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1.
The localization of Na+,K+-ATPase in cardiomyocytes of white rats at the ultrastructural level and the dependence of enzyme activeness on electronic density of structures, were studied. Na+,K+-ATPase activity was revealed in plasmalemma, Z-membranes and in nuclei. The enzyme activity is distributed discretely both within the tissue and within separate cells. It is, probably, due to the heterogeneity of structural-functional condition of cells and their ultrastructures as revealed by means of electronic microscopy in terms of their different electronic density. The maximal Na+,K+-ATPase activeness was revealed at the average electronic density of structures.  相似文献   

2.
Mammalian 8-oxo-2'-deoxyguanosine 5'-triphosphate pyrophosphohydrolases (8-oxo-dGTPases), such as MTH1, are believed to play the same antimutagenic role as their bacterial homologues, like MutT. Both decompose promutagenic 8-oxo-dGTP, a product of active oxygen's attack on dGTP. It is not known how 8-oxo-dGTPase expression and function are regulated. Therefore, we investigated the effect of cell population density, proliferation rate, and cell cycle phase on 8-oxo-dGTPase specific activity in cultured Chinese hamster ovary K1-BH4 (CHO) cells. With increasing cell population density (from 30 to 95% confluence), the activity of 8-oxo-dGTPase per milligram protein decreased by 33% (p =.007 by ANOVA) while cells shifted by 9% into the G(0)/G(1) phase, with a 5% drop in cells in S phase. Importantly, inhibition of the cells' proliferation rate by calf serum deprivation caused a more dramatic 23% shift toward the G(0)/G(1) phase and a 25% drop in S phase, but had no effect on 8-oxo-dGTPase activity. Likewise, no differences in the enzyme activity were observed within cell populations of different cell cycle phases separated by centrifugal elutriation. Thus, the present results exclude cell cycle-dependent regulation of 8-oxo-dGTPase activity in CHO cells or its simple dependence on proliferation rate. The observed decrease of 8-oxo-dGTPase activity with increasing cell population density might be related to augmentation of cell-to-cell contact.  相似文献   

3.
The cell density dependent regulation of phenylalanine hydroxylase activity in Reuber hepatoma (H4) cells growing in monolayer culture has been examined in detail. We found that 48 h or more after subculture phenylalanine hydroxylase activity in the cells is an exponential function of cell density (cells/cm2). No discontinuity in the relationship is seen with the formation of a confluent monolayer.A rapid loss or a rapid gain in enzyme activity in the cells is observed after diluting or concentrating the cell cultures. The two processes appear qualitatively different. The loss in activity is a first order process which starts at the time of subculture with the rate of loss dependent on the density of subculture. The gain in activity begins 6–8 h after subculture to a higher density; it can be blocked by cycloheximide and has a maximum rate of increase that is about 10% of the maximum rate of loss of activity.Using immunochemical procedures, we found the same amount of phenylalanine hydroxylase associated antigen in Reuber cells from low density as from high density cultures, over a range of phenylalanine hydroxylase specific activities from 0.2 to 4.2. After concentrating cells to a higher density, no increase in enzyme antigen was observed, despite a several-fold increase in enzyme activity and a requirement for protein synthesis during the process. These observations imply the presence of an active and inactive phenylalanine hydroxylase with the relative amounts of each determined by the cell density. The effects of db-cAMP are discussed. Evidence is presented here that the hydrocortisone stimulation of phenylalanine hydroxylase activity works through a different mechanism than the cell density dependent process.  相似文献   

4.
Regulation of transglutaminase activity in Chinese hamster ovary cells   总被引:3,自引:0,他引:3  
We have investigated the regulation of transglutaminase activity (epsilon-(gamma-glutamyl)lysine crosslinking enzyme) in Chinese hamster ovary cells in culture. We report that transglutaminase activity increases several-fold in CHO cells at maximum density in suspension culture. This increase cannot be explained by the presence of soluble regulators of the enzyme activity or the appearance of a new enzyme activity with a different affinity for substrate, but appears to be due to an increase in total enzyme activity. Treatment of CHO cells at low cell density with 8-bromo cyclic AMP results in a small increase (20--70%) in transglutaminase activity. By studying CHO mutants which have altered or absent cyclic-AMP-dependent protein kinases, we have demonstrated that the effect of cyclic AMP on transglutaminase activity at low cell density is mediated by cyclic-AMP-dependent protein kinase. However, the protein kinase mutants show normal increases in transglutaminase activity at high cell density, indicating that cyclic AMP-dependent protein kinase does not mediate density-dependent changes in transglutaminase activity.  相似文献   

5.
Changes have been found in the plasma membrane enzyme system which carries out transmembrane electron transport and associated proton transport in Simian virus 40 (SV40) temperature-sensitive A (tsA) mutant-transformed rat pineal cell line, RPN209-1. This cell line was temperature-sensitive for the maintenance of transformation. RPN209-1 cells expressed the transformed phenotype (rapid growth, high cell density, and cloning in soft agar) at the permissive temperature (33 degrees C) and the nontransformed phenotype (slower growth, lower saturation density, and lower cloning efficiency in soft agar) at the nonpermissive temperature (40 degrees C). The reduction of external ferricyanide, hexaammine ruthenium and diferric transferrin was used to measure the transmembrane redox activity. The transformed RPN209-1 cells expressed a lower transmembrane redox activity, which is more sensitive to the antitumor drug adriamycin, when compared to the cells with a nontransformed phenotype. The lower transmembrane redox activity is associated with a decrease in the affinity for ferricyanide and a change in Vmax of the enzyme. Since the transformed cells have 25% lower concentration of NADH, the decrease in Vmax may be partly based on substrate limitation. Ionic strength variation in the assay media shows that the change in activity with transformation is not based on change in cell-surface change. Treatment with neuraminidase, however, indicates that sialic acid is important for enzyme activity, consistent with previous proposals that the transmembrane enzyme is a glycoprotein. The proton extrusion associated with transplasma membrane electron transport is increased in transformed cells relative to the rate of ferricyanide reduction. A relation between proton pumping transplasma membrane electron transport and growth stimulation by external oxidants is discussed.  相似文献   

6.
Cultured rat hepatocytes release the enzyme hepatic lipase. In this study we investigated the effect of cell density on this metabolic function under a variety of experimental conditions. The release of hepatic lipase from cultured rat hepatocytes exhibits a cell-density dependence, the secretion per mg cell protein being increased with increasing cell density. When cell density dependence was taken into consideration no significant effect of insulin on the release of hepatic lipase from cultured hepatocytes was observed, whereas glucagon suppressed the release. Glucose stimulating the release of the enzyme, especially in cultures with high cell density.  相似文献   

7.
We have investigated the regulation of transglutamine activity (-(γ-glutamyl)lysine crosslinking enzme) in Chinese hamster ovary cells in culture. We report that transglutaminase activity increases several-fold in CHO cells at maximum density in suspension culture. This increase cannot be explained by the presence of the soluble regulators of the enzyme activity or the appearance of a new enzyme activity with a different affinity for substrate, but appears to be due to an increase in total enzyme activity. Treatment of CHO cells at low cell density with 8-bromo cyclic AMP results in a small increase (20–70%) in transglutaminase activity. By studying CHO mutants which have altered or absent cyclic-AMP-dependent protein kinases, we have demonstrated that the effect of cyclic AMP on transglutaminase activity at low cell density is mediated by cyclic-AMP-dependent protein kinase. However, the protein kinase mutants show normal increases in transglutaminase activity at high cell density, indicating that cyclic AMP-dependent protein kinase does not mediate density-dependent changes in transglutaminase activity.  相似文献   

8.
In this paper we present a novel wireless glucose biosensing system employing direct electron transfer principle based enzyme fuel cell. Using the glucose dehydrogenase complex, which is composed of a catalytic subunit containing FAD, the cytochrome c subunit that harbors heme c as the electron transfer subunit, and chaperone-like subunit, a direct electron transfer-type glucose enzyme fuel cell was constructed. The enzyme glucose fuel cell generated electric power, and the open-circuit voltage showed glucose concentration dependence, which suggests potential applications for this glucose-sensing system. We constructed a miniaturized "all-in-one" glucose enzyme fuel cell, which represents a compartmentless fuel that is based on the direct electron transfer principle. This involved the combination of a wireless transmitter system and a simple and miniaturized continuous glucose monitoring system, which operated continuously for about 3 days with stable response. This is the first demonstration of an enzyme-based direct electron transfer-type enzyme fuel cell and fuel cell-type glucose sensor which can be utilized as a subcutaneously implantable system for continuous glucose monitoring.  相似文献   

9.
1H MRS signals of glutathione and of free glutamate were examined in samples from cultured tumour cells, namely MCF-7 from mammary carcinoma and TG98 from malignant glioma, with the aim of relating signal intensities to aspects of GSH metabolism. Spectra of cells harvested at different cell densities suggest that GSH and glu signal intensities are related to cell density and proliferation and their ratio is dependent on the activity of the gamma-glutamyl cysteine synthetase. The hypothesis is confirmed by experiments performed on cells treated with buthionine sulfoximine that inhibits the enzyme activity.  相似文献   

10.
After demonstrating that three bladder cancer cell lines (human bladder transitional cell carcinoma, MGH-U1; rat bladder transitional cell carcinoma, RBTCC; Nara rat bladder epidermal carcinoma, NBT-II) had galactosyltransferase (GT) activity in their cell surfaces, we investigated the effect of increasing cell density on the activity of this enzyme. All three cell lines responded to increased cell density by increased activity of cell-surface GT towards endogenous acceptor. By the use of exogenous acceptor, we showed that in the two transitional cell carcinoma lines (human and rat), the increased activity was probably caused by increased levels of endogenous acceptor rather than enzyme. In the rat bladder epidermal carcinoma line, on the other hand, increased GT activity seemed to be the result of increased levels of the enzyme. These conclusions were supported by the increased shedding of GT into the medium with increasing cell density in case of the epidermal carcinoma cells, but not the two transitional cell carcinoma lines. Total cell-associated GT activity would indicate that, in contrast to the two transitional cell carcinoma lines, the bladder epidermal carcinoma cells may have an increased rate of synthesis of GT as confluence is approached.  相似文献   

11.
T Ohnishi  S Kimura 《Histochemistry》1976,49(2):107-112
Hepatoma cells grown in monolayer culture display certain alterations in their Mg-ATPase activity present on the cell surface as a function of time during a exponential growth. Levels of enzyme estimated biochemically and expressed as activity per cell increase as the cell population density increases. Histochemical investigation shows that Mg-ATPase activity is located intensively on the surface of cell contact and the activity is not encountered on the cell surface facing the free space. No enzyme activity is detected histochemically on the cell surface of sparse culture. Deposits of acidic polysaccharide are also seen on the surface of cell contact.  相似文献   

12.
Acetylcholinesterase was studied in human red cells that had been fractionated on Ficoll/Triosil density gradients into classes representing different ages in vivo. Reticulocytes have negligible acetylcholinesterase activity; this is rapidly acquired on maturation to the erythrocyte. The activity per cell reaches a maximum and then, after a constant period, declines again towards the end of cell life. The maximum activity and the rates of activity gain and loss per cell are quantitatively different in adults and children. Kinetic studies showed that Vmax. follows the same age/activity profile but Km is unaffected by cell age. The acetylcholinesterase protein content, determined by quantitative crossed immunoelectrophoresis, also shows a profile of increase and then decrease with cell age but the specific activity calculated from the protein estimate shows a reverse picture in which there is a slight decrease from young to mid-age cells followed by an increase again in older cells. These results are interpreted to indicate a complex developmental picture in which the overall cell age against enzyme activity profile is determined partly by the amount of enzyme protein present and partly from the modifying effect on the enzyme activity, of interactions with an aging cell membrane.  相似文献   

13.
Glycerokinase and glycerol-3-phosphate dehydrogenase activities have been examined in cell extracts obtained from Neurospora crassa after growth in media containing glycerol. The glycerokinase is located in the cytosol and has been partially purified by ion exchange and gel-filtration chromatography. The molecular weight of the enzyme has been estimated by sucrose density centrifugation to be approximately 120,000. No effect of either fructose-1,6-bisphosphate or other sugar phosphates on enzyme activity was observed. The G3P dehydrogenase activity in cell extracts is apparently catalyzed by a flavin-linked enzyme as no dependence for either NAD+ or NADP+ could be demonstrated. The enzyme is located primarily in the mitochondria and is not removed from mitochondrial membranes by treatment with digitonin. Separation of digitonin-treated mitochondria on discontinuous sucrose gradients indicated that the enzyme is located on the mitochondrial inner membrane. The synthesis of both enzymes is under some form of catabolite repression since increased specific activities could only be observed in cells grown on acetate, but not glucose, sucrose, or xylose.  相似文献   

14.
The DNA binding stringency of restriction endonucleases is crucial for their proper function. The X-ray structures of the specific and non-cognate complexes of the restriction nuclease EcoRV are considerably different suggesting significant differences in the hydration and binding free energies. Nonetheless, the majority of studies performed at pH 7.5, optimal for enzymatic activity, have found a < 10-fold difference between EcoRV binding constants to the specific and nonspecific sequences in the absence of divalent ions. We used a recently developed self-cleavage assay to measure EcoRV-DNA competitive binding and to evaluate the influence of water activity, pH and salt concentration on the binding stringency of the enzyme in the absence of divalent ions. We find the enzyme can readily distinguish specific and nonspecific sequences. The relative specific-nonspecific binding constant increases strongly with increasing neutral solute concentration and with decreasing pH. The difference in number of associated waters between specific and nonspecific DNA-EcoRV complexes is consistent with the differences in the crystal structures. Despite the large pH dependence of the sequence specificity, the osmotic pressure dependence indicates little change in structure with pH. The large osmotic pressure dependence means that measurement of protein-DNA specificity in dilute solution cannot be directly applied to binding in the crowded environment of the cell. In addition to divalent ions, water activity and pH are key parameters that strongly modulate binding specificity of EcoRV.  相似文献   

15.
It is shown how variations in different properties of red cells can be inter-related provided relations exist among these properties at the single cell level. On the basis of the cell density dependence on cell volume and hemoglobin content, and the assumed volume dependence on red cell cation and hemoglobin content, nine relations among the variations in red cell volume, density, membrane area, hemoglobin content and cation content, and their correlations are derived. Values of seven correlation coefficients are theoretically predicted and are shown to be consistent with the experiments performed by density fractionated red blood cells. The cell volume dependence on cation and hemoglobin content obtained from relations among variations is compared with the predictions obtained by the existing model about the osmotic behavior of the red blood cell. Furthermore, it is shown that data on the variations of the red cell properties indicate the existence of the relation among cation content, hemoglobin content, and membrane area at the level of a single cell.  相似文献   

16.
The electron density of the lipid droplets and mitochondrial matrix of the interrenal cells of Rana perezi differs during the year. This makes it possible to characterize the different stages of interrenal cell activity. A droplet/mitochondria index, based on their relative size, may provide an indicator of cellular activity.  相似文献   

17.
Many microorganisms produce enzymes which lyse the walls of yeasts, fungi, and bacteria. The proportions of different enzyme activities present in the lytic system, their action patterns, synergism, and dependence on inhibitors, constitute the activity profile of the lytic system. Taken together, the activity profile and process conditions for lysis determine the reaction rate and the distribution of products from lysis of any given type of cells. Kinetics of glucan hydrolysis, proteolysis, and lysis of brewer's yeast were compared for two extracellular yeast-lytic enzyme systems with different properties. The enzyme sources used were filtered culture broths from Cytophaga sp. NCIB 9497 grown in batch culture and from Oerskovia xanthineolytica LL-G109, grown under carbon limitation in continuous culture. Rate and extent of cell hydrolysis, and the accumulation of soluble proteins, peptides, and carbohydrates from the lysed yeast cells, are discussed in terms of the activity profiles and potential applications of the two enzyme systems.  相似文献   

18.
NADH diferric transferrin reductase in liver plasma membrane   总被引:6,自引:0,他引:6  
Evidence is presented that rat liver plasma membranes contain a distinct NADH diferric transferrin reductase. Three different assay procedures for demonstration of the activity are described. The enzyme activity is highest in isolated plasma membrane, and activity in other internal membranes is one-eighth or less than in plasma membrane. The activity is inhibited by apotransferrin and antitransferrin antibodies. Trypsin treatment of the membranes leads to rapid loss of the transferrin reductase activity as compared with NADH ferricyanide reductase activity. Erythrocyte plasma membranes, which lack transferrin receptors, show no diferric transferrin reductase activity, although NADH ferricyanide reductase is present. The transferrin reductase is inhibited by agents that inhibit diferric transferrin reduction by intact cells and is activated by CHAPS (3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfate) detergent. Inhibitors of mitochondrial electron transport have no effect on the activity. We propose that the NADH diferric transferrin reductase in plasma membranes measures the activity of the enzyme that causes the reduction of diferric transferrin by intact cells. This transmembrane electron transport system requires the transferrin receptor for diferric transferrin reduction. Because the transmembrane electron transport has been shown to stimulate cell growth, the reduction of diferric transferrin at the cell surface may be an important function for diferric transferrin in stimulation of cell growth, in addition to its role in iron transport.  相似文献   

19.
Isolated cell walls from maize (Zea mays L.) roots exhibited ionically and covalently bound NAD-specific malate dehydrogenase activity. The enzyme catalyses a rapid reduction of oxaloacetate and much slower oxidation of malate. The kinetic and regulatory properties of the cell wall enzyme solubilized with 1 M NaCl were different from those published for soluble, mitochondrial or plasma membrane malate dehydrogenase with respect to their ATP, Pi, and pH dependence. Isoelectric focusing of ionically-bound proteins and specific staining for malate dehydrogenase revealed characteristic isoforms present in cell wall isolate, different from those present in plasma membranes and crude homogenate. Much greater activity of cell wall-associated malate dehydrogenase was detected in the intensively growing lateral roots compared to primary root with decreased growth rates. Presence of Zn2+ and Cu2+ in the assay medium inhibited the activity of the wall-associated malate dehydrogenase. Exposure of maize plants to excess concentrations of Zn2+ and Cu2+ in the hydroponic solution inhibited lateral root growth, decreased malate dehydrogenase activity and changed isoform profiles. The results presented show that cell wall malate dehydrogenase is truly a wall-bound enzyme, and not an artefact of cytoplasmic contamination, involved in the developmental processes, and detoxification of heavy metals.  相似文献   

20.
We have recently demonstrated by electron microscopic cytochemical methods that unfixed human fibroblasts exhibit intense MG2+ dependent adenosine triphosphatase (nATPase) activity in circumscribed areas of the cell nucleoli. The nATPase was specific for ATP and dATP and was inhibited by other ribonucleoside triphosphates. Its intranucleolar localization relative to nucleolar chromatin, and segregation into nucleolar zones after actinomycin treatment of the cells, suggested that the reaction took place in fibrillar centers. This ATPase has now been further characterized by electron microscopic cytochemistry. It was determined that short fixation permitted retention of most of the ATPase activity, and that the enzyme was active at high ionic strength (up to 400 mM KCl), but that the enzyme activity was very sensitive to elevated temperatures. DNA dependence of the enzyme was shown by inhibition of the reaction by DNase pretreatment in parallel with the removal of DNA from the cell, while pretreatment with RNase had no significant effect. The nATPase activity was also selectively inhibited by treatment of the cells with antagonists of the B subunit of DNA gyrase, novobiocin, and coumermycin, but not by nalidixic or oxolinic acids, which interfere with the A subunit of gyrase. Inhibitors of RNA synthesis, actinomycin D and aminonucleoside of puromycin, potentiate rather than inhibit nATPase reaction. The results suggest that nATPase functions to alter the degree of supercoiling or catenation of nucleolar organizer DNA, and is in reality a DNA topoisomerase that hydrolyzes ATP during its action.  相似文献   

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