Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.14 (ATP synthase)
 7,042 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adenosine triphosphatase (ATPase) activities of sonically prepared submitochondrial particles of rat liver and Morris Hepatoma 3924A were compared as a function of changes in temperature. On Arrhenius plots, a discontinuity at 18 degrees was observed for the rat liver mitochondrial ATPase, while the hepatoma mitochondrial ATPase revealed a discontinuity at 20.4 degrees. Values for energy of activation of the rat liver and hepatoma mitochondrial ATPases were comparable below the break (34.5 and 35.5 kcal/mole, respectively) and above the break (11.6 and 9.2 kcal/mole, respectively). Solubilization of the mitochondrial membrances with Triton X-100 resulted in constant and similar values of energy of activation for the ATPases Km values of hepatoma and rat liver mitochondrial ATPases for adenosine triphosphate were similar in both the membrane-bound and solubilized states. The lack of uncoupler-stimulated ATPase activity in hepatoma mitochondria is apparently not due to membranous effects on the affinity of the ATPase for adenosine triphosphate.
Cancer Res 1977 Dec
PMID:Membranous effects on adenosine triphosphatase activities of mitochondria from rat liver and Morris hepatoma 3924A. 20 Mar 47

Most chromosome aberrations in gliomas are numerical, resulting in either gains or deficiencies of whole chromosomes. In tumors of low malignancy, the karyotype is frequently normal or exhibits a loss of sex chromosome and a gain of chromosome 7. These two anomalies may not be directly related to malignancy. In the highly malignant cases, the two most frequent aberrations are the gain of chromosome 7 and the loss of chromosome 10, other anomalies such as losses or deletions of chromosomes, 9, 22, 6, 13 and 14 being detected at various frequencies. Several of these chromosomes carry important genes of adenine metabolism: AK1 and AK3 (adenylate kinase) and MTAP (methylthioadenosine phosphorylase) for chromosome 9; ADK (adenosine kinase) and mitochondrial ATPase for chromosome 10; ADSL (adenylosuccinate lyase) for chromosome 22, NP (nucleoside phosphorylase) for chromosome 14. We performed the corresponding assays of enzyme activity on both fresh tumors and tumors grafted on nude mice, which showed that these enzymes had a relatively low activity although the tumors were proliferating. However, chromosome losses do not seem to directly cause the metabolic alterations by gene dosage effect. Interestingly, chromosome 10, frequently deficient, also carries genes of importance for glycolysis (hexokinase) and glutamate metabolism (glutamate dehydrogenase and glutamate oxaloacetate transaminase). The deficiency for these genes could be taken into account for a better type of chemotherapy by antimetabolics.
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PMID:[Chromosome abnormalities and adenine metabolism in human glial tumors]. 144 60

HL60 cells isolated for resistance to vincristine (HL60/Vinc cells) or doxorubicin (HL60/Adr cells) contain enhanced levels of an energy-dependent drug efflux pump. HL60/Vinc cells contain the drug transporter P-glycoprotein, whereas the HL60/Adr isolate does not. In the present study, we examined the possible involvement of vacuolar H(+)-adenosine triphosphatase (H(+)-ATPase) activity in drug resistance in HL60 cells. We utilized bafilomycin A1, an agent which selectively inhibits vacuolar H(+)-ATPase activity at low concentrations. The results showed that bafilomycin A1 induced a major increase in drug accumulation and inhibited drug efflux in both HL60/Adr cells and HL60/Vinc cells. Similar results were obtained with 7-chloro-4-nitrobenz-2-oxa 1,3 diazole, an agent which is also capable of inhibiting vacuolar H(+)-ATPase. Azide, an inhibitor of F1F0 mitochondrial ATPase, and vanadate and ouabain, which are inhibitors of E1E2-type ATPase, did not affect drug levels in resistant cells. We also observed that bafilomycin A1 did not compete with [3H]azidopine binding to P-glycoprotein. Thus, bafilomycin A1 does not appear to function as a substrate for P-glycoprotein. These results suggest an involvement of vacuolar H(+)-ATPase activity in the pathway of drug efflux from HL60/Adr cells and HL60/Vinc cells. The mechanism of this action remains to be determined.
J Natl Cancer Inst 1991 Aug 07
PMID:Involvement of vacuolar H(+)-adenosine triphosphatase activity in multidrug resistance in HL60 cells. 183 9

N-(4-Methylphenylsulfonyl)-N'-(4-chlorophenyl)urea (MPCU) is a new agent that exhibits high therapeutic activity against human and rodent tumor models. Initial studies indicated that in vitro [3H]MPCU was concentrated 4- to 6-fold in GC3/c1 human colon adenocarcinoma cells in an azide-sensitive manner. In this study the dependence of uptake and concentrative accumulation of MPCU upon temperature, plasma membrane potential, and the electrochemical potential of mitochondria has been examined. Accumulation and efflux of MPCU were temperature dependent. At 3.6 microM MPCU, initial rates of uptake (15 s) were 1.4, 38.0, and 84.2 pmol/min/10(6) cells at 2 degrees C, 23 degrees C, and 37 degrees C, respectively. The rate of uptake and concentrative accumulation within GC3/c1 cells was not altered in high K+ buffer or by 1 mM ouabain, indicating that plasma membrane potential was not significant in these processes. Concentrative accumulation, but not initial uptake, was inhibited by carbonyl cyanide p-trifluoromethoxyphenylhydrazone, 2,4-dinitrophenol, and sodium azide. Glucose partially antagonized the inhibition of these agents which uncouple oxidative phosphorylation. Oligomycin, an inhibitor of mitochondrial ATP synthase, did not inhibit uptake or concentrative accumulation of MPCU. However, oligomycin in the presence of 2-deoxyglucose significantly inhibited concentrative accumulation of MPCU. These results suggested that concentrative accumulation of MPCU was dependent upon the mitochondrial transmembrane gradient rather than ATP, although direct implication of ATP could not be excluded. To examine which component of this gradient was predominant in causing MPCU sequestration, the ionophores valinomycin and nigericin were used. Valinomycin, which collapses the charge gradient across the mitochondrial matrix membrane, caused only slight inhibition of MPCU accumulation, and the effect was similar at 2 or 10 mumol. In contrast, nigericin (which collapses the pH gradient and increases mitochondrial membrane potential) inhibited by approximately 90% concentrative accumulation of MPCU. These data suggested that MPCU was being concentrated in mitochondria and that this was dependent upon the pH gradient across mitochondrial membrane. In cells exposed to MPCU or the analogue N-(5-indanylsulfonyl)-N'-(4-chlorophenyl)urea, enlargement of mitochondria was observed within 24 h and appeared to be the initial morphological change associated with drug treatment. These results implicate mitochondria as a site of sequestration of diarylsulfonylureas and as a potential site of action.
Cancer Res 1990 Feb 01
PMID:Evidence for mitochondrial localization of N-(4-methylphenylsulfonyl)-N'-(4-chlorophenyl)urea in human colon adenocarcinoma cells. 229 7

Bone remodeling is a constant phenomenon balancing between osteoblastic bone formation and osteoclastic bone resorption in the neighbourhood of a cellular micro-environment including stromal and hemopoietic cells. Numerous local factors and hormones modulate such a mechanism and act synergistically, usually through the indirect production of osteoblastic coupling factors. The majority of the cytokines acting on bone remodeling possess both actions upon activation of mature osteoclasts and differentiation of hemopoietic osteoclast progenitors. Components from bone matrix which include non-collagenous bone proteins and other local factors are major products acting on bone remodeling. The presence of a cancer may determine changes in bone remodeling, directly through tumor-mediated resorption or indirectly through the action of local or systemic factors with or without tumor involvement of bone. Bone remodeling associated with cancer is usually an uncoupled phenomenon with decreased bone formation and increased bone resorption. In B-cell malignancies, abnormal bone remodeling is an early event linked to specific bone involvement. Abnormal osteoclast differentiation (micro- or macro-resorption) represents a major difference between myeloma and other B-cell malignancies. Several synergistic factors produced by tumor cells and micro-environment are usually implicated in the pathogenesis of bone lytic lesions, hypercalcemia or histomorphometric bone changes associated with cancers.
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PMID:[Bone tissue and cancer]. 240 92

The functional properties of mitochondria bound hexokinase are compared in two subpopulations of the HT29 human colon cancer cell-line: (1) the HT29 Glc+ cells, cultured in the presence of glucose, which are poorly differentiated and highly glycolytic and (2) the HT29 Glc- cells, adapted to grow in a glucose-free medium, which are 'enterocyte-like' differentiated and less glycolytic when given glucose (Zweibaum et al. (1985) J. Cell Physiol. 122, 21-28). The activities of hexokinase, phosphofructokinase-1 and pyruvate kinase are found to be twice as high in Glc+ cells when compared to Glc- cells. Besides, the respiration rate is decreased in Glc+ cells compared to Glc- cells. These results correlate with the higher glycolytic rate in Glc+ cells. In many tissues, it has been shown that the binding of hexokinase to the mitochondrial outer membrane allows a preferential utilization of the ATP generated by oxidative phosphorylation which, in turn, is activated by immediate restitution of ADP. In highly glycolytic cancer cells, although a large fraction of hexokinase is bound to the mitochondria, the existence of such a channeling of nucleotides is still poorly documented. The rates of glucose phosphorylation by bound hexokinase were investigated in mitochondria isolated from both Glc+ and Glc- cells either with exogenous ATP or with ATP generated by mitochondria supplied with ADP and succinate (endogenous ATP). Diadenosine pentaphosphate (Ado2P5), oligomycin and carboxyatractyloside (CAT) were used in combination or separately as metabolic inhibitors of adenylate kinase, ATP synthase and ATP/ADP translocator, respectively. Exogenous ATP appears to be 6.5-times more efficient than endogenous ATP in supporting hexokinase activity in the mitochondria from Glc+ cells and only 1.8-times cells. The rate of oxidative phosphorylation being higher in mitochondria from Glc- cells, hexokinase activity is higher in this model when ATP is generated by respiration. Furthermore, in Glc+ mitochondria, the adenylate kinase reaction appears to be an important source of endogenous ATP for bound hexokinase, while, in Glc- mitochondria, hexokinase activity is almost totally dependent on the ATP generated by oxidative phosphorylation. This result might be explained by our previous finding that mitochondria from Glc+ cells lack contact sites between outer and inner membrane, whereas numerous contacts were observed in mitochondria from Glc- cells (Denis-Pouxviel et al. (1987) Biochim. Biophys. Acta 902, 335-348).
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PMID:Study on ATP-generating system and related hexokinase activity in mitochondria isolated from undifferentiated or differentiated HT29 adenocarcinoma cells. 252 30

A study of kinetic properties of mitochondrial ATPase in Morris hepatoma 3924A is reported. The results show that submitochondrial particles isolated from the tumor tissue exhibited a three-fold increase in both the Km for ATP hydrolysis and Ki for the competitive inhibitor [beta, gamma-imido]ATP with regard to normal rat liver. Eadie-Hofstee analysis of the kinetics of ATP hydrolysis show that both the high and the low affinity constants for ATP were enhanced in the hepatoma with respect to the rat liver enzyme. Kinetic analysis of passive proton conduction through the F0 sector of ATPase does not reveal any difference between Morris hepatoma and rat liver. In Morris hepatoma particles, 50% inhibition of the hydrolase activity required 10 times more oligomycin than in control particles. On the contrary, 50% inhibition of proton conduction occurred in both hepatoma and rat liver particles at the same concentration of oligomycin. It is concluded that in Morris hepatoma the catalytic process in F1 and the functional connection between F1 and F0 of the ATP synthase are altered with regard to control rat liver.
Cancer Res 1989 Dec 01
PMID:Kinetic properties of mitochondrial H+-adenosine triphosphatase in Morris hepatoma 3924A. 253 Oct 32

Using rat liver mitochondria we determined that the primary biochemical target for inhibition of mitochondrial bioenergetic function by rhodamine 123 (Rh123) was FoF1-ATPase and that the amount of Rh123 associated with mitochondria is proportional to the mitochondrial membrane potential. Inhibition of coupled respiration by Rh123 in mitochondria isolated from CX-1, a Rh123-sensitive carcinoma cell type, and CV-1, a Rh123-insensitive normal epithelial cell type, was linearly related to the amount of Rh123 added (micrograms/mg protein) with CX-1 mitochondria exhibiting 2-fold greater inhibition compared to CV-1 mitochondria at any given amount of dye. The inhibition pattern for mitochondria isolated from MIP101, a Rh123-insensitive carcinoma cell type, was nonlinear, exhibiting greater sensitivity than CV-1 mitochondria at very low amounts of Rh123 but becoming less sensitive than either CV-1 or CX-1 at higher amounts. Rh123 inhibited FoF1-ATPase activity to a similar extent and in a concentration-dependent manner in both CV-1 and CX-1 mitochondria, but a different and complex pattern of inhibition was apparent for MIP101 mitochondria. Moreover, mitochondria from the 2 carcinoma cell types, CX-1 and MIP101, had higher membrane potentials (163 +/- 7 and 158 +/- 8 mV, respectively) than did mitochondria from the normal epithelial cell type, CV-1 (104 +/- 9 mV). It was concluded that differences in both mitochondrial membrane potential and sensitivity of FoF1-ATPase contribute to the selective cytotoxicity exhibited by Rh123 for certain cell types in vitro.
Cancer Res 1987 Aug 15
PMID:Basis for the selective cytotoxicity of rhodamine 123. 288 18

Placental polypeptides present in crude preparations of transforming growth factors stimulate glycolysis when added to quiescent 3T3 cells, normal rat kidney, and chick embryo fibroblasts. The stimulation was apparent over a time period of at least 90 min and was seen at glucose concentrations ranging from 1 to 30 mM. Duramycin, an antibiotic isolated from Streptomyces cinnamomeus, inhibits the polypeptide-stimulated and nonstimulated glycolysis of intact cells, since it permeabilizes cells to Pi and nucleotides. However, duramycin also inhibits the Na+-K+-ATPase as well as the ouabain-insensitive Mg2+-ATPase of plasma membranes. Duramycin has no effect on glycolysis catalyzed by cell-free extracts of Ehrlich ascites tumor cells in the presence of mitochondrial ATPase but partially inhibits glycolysis when ADP and Pi are generated by ATPases of plasma membrane preparations.
Cancer Res 1984 Apr
PMID:Stimulation of glycolysis by placental polypeptides and inhibition by duramycin. 614 64

The effect of the association of Gossypol and Lonidamine on the energy metabolism of Ehrlich ascites tumor cells has been investigated. The action of the drug on tumor cells was studied by addition of the drugs to cells harvested from Swiss male mice. The results may be summarized as follows: (1) Low concentrations of Gossypol increase the rate of oxygen consumption by uncoupling oxidative phosphorylation. High concentrations result in an inhibition of oxygen consumption with a mechanism that must be regarded as not directly related to the uncoupling activity. (2) Gossypol, at concentrations at which it exerts an uncoupling activity, stimulates mitochondrial ATPase which in turn increases the aerobic and anaerobic rates of lactate production. The decrease of glycolysis at high concentrations of Gossypol does not depend on the inhibition of enzymes of the glycolytic pathway, but must be ascribed to cell death. (3) The association of a low concentration of Gossypol with Lonidamine brings about a further inhibition of oxygen consumption. Moreover, Lonidamine abolishes the stimulation of glycolysis induced by Gossypol and lowers lactate production to values that are quite similar to those found with Lonidamine alone. (4) It may be concluded that the association of Gossypol and Lonidamine results in a very effective decrease of the energy requirements of cancer cells.
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PMID:The effect of the association of Gossypol and Lonidamine on the energy metabolism of Ehrlich ascites tumor cells. 685 6


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