified contaminants in cereal-based diets may influence foci and tumor production in rat liver during carcinogen treatment.
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PMID:The effect of diet on 2,6-dinitrotoluene hepatocarcinogenesis. 287 86

The nasal passages are anatomically complex, and while there have been a number of descriptions of nasal structure in many species, there is very little information available on the distribution of enzymes in the nasal mucosa. In rodents, this delicate mucosa is the first site within the respiratory tract to be exposed during inhalation toxicology studies designed to assess human risks from such exposures. However, the nasal mucosa presents problems for histologic preparation because it is encased in brittle bones. Because of recent interest in the nose as a target site, and findings from biochemical studies which indicate that the nose is very active metabolically, studies were carried out to determine the value of cold glycol methacrylate (GMA) processing for localization of nasal enzymes. For these studies, liver and kidney were used as positive controls. Published histochemical procedures for acid and alkaline phosphatase, adenosine triphosphatase, glucose-6-phosphatase, gamma-glutamyl transpeptidase, and naphthyl butyrate esterase were applied, with modifications, to undecalcified nasal passages of Fisher-344 rats. Frozen sections exhibited excellent enzyme preservation but very poor morphology, while GMA gave good enzyme preservation and excellent morphology. For GMA, acetone fixation generally resulted in the best preservation of enzyme activity. It was concluded that cold GMA processing provides a useful approach to studies of nasal enzyme distribution and that this technique of value for inhalation toxicology studies. Details of enzyme distribution in the squamous, respiratory, and olfactory epithelia, associated glands, and other structures of the nose of the rat are described and discussed.
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PMID:Enzyme histochemistry of the rat nasal mucosa embedded in cold glycol methacrylate. 288 3

Female F344/N rats dosed with diethylnitrosamine (DEN) 24 h after partial hepatectomy were treated with the promoting agents, phenobarbital (PB) or 3,4,7,8-tetrachlorodibenzo-p-dioxin (TCDD), or the peroxisome proliferating agent, WY 14,643, for 6 months. Another group was subjected to the Solt-Farber protocol. Altered hepatic foci (AHF) were analyzed by quantitative stereology from frozen serial sections stained for gamma-glutamyl transferase (GGT), canalicular adenosine triphosphatase (ATPase), glucose-6-phosphatase (G6Pase) and the placental isozyme of glutathione S-transferase (PGST). PGST scored more foci in all groups than GGT and ATPase. PGST marked greater focal volume than GGT or ATPase, and PGST marked focal volume equal to or greater than G6Pase in rats treated with PB, TCDD or the Solt-Farber protocol. However, after treatment with WY 14,643, GGT and PGST marked much less focal volume than ATPase or G6Pase, and PGST scored fewer foci than G6Pase. Numerical estimations of foci scored by those markers on the basis of area of the entire tissue section (per cm2) were relatively different from those values determined by quantitative stereology. While these results confirm earlier studies, they demonstrate the importance of quantitative stereologic analysis of AHF during multistage hepatocarcinogenesis.
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PMID:Quantitative stereological evaluation of four histochemical markers of altered foci in multistage hepatocarcinogenesis in the rat. 288 1

Formation of the N-(deoxyguanosin-8-yl)-aminofluorene adduct was studied in enzyme-altered foci induced by four different liver carcinogenesis models. Foci were detected and scored for enzyme phenotype by a computer-aided image overlay technique. Localization of the enzymes gamma-glutamyl transpeptidase, canalicular ATPase and glucose-6-phosphatase was performed by enzyme histochemistry, allowing identification of foci of seven different phenotypes. Patterns of foci obtained by image overlay were compared to in situ 2-acetylaminofluorene--DNA adduct distribution obtained by immunofluorescence. Foci were induced by the following models: (1) chronic feeding of 0.02% 2-acetylaminofluorene (2-AAF) for 8 weeks; (2) intubation of diethylnitrosamine (DEN) (10 mg/kg) 24 h after a 70% partial hepatectomy (PH), followed 8 weeks later by a diet containing 0.05% phenobarbital for 9 months; (3) intubation of DEN (10 mg/kg) 24 h after PH, followed by a diet containing 0.01% ciprofibrate for 5 months, and after an additional 4 months a diet containing 0.05% phenobarbital for 2 months; (4) maintenance for 7.5, 16.5 or 19.5 months after transplantation of DEN/2-AAF/PH ('Solt-Farber' protocol) donor liver cells into host rats receiving a brief 2-AAF/PH selective regimen then no further treatment until sacrifice. To test the capacity of both foci and morphologically normal livers to form DNA adducts, the animals in models 2-4 received a diet containing 0.02% 2-AAF for 5 or 6 days before sacrifice. In all of the enzyme-altered foci identified in models 1-3 there were no DNA adducts visible by immunofluorescence. Scattered groups of positive cells were occasionally seen in the otherwise dark foci induced by model 4. For technical reasons some enzyme-altered foci were not identifiable on the fluorescence-stained slides. In liver serial sections from rats in models 1-4, there were 75, 304, 125 and 68 enzyme-altered foci of seven different phenotypes which were identified as AF-DNA negative. In models 1 and 4 there were some additional adduct-negative foci not associated with any of the seven identified focus phenotypes. These studies demonstrate that loss of the ability to form DNA adducts in hepatic enzyme-altered foci is a common and very early biochemical adaptation to xenobiotic exposure in different hepatocarcinogenesis models. This adaptation also is retained by the majority of foci in later stages of hepatocarcinogenesis.
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PMID:Lack of acetylaminofluorene--DNA adduct formation in enzyme-altered foci of rat liver. 289 93


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