Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P20020 (adenosine triphosphatase)
3,299 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

The architectural arrangement and selected histochemical properties of hepatocytes in the rainbow trout (Salmo gairdneri Richardson) were examined. Light and transmission electron microscopic (TEM) examination following fixation by portal venous perfusion revealed a tubular arrangement of hepatocytes. Lobules, as defined in the adult mammal, were absent. Biliary epithelial cells associated with bile preductules and ductules were a prominent feature of trout liver. Patterns and location of reaction products for glucose-6-phosphatase (G-6-Pase), glucose-6-phosphate dehydrogenase (G-6-PDH), and magnesium-dependent adenosine triphosphatase (ATPase), enzymes preferentially distributed in mammalian liver, were demonstrated in trout liver. A slightly heavier staining pattern for G-6-Pase was seen around presumptive portal venules but all other enzyme reaction patterns were uniform throughout the liver parenchyma. Following ATPase localization, four sizes of biliary passageways (canaliculi, bile preductules, ductules, and ducts) were visualized. Maximum glycogen retention was achieved with freeze-drying and glycolmethacrylate embedding and with this method intense, uniform glycogen staining was observed in all areas of the liver. Companion TEM examinations revealed large depots of glycogen within hepatocytes. The results are important for interpretation and description of the effects of toxic/carcinogenic alteration on trout liver.
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PMID:Functional units in rainbow trout (Salmo gairdneri) liver: I. Arrangement and histochemical properties of hepatocytes. 300 Feb 24

With an aim to investigate the relative sensitivity of various renal structures to allograft rejection, we analyzed the histochemical reaction intensity of seven enzymes prominently displayed in various rat kidney components, and correlated the expression of these enzymes both to the degree of intra-graft inflammation and to the expression of class II MHC antigens in graft capillary endothelial cells. Syngeneic transplants and normal renal tissue were used as controls. At the peak of inflammation, on the fifth day after transplantation, adenosine triphosphatase activity of vascular endothelial cells was strongly reduced in the peritubular capillary endothelium of the allograft, moderately in the glomerular endothelium but very little in the endothelium of arteries and veins. Lactate dehydrogenase, succinate dehydrogenase, isocitrate dehydrogenase, alkaline phosphatase, acid phosphatase and glucose-6-phosphatase activities were moderately reduced in the proximal tubular cells of the allograft and even less in the distal tubular cells. The results suggest that the prime target of the host immune attack is the intertubular capillary endothelium, whereas the distal tubular cells are relatively insensitive to immune injury.
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PMID:Renal target structures in acute allograft rejection: a histochemical study. 303 33

Prostaglandin (PG) synthesis from [1-14C]-arachidonic acid by bovine dental pulp microsomes was stimulated by 0.1-0.5 mM concentrations of p-chlorophenol (PCP) and inhibited by more than 3 mM. Dual effects (stimulation and inhibition) of phenol, PCP, o-, m-, p- and tri-cresol on PG synthesis by rabbit kidney medullary microsomes were observed. Of various compounds tested, eugenol, thymol and guaiacol were the most potent inhibitors; the inhibitory action was reversible. Phenolic compounds did not affect the activity of glucose-6-phosphatase, adenosine triphosphatase, or lactate dehydrogenase in rabbit kidney medulla within the range of concentrations that stimulated or inhibited PG synthesis. Thus the analgesic effect of phenolic medicaments in endodontic therapy may be due to inhibition of arachidonic-acid metabolism.
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PMID:Effects of phenolic dental medicaments on prostaglandin synthesis by microsomes of bovine tooth pulp and rabbit kidney medulla. 325 25

In order to evaluate the possible role of sodium- and potassium-activated adenosine triphosphatase in the active transport of sodium by the renal tubules, we examined the effect of large changes in the tubular reabsorptive load of sodium on the Na-K-ATPase activity of rat kidney homogenates. Glomerular filtration and tubular reabsorption of sodium per gram of kidney tissue increased progressively after contralateral uninephrectomy. This was paralleled by an increase in Na-K-ATPase per milligram of protein in a microsomal fraction of kidney cortex. The importance of this change is underlined by the absence of simultaneous increases in other microsomal enzymes such as glucose-6-phosphatase and Mg(++)-dependent ATPase, or in succinic dehydrogenase or glutaminase. Similar increases in Na-K-ATPase were observed when the net tubular reabsorption of sodium was increased by feeding the animals a high-protein diet or after injection of methylprednisolone. On the other hand, Na-K-ATPase was lowered when tubular transport of sodium was reduced by bilateral adrenalectomy. The results of these experiments show that renal Na-K-ATPase changes in an adaptive way when renal reabsorption of sodium is chronically increased or diminished and support the hypothesis that this enzyme system is involved in the process by which sodium is actively transported across the renal tubule.
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PMID:The role of sodium-potassium-activated adenosine triphosphatase in the reabsorption of sodium by the kidney. 429 72

Particulates containing a large part of the alkaline phosphatase activity of renal tissue were separated from homogenates and from ribosomal preparations by zonal centrifugation. The particles had a high content of phospholipid and cholesterol that was not removed by treatment with I percent deoxycholate. Enzymatic activities concentrated with the particles were the alkaline phosphatase, a peptidase resistant to proteolysis, glucose-6-phosphatase, inorganic pyrophos-phatase, and adenosine triphosphatase. The particles accumulated leucine with no stimulation from soluble factors and with inhibition by other amino acids; the accumulation was stimulated by adenosine triphosphate and was not inhibited by puromycin. The particles appear to be derived from the membranes of the brush borders of tubular cells.
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PMID:Brush border particulates of renal tissue. 430 46

The activity of sodium-potassium-activated adenosine triphosphatase (Na-K-ATPase) is considerably higher in homogenates of outer medulla than in the cortex or papilla of the kidney. The enzyme has similar kinetic characteristics in both cortex and medulla, and binds ouabain in the same proportion. The discrepancy in enzymatic activity is not paralleled by similar change in the activity of adenyl cyclase, 5'nucleotidase, glucose-6-phosphatase, or succinic dehydrogenase. Na-K-ATPase is also higher in distal convoluted tubules (ventral slices) than in the proximal tubules (dorsal slices) of the kidney of Amphiuma. The high concentration of Na-K-ATPase in the red medulla of the kidney is probably related to the presence here of the thick ascending limb of the loop of Henle, and this has important implications with regard to the mechanism of sodium reabsorption by different portions of the nephron.
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PMID:The distribution of sodium-potassium--activated adenosine triphosphatase in medulla and cortex of the kidney. 432 13

The relationship between net tubular reabsorption of sodium and renal microsomal sodium- and potassium-activated adenosine triphosphatase (Na-K-ATPase) was evaluated in hypothyroid and hyperthyroid rats and in age-matched euthyroid controls. Tubular sodium reabsorption per gram of kidney was lower in thyroidectomized rats than in controls (186+/-14 vs. 246+/-12 mueq/min; P < 0.005) and was accompanied by a quantitatively similar reduction in Na-K-ATPase specific activity (49.4+/-2.4 vs. 65.8+/-2.3 mumol inorganic phosphate (P(t))/mg protein per h; P < 0.001). This decrement was present in both cortex and outer medulla, and was limited to Na-K-ATPase since other representative enzymes not involved in sodium transport (magnesium-dependent adenosine triphosphatase [Mg-ATPase], glucose-6-phosphatase, 5'-nucleotidase) remained unchanged or increased in the hypothyroid animals. Conversely, Na-K-ATPase rose when sodium reabsorption increased in euthyroid rats treated with triiodothyronine. Subsequent experiments were performed to determine to what extent the decrease in Na-K-ATPase is due to lack of thyroid hormone per se or to an adaptive response to decreased reabsorptive sodium load. Triiodothyronine in concentrations of 10(-12) to 10(-5) M had no effect in vitro on microsomal Na-K-ATPase of either thyroidectomized or euthyroid rats. When hypothyroid rats were uninephrectomized or treated with methylprednisolone, sodium reabsorption per gram kidney increased markedly and was similar to that of intact controls. Despite persistence of the hypothyroid state, Na-K-ATPase specific activity also increased to levels not significantly different from euthyroid animals. These data suggest that decreased tubular sodium transport is a major determinant of the reduction in renal Na-K-ATPase in thyroid deficiency since the latter can be reversed by increasing sodium reabsorption during continuing hypothyroidism. Furthermore, the modest sodium leak of hypothyroid animals does not appear to be due to decreased Na-K-ATPase since it was not corrected by uninephrectomy despite restoration of both cortical and medullary Na-K-ATPase activity to normal by this maneuver. The close correlation between net sodium reabsorption and Na-K-ATPase in all the experimental situations described here demonstrates that renal Na-K-ATPase changes adaptively in hyper- or hypothyroidism as it does in numerous situations in the normal animal, in accord with its postulated role in the active transport of sodium across the renal tubule.
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PMID:Renal sodium- and potassium-activated adenosine triphosphatase and sodium reabsorption in the hypothyroid rat. 434 43


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