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)

Clofibrate increased oligomycin-resistant ATPase activity in peroxisomes more than 17-fold (5.15 +/- 0.71 milliunits/mg protein) in rat liver. The activity was dependent on divalent cations (Mg2+ > Ca2+) with an optimum pH of 7.5. This activity was partially inhibited by N-ethylmaleimide (NEM), 4,4'-dithiocyanatostilbene-2,2'-disulfonic acid (DIDS), silicotungstic acid (STA), and high concentrations of N,N'-dicyclohexylcarbodiimide (DCCD). Proteinase K digestion of intact peroxisomes severely reduced the NEM-sensitive activity, but little affected the NEM-resistant activity. NEM-sensitive and -resistant ATPases showed Km values for ATP of 780 and 73 microM, respectively. The NEM-sensitive activity was inhibited completely by DIDS, 7-chloro-4- nitrobenzo-2-oxa-1,3-diazole (NBD-Cl), tributyltin chloride (TBT), and quercetin, and partially by DCCD and STA, whereas the NEM-resistant activity was totally insensitive to these chemicals except for STA. These activities had unique requirements for divalent cations, anions, and substrates, respectively. They were partially separated by gel filtration chromatography and had molecular masses of 520 kDa (NEM-sensitive enzyme) and 450 kDa (NEM-resistant enzyme), respectively.
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PMID:Induction and characterization of two types of ATPase on rat liver peroxisomes. 142 26

Clofibrate, a hypolipidemic agent, has been shown to increase muscle protein degradation. The possible role of thyroid hormones in this phenomena was examined. Clofibrate treatment of rats for 2 weeks resulted in a significant decrease in total thyroxine and triiodothyronine levels in serum. Reverse T3 and resin uptake values remained unchanged. When exogenous thyroxine was co-administered with clofibrate, serum TSH levels were suppressed, but the increased muscle protein degradation was not reversed. Equilibrium dialysis and Scatchard analysis of the binding of 125I-thyroxine to serum proteins indicated that clofibrate competitively inhibits the binding of thyroid hormone to serum proteins by decreasing its apparent binding affinity. In the presence of lower total thyroid hormone concentrations and an elevated free thyroxine fraction, the total free hormone levels are estimated to be in the normal range in the serum of clofibrate treated rats. Clofibrate seems to act like thyroid hormone since it binds to and displaces T4 from plasma proteins. Because free thyroid hormone levels are in the normal range, the thyroid hormone-like effects of clofibrate on the cell may be additive to the T4 effects, and are probably responsible for the hypermetabolic state seen in the muscle of clofibrate-treated animals. Our data suggest that the effects of clofibrate in muscle are complex. In addition to competitively altering the binding of thyroxine to serum proteins, this substance may also exert a hitherto unrecognized thyroid-hormone-like subcellular effect resulting in increased muscle protein degradation, and in augmented ouabain-sensitive ATPase activities.
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PMID:Influence of clofibrate on thyroid hormone and muscle protein turnover. 643 38

The effect of blockade of ouabain-sensitive alpha 2 and alpha 3 (neural type) isozymes of Na+, K(+)-ATPase was investigated on frog neuromuscular preparations by recording the frequency augmentation-potentiation (FAP) of the endplate potential, an electrophysiological and neuropharmacological technique to analyze the drug actions on the release process of the readily releasable transmitter quanta. Erythrosin B, which was thought to selectively inhibit the neural type Na+, K(+)-ATPase, pivoted the log-linear FAP relation counterclockwise without altering the intercept on the ordinate. Chlormadinone had a similar action. An increase in the concentration of extracellular K+ ions pivoted the FAP relation clockwise with a concomitant upward shift of the intercept on the ordinate, and low K+ Ringer's solution produced an inverse effect. In contrast, Li+ ions shifted the FAP relation upwards dose-dependently leaving its slope unchanged. Cinnarizine, a blocker for inositol-1,4,5-trisphosphate-induced Ca2+ release, and 5,5'-dimethyl-1,2-bis(2-amino-phenoxy)ethane-N,N,N',N'-tetraacetic acid, a specific intracellular Ca2+ chelator, significantly antagonized the potentiating action of Li+. The ouabain-sensitive neural type Na+, K(+)-ATPase isozyme, which is abundant in neural tissues, seems to play an important role in stimulation frequency-dependent modulation of the quantal transmitter release such as FAP.
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PMID:Effects of inhibitors of ouabain-sensitive Na+, K(+)-ATPase and Li+ ions on the neuromuscular transmission of the frog. 747 24

The matrix of peroxisomes has been considered to be homogeneous. However, a fine network of tubules is visible in electron micrographs at very high magnification. This substructure becomes more positive in a high-contrast photocopy and with an imaging-plate method. Clofibrate, bezafibrate, and aspirin increase peroxisomes. In proliferated peroxisomes, the density of matrix is low and the fine network is more visible. The effect of proliferators is more significant in males than in females. This sex difference may involve the action of estrogen, growth hormone, cytochrome P-450 and thyroxine. Mg-ATPase is localized on the limiting membrane of peroxisomes. Even on the membrane of irregular projections of proliferated peroxisomes, Mg-ATPase is evident cytochemically. Carnitine acetyltransferase is detectable in the matrix of proliferated peroxisomes. Withdrawal of proliferators results in a rapid decrease of peroxisomes. This may indicate the existence of peroxisome suppressors. Alternatively, dynamic transformation of vesicular to tubular types in peroxisome reticulum may occur. Such transformation has been described in lysosomes and mitochondria.
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PMID:Molecular organization of hepatocyte peroxisomes. 755 86

The ability of six peroxisome proliferators to modulate Ca2+ homeostasis was studied in freshly isolated rat hepatocytes. Clofibrate and bifonazole (0.5 mM) caused a transient increase in cytosolic-free Ca2+ concentration ([Ca2+]i) by releasing the intracellular inositol 1,4,5-trisphosphate-sensitive Ca2+ pool. However, the mobilization of this pool by clofibrate was only transient; a subsequent exposure of the cells to the endoplasmic reticulum Ca(2+)-ATPase inhibitor thapsigargin resulted in a second release of the same Ca2+ store, indicating that this pool could refill from the cytosol, independently of extracellular Ca2+. By contrast, bifonazole-exposed hepatocytes no longer responded to a stimulation by thapsigargin. Bifonazole also strongly inhibited Ca2+ influx. Ciprofibrate and nafenopin (0.5 mM) produced increases in [Ca2+]i that were sustained, even in the absence of extracellular Ca2+. The [Ca2+]i response was not due to release of the inositol 1,4,5-trisphosphate-sensitive Ca2+ pool and was not inhibited by prior treatment with the protonophore carbonyl cyanide 4-(trifluoromethoxy) phenylhydrazone, but was slightly antagonized by prior exposure to the Ca2+ ionophore ionomycin. Pretreating the cells with nafenopin completely abolished the response elicited by ciprofibrate, and vice versa. By contrast to the other peroxisome proliferators, WY-14,643 and bezafibrate (1 mM) increased cytosolic free Ca2+ only by approximately 30 nM. In conclusion, the structurally diverse peroxisome proliferators tested in this study all produced changes in [Ca2+]i in hepatocytes but through the redistribution of different internal Ca2+ pools. Further studies are needed to determine whether any of the observed Ca2+ changes have a role in the pleiotropic effects elicited by peroxisome proliferators.
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PMID:Diverse mechanisms of calcium mobilization by peroxisome proliferators in rat hepatocytes. 787 41

Cinnarizine (1-diphenylmethyl-4-(3-phenyl-2-propenyl)piperazine) and its di-fluorinated derivative flunarizine inhibit the MgATP-dependent generation of a transmembrane proton electrochemical gradient in chromaffin granule ghosts. The concentrations giving 50% inhibition (IC50) of the MgATP-dependent generation of the pH-gradient were 5.9+/-0.6 microM (n = 6) and 3.0+/-0.3 microM (n = 5) for cinnarizine and flunarizine, respectively. The IC50 values for inhibiting the generation of the membrane potential were even lower, i.e. 0.19+/-0.06 microM (n = 6) and 0.15+/-0.01 microM (n = 4) for cinnarizine and flunarizine, respectively. Cinnarizine (10 microM) also inhibited the energy-dependent vesicular uptake of [14C]-dopamine (50 microM) by 76%, i.e. from 2.1+/-0.9 to 0.5+/-0.6 nmol/mg protein/min (n = 5, P < 0.002). Cinnarizine (10 microM) increased the MgATPase activity of the granule ghosts by 47+/-26% (n = 4) compatible with an uncoupling of the vacuolar H+-ATPase activity. The IC50-values observed for the two compounds are in the same range as their reported therapeutic plasma concentrations in vivo, suggesting that cinnarizine and flunarizine may well inhibit proton pumping and catecholamine uptake in storage vesicles also in vivo. This mechanism of action may contribute to the drug-induced parkinsonism seen as a side-effect of the two drugs.
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PMID:Drug-induced parkinsonism: cinnarizine and flunarizine are potent uncouplers of the vacuolar H+-ATPase in catecholamine storage vesicles. 1046 91

Clofibrate is a peroxisome proliferator that can cause hepatic cancer in rodents. It has been suggested that oxidative damage is involved in this hepatocarcinogenesis, although the data are conflicting. We confirmed that clofibrate causes oxidative damage in nuclei from the livers of mice treated with this substance, measured both as protein carbonyls and levels of 8-hydroxy-2'-deoxyguanosine (8-OHdG) in DNA. In addition, clofibrate also affects mitochondria, causing elevated levels of carbonyls and 8-OHdG, increased state 4 respiration and decreased adenosine triphosphatase (ATPase) activity. No evidence for clofibrate-induced lipid peroxidation in mitochondria was obtained. We propose that mitochondria may be a major target of injury and a source of oxidative stress in clofibrate-treated animals.
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PMID:Mitochondrial damage by the "pro-oxidant" peroxisomal proliferator clofibrate. 1056 42

Clofibrate-induced retrograde Golgi membrane movement was blocked or retarded when NRK cells were treated with sodium azide/2-deoxyglucose, nocodazole, taxol, and destruxin B, indicating that it depends on energy, and the dynamic state of microtubules, and being acidic or vacuolar-type ATPase function. PDMP and phospholipase A2 inhibitors also blocked it. These characteristics are similar to those of brefeldin A (BFA) and nordihydroguaiaretic acid (NDGA), inducers of retrograde Golgi membrane movement. However, clofibrate was distinguished from BFA in that BFA action was insensitive to phospholipase A2 inhibitors and from NDGA in that NDGA stabilized microtubules against nocodazole and its action was almost insensitive to taxol. The trans Golgi network (TGN) was resistant to clofibrate, while BFA and NDGA dispersed it. To our knowledge, clofibrate is the first drug to show such different effects on the Golgi and TGN and, therefore, is expected to be a useful tool to distinguish their architecture and/or membrane dynamics.
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PMID:Characterization of clofibrate-induced retrograde Golgi membrane movement to the endoplasmic reticulum: clofibrate distinguishes the Golgi from the trans Golgi network. 1157 22

This study compared renal hemodynamics, the expression of CYP4A isoforms [the enzymes for 20-hydroxyeicosatetraenoic acid (20-HETE) production], and tubular sodium transporters in male rats fed a high-fat (HF) or control diet for 10 weeks. We also studied the effect of treatment with clofibrate, a CYP4A inducer, on sodium retention and renal function and on CYP4A expression in HF rats. HF rats had higher blood pressure (BP), renal plasma flow, and glomerular filtration rate (GFR), but no significant change in renal vascular resistance. Reverse transcription-polymerase chain reaction analysis showed that CYP4A1 and CYP4A8 expression was significantly decreased in the renal cortex of HF rats. Western blot analysis showed up-regulation of expression of the alpha-subunit of the epithelial sodium channel (alpha-ENaC), the beta-subunit of the epithelial sodium channel (beta-ENaC), sodium/hydrogen exchanger (NHE)-3, and the renal outer medulla K(+) channel (ROMK) in HF rats, whereas expression of the gamma-subunit of the epithelial sodium channel and the alpha1-subunit of Na(+)-K(+)-ATPase remained unchanged. Thus, HF treatment caused the reduction of renal CYP4A1 and CYP4A8 expression, whereas the increases in alpha-ENaC, beta-ENaC, NHE-3, and ROMK expression in renal tubules may have contributed sodium retention and hypertension in HF rats. Furthermore, clofibrate treatment (240 mg/kg/day) caused the decrease of BP and GFR and the attenuation of cumulative sodium balance in HF rats. The attenuation of sodium retention by clofibrate treatment is linked to decreased expression of NHE-3 in renal cortex. Clofibrate induction of CYP4A expression occurred in proximal tubules and in the thick ascending limb of the loop of Henle but not in renal microvessels. This induction correlated with the expression of peroxisome proliferator-activated receptor (PPARalpha) in renal tubules. Therefore, these results suggest that the effects of clofibrate on sodium retention and blood pressure regulation in HF rats may be due to the induction of renal tubular 20-HETE production through the PPARalpha pathway.
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PMID:Induction of renal 20-hydroxyeicosatetraenoic acid by clofibrate attenuates high-fat diet-induced hypertension in rats. 1633 92