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)

Cationic rhodamines (Rh 123 and Rh 6G) can cause developmental toxicity in mice and inhibit embryonic mitochondrial respiration following in vivo or in vitro dye exposure. Rh B, a neutral rhodamine, fails to show such effects at comparable doses. To assess effects of rhodamines on development, F0F1ATPase activity and ADP translocation were measured on gestation day (GD) 12 in embryonic and adult mitochondria. ATP synthesis in embryonic mitochondria transplacentally exposed to Rh 123 (15 mg/kg/day) or Rh 6G (0.5 mg/kg/day) given to dams by i.p. injection from GD 7 to 10 were inhibited 39% and 49%, respectively. When isolated mitochondria were treated, dose-dependent inhibition was seen; at 5 micrograms of dye/mg mitochondrial protein, ATP synthesis was inhibited 65% and 81% by Rh 123 and Rh 6G, respectively. When F0F1ATPase activity was assessed, in vitro Rh 123 and Rh 6G exposures at levels up to 8 micrograms/mg mitochondrial protein resulted in enzyme inhibition, but at 10 micrograms/mg, ATPase activity was stimulated. Uncoupler-stimulated ATPase activity was also inhibited. ADP translocation was decreased by 19.1% and 37.7% by Rh 123 and Rh 6G, respectively, at dye concentrations of 20 micrograms/mg. Results of in vitro exposure of maternal liver mitochondria were similar to those for embryonic mitochondria, whereas liver from dams exposed in vivo on GD 7-10 was unaffected on GD 12. In vivo or in vitro treatment with Rh B did not affect any embryonic or maternal parameters. Such results support the hypothesis that inhibition of mitochondrial energy metabolism is a mechanism for the developmental toxicity of cationic rhodamines.
Teratog Carcinog Mutagen 1989
PMID:Effects of in vivo and in vitro exposure to rhodamine dyes on mitochondrial function of mouse embryos. 256 67

Perturbation of DNA replication by chemical-DNA adducts produced by exposure to mutagenic/carcinogenic chemicals results in mutagenic or cytotoxic damage in the DNA. Demonstration of a correlation between cell cycle dependency of cytotoxicity and point mutation at the Na+/K+ ATPase gene could suggest that the two consequences of chemical exposure are caused by the same damage in the template DNA and that both are mediated through DNA replication-associated mechanisms. N-methyl-N'-nitro-N-nitrosoguanidine, N-ethyl-N'-nitro-N-nitrosoguanidine, 4-nitroquinoline-1-oxide, and benzo(a)pyrene-trans-7,8-dihydrodiol-9,10-epoxide demonstrated cell cycle-related patterns of cytotoxicity in 10T1/2 cells, with maximal cell killing produced by exposure in early S phase, and were highly efficient mutagens of the Na+/K+ ATPase gene relative to their cytotoxic potential. In contrast, methyl methanesulfonate and N-acetoxy-N-2-fluorenylacetamide were maximally cytotoxic in cell populations exposed in early G1 phase and were weak mutagens of the Na+/K+ ATPase gene at comparable levels of cytotoxicity. These data suggest that mutagenic/carcinogenic chemicals that are effective at producing mutations by misreplication kill cells by a related mechanism that may be associated with the perturbation of DNA replication.
Environ Mol Mutagen 1988
PMID:Mutagenic potency at the Na+/K+ ATPase locus correlates with cycle-dependent killing of 10T1/2 cells. 284 30

Incubation of L1210 murine leukemia cells in vitro with 10 microM of the bifunctional alkylating agent bis(2-chloroethyl)methylamine (nitrogen mustard, HN2) for 10 min brought about a fall of more than 99.9% in their ability to form colonies when the cells were suspended in 0.5% nutrient agar. Incubation with HN2 also inhibited the influx of the potassium congener 86Rb+ to exponentially proliferating L1210 cells in a concentration-dependent manner. This inhibition was specific and was accounted for by a reduction of a diuretic-sensitive component of 86Rb+ influx, identified in the preceding paper (Wilcock, C. and Hickman, J.A. (1988) Biochim. Biophys. Acta 946, 359-367) as being mediated by a Na+/K+/Cl- cotransporter. Inhibition by 10 microM HN2 was complete after a 3-h incubation. There was no inhibition at this time of the ouabain-sensitive component of 86Rb+ influx, mediated by Na+/K+-ATPase. After 3 h of incubation with 10 microM HN2 there was also no change in the membrane potential of the treated cells as measured by the distribution of the [3H]TPMP+, no decrease in cellular ATP concentration and no change in intracellular pH, and the ability of the cells to exclude the vital dye Trypan blue was not significantly different from control values. These effects of HN2, therefore, appeared to follow lethal damage, but precede cell death. In the stationary phase of L1210 cell growth, the component of HN2 and diuretic-sensitive K+ influx to L1210 cells was reduced, whilst the component constituting the HN2-insensitive ouabain-sensitive sodium pump was increased. The monofunctional alkylating agent MeHN1 (2-chloroethyldimethylamine) which cannot cross-link cellular targets and has no antitumor activity, did not inhibit 86Rb+ influx to L1210 cells when incubated at equimolar or equitoxic concentrations to HN2. Intracellular potassium concentration was maintained close to control values of 138 +/- 10 mM in HN2-treated cells because of an approx. 35% fall in cell volume. The results suggest that the Na+/K+/Cl- cotransporter is a selectively inhibitable target for HN2, and the lesion is discussed with reference to the cytotoxic effects of this agent.
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PMID:Selective inhibition by bis(2-chloroethyl)methylamine (nitrogen mustard) of the Na+/K+/Cl- cotransporter of murine L1210 leukemia cells. 320 52

Nitrogen mustard, HN2 (10(-5) M), inhibited the transport of the potassium congener 86rubidium into PC6A mouse plasmacytoma cells by 45% after a 4 hr incubation at 37 degree in vitro. HN2 (10(-3) M) had a rapid effect on the profile of 86rubidium transport into PC6A cells when added simultaneously with the 86rubidium whereas a monofunctional analogue of HN2((2-chloroethyl)dimethylamine) had no effect at 10(-3) M. The transport of the amino acid analogues alpha-aminoisobutyric acid and cycloleucine into PC6A cells was inhibited by 19% and 5% respectively after a 4 hr incubation with 10(-5) M HN2. The results suggest that the activity of plasma membrane Na+K+-ATPase may be affected by HN2. This enzyme may play a pivotal role in controlling cell growth and division. Crude cell membrane preparations from PC6A cells had variable Na+K+-ATPase activity which was possibly due to contamination with mitochondrial Mg2+-ATPase. Incubation of a crude cell membrane preparation in the presence of 40 nM dicyclohexylcarbodiimide gave constant Na+K+-ATPase activity which was inhibited by 44% on incubation with HN2 (10(-3) M) for 0.5 hr. The monofunctional analogue of HN2 inhibited this preparation by only 7% under the same conditions. It is suggested that inhibition of Na+K+-ATPase by HN2 may be an important facet of its cytotoxic activity.
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PMID:The effects of nitrogen mustard (HN2) on activities of the plasma membrane of PC6A mouse plasmacytoma cells. 621 33

The dichloromethane extract of a coal combustion fly ash sample obtained from an experimental fluidized bed coal combustor was tested for mutagenicity in Salmonella typhimurium and cultured Chinese hamster ovary (CHO) cells. The extract was directly mutagenic in S typhimurium strain TA98 and the nitroreductase deficient strains TA98NR and TA98/1,8DNP6. The mutagenicity observed in TA98NR and TA98/1,8DNP6 was lower than that in TA98. Addition of exogenous Aroclor 1254-induced rat liver supernatant (liver S9) decreased the bacterial mutagenicity of the extract. A different mutagenic response was observed in CHO cells. In the absence of liver S9, although the extract was cytotoxic to CHO cells, no significant mutagenicity was observed. Addition of exogenous liver S9 decreased the cytotoxicity and increased the mutagenicity at both Na+-K+-ATPase and hypoxanthine-guanine phosphoribosyl transferase (HGPRT) gene loci in CHO cells. Using gas chromatography/mass spectrometry (GC/MS) and tandem quadruple mass spectrometry, a number of polynuclear aromatic hydrocarbons (PAHs) and nitrated PAHs (nitro-PAHs) were tentatively identified and quantitated. A possible explanation of the difference in bacterial and mammalian mutagenicity of the extract is that the bacterial mutagenicity was induced by the nitro-PAHs that are potent bacterial mutagens and mammalian mutagenicity was induced by both PAHs and nitro-PAHs that are promutagens.
Environ Mutagen 1983
PMID:Comparative mutagenicity of a coal combustion fly ash extract in Salmonella typhimurium and Chinese hamster ovary cells. 634 66

We have observed quantitative and qualitative differences in the mutability and mutagen-specificity of various drug-resistance marker loci in Chinese hamster ovary (CHO) cells, which suggest that mammalian gene loci may differ in their relative mutability by a given mutagenic agent. We have used the CHO-AT3-2 multiple-marker mutagenesis assay system to examine the dose-dependent induction and kinetics of expression of mutations at four well-characterized, drug-resistance marker loci, after treatment with chemical agents which produce various types of DNA damage. The CHO-AT3-2 subline allows simultaneous quantitation and direct comparison of induced mutation frequencies at the hgprt, oua (Na+/K+ ATPase), aprt, and tk loci. The agents tested in this study included ethyl methanesulfonate, methyl methanesulfonate, mitomycin C, ICR-191, benzo[a]pyrene, and dimethylnitrosamine. The expression kinetics and optimal expression times for each drug-resistance marker were determined in dose-response experiments in which cells from mutagen-treated populations were plated at 1-2-day intervals over a period of 10 days following mutagenesis. Comparison of induced mutation frequencies for each drug-resistance marker after mutagen treatments yielding equivalent cell survivals (equitoxic doses resulting in relative cell survivals of 0.37) revealed locus-specific differences in the relative mutagenicities of the agents tested. These results indicate that the apparent mutagenicity of a particular agent at a single genetic locus may not necessarily be an accurate indicator of that agent's mutagenic potential for the genome as a whole.
Environ Mutagen 1983
PMID:Induction and expression of mutations at multiple drug-resistance marker loci in Chinese hamster ovary cells. 657 8

In a previous study we showed that the formation of O6-ethylguanine (O6-EtGua) in the DNA of CHO cells in culture correlated with mutations induced by ethylnitrosourea (ENU) and diethylsulfate (DES) at the hypoxanthine-guanine-phosphoribosyltransferase (hprt) locus but not at the Na, K-ATPase locus. This study was extended to another ethylating agent, ethyl methanesulfonate (EMS). DNA adduct formation and induction of mutation at the two gene loci were determined simultaneously in CHO cells after EMS exposure. The extent of ethylation at the N7 and O6 positions of guanine and at the N3 site of adenine were measured and the possible correlations with 6-thioguanine resistance (6-TGr) and ouabain resistance (ouar) mutations were investigated. A good correlation between the levels of ethylation at O6 guanine and mutation frequency at hprt gene by all three ethylating agents was observed. In the case of the ouar locus, the frequency of O6-EtGua adducts correlated with mutation induction by EMS and ENU but not by DES. Although both EMS and DES have similar reaction mechanisms, these results highlight differences in their mutational specificity. The comparison of this type of analysis with mutational spectra revealed that correlation studies may be inadequate to analyse multicomponent phenomena like mutation formation.
Environ Mol Mutagen 1993
PMID:Quantitative relationship between ethylated DNA bases and gene mutation at two loci in CHO cells. 838 34

A strong teratogen-6-aminonicotinamide (6-AN)-was tested for its ability to induce cytotoxicity and mutagenicity in Chinese hamster ovary (CHO) cells. Tests were performed in the presence and absence of a metabolic activation system (S-9 mix). Cytotoxicity was evaluated in CHO cells by the total protein content. The two single-gene mutation systems in CHO cells have been investigated. Both involve evaluating the response of the hypoxanthine-guanine phosphoribosyl transferase (HGPRT) locus and specific inhibitors of the cellular (Na2+K+)-ATPase using 6-thioguanine and ouabain as selective agents, respectively. From our results, 6-AN showed a higher cytotoxic effect at concentrations over 1 x 10(-1) mg/ml. Cytotoxicity was significantly different with and without S-9 mix. 6-AN was cytotoxic per se, however, when 6-AN was biotransformed, in the presence of S-9 mix no biological activity (cytotoxic) was detected. Non-significant mutagenic activity was detected with 6-AN in the presence and in the absence of the metabolic activation system.
Teratog Carcinog Mutagen 1996
PMID:Cytotoxicity and mutagenicity of 6-aminonicotinamide in Chinese hamster ovary cells. 879 30

A balance of the activities of multiple enzymes maintains the typical asymmetry of plasma membrane lipids in healthy cells. Such enzyme activities are (a) the aminophopholipid translocase (APTL) (a lipid-selective P-type ATPase that catalyzes inward movement of aminophospholipids), (b) the scramblase (a calcium-dependent and ATP-independent enzyme that catalyzes both inward and outward movement of lipids), (c) the floppase (an ATP-dependent enzyme that catalyzes only outward movement of lipids). Activation or inhibition of any one of these enzymes would lead to a loss in this asymmetry. Apoptosis-associated externalization of phophatidylserine has been reported for many different cell-types, but the exact mechanism involved in this loss of membrane asymmetry has not been identified yet. In this report we demonstrate concurrence of APTL inhibition, caspase-3 activation and apoptosis in CNS-derived HN2-5 and HOG cells. Additionally, we provide data to demonstrate that the phagocytosis of apoptotic, CNS-derived HN2-5 cells by the microglial cells requires recognition through phosphatidylserine (PS). Thus the enzyme aminopholipid translocase is inhibited during apoptosis of CNS-derived cells and this alone could account for the loss of plasma membrane lipid-asymmetry observed in these cells.
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PMID:Apoptosis is associated with an inhibition of aminophospholipid translocase (APTL) in CNS-derived HN2-5 and HOG cells and phosphatidylserine is a recognition molecule in microglial uptake of the apoptotic HN2-5 cells. 1267 7

Thermoacidophilic crenarchaea of the genus Sulfolobus contain six AAA (ATPase associated with various cellular activities) proteins, including a proteasome-associated ATPase, a Vps4 (vacuolar protein sorting 4) homologue, and two Cdc48 (cell-division cycle 48)-like proteins. The last two AAA proteins are deeply branching divergent members of this family without close relatives outside the Sulfolobales. Both proteins have two nucleotide-binding domains and, unlike other members of the family, they seem to lack folded N-terminal domains. Instead, they contain N-terminal extensions of approx. 50 residues, which are predicted to be unstructured, except for a single transmembrane helix. We have analysed the two proteins, MBA (membrane-bound AAA) 1 and MBA2, by computational and experimental means. They appear to be monophyletic and to share a common ancestor with the Cdc48 clade. Both are membrane-bound and active as nucleotidases upon heterologous expression in Escherichia coli. They form ring complexes, which are stable after solubilization in a mild detergent and whose formation is dependent on the presence of the N-terminal extensions.
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PMID:Two unique membrane-bound AAA proteins from Sulfolobus solfataricus. 1914 14


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