KEGG:D01453 - FACTA Search

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Query: KEGG:D01453 (caffeine)
21,611 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasma membrane vesicles were isolated from a subline of L929 mouse fibroblasts grown on defined medium in the absence of serum. These vesicles were not significantly contaminated by mitochondria or endoplasmic reticulum. The isolation procedure, a modification of that originally developed by McKeel and Jarett (McKeel, D.W., and Jarett, L. (1970) J. Cell Biol. 44, 417-432) employs mechanical homogenization in isotonic medium followed by differential centrifugation. The resultant plasma membrane vesicles take up radioactivity when exposed to uniformly labeled nucleosides. Two subfractions of the plasma membrane were isolated, distinguished by their differing activity of 5'-nucleotidase and (Na+,K+)-stimulated ATPase, two well known plasma membrane enzyme markers. Uptake of nucleoside radioactivity was extensively studied in one subfraction; it was linear with time and membrane concentration over ranges used for the studies. Apparent Km values for uptake of radioactivity from adenosine, inosine, and uridine were 7.1 +/- 26 muM, respectively. Uptake of radioactivity from all three nucleosides exhibits a broad pH optimum from pH 7 to pH 9, but falls off rapidly at lower pH. N-Ethylmaleimide was an effective inhibitor of uptake of radioactivity from all three nucleosides; uptake of radioactivity from uridine is more sensitive than uptake of radioactivity from the purine nucleosides. Adenosine inhibited uptake of radioactivity from inosine more than from uridine. Inosine inhibited the uptake of radioactivity from adenosine, but uridine did not. Caffeine and 6-methylaminopurine riboside (6-N-methyladenosine differentially inhibit uptake of radioactivity from adenosine and inosine, and thus the vesicles apparently possess seperate transport systems for uptake of radioactivity from purine nucleosides and from uridine.
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PMID:Transport mechanisms in isolated plasma membranes. Nucleoside processing by membrane vesicles from mouse fibroblast cells grown in defined medium. 0 4

In sarcoplasmic reticulum of rabbit skeletal muscles the activity of Ca2+, Mg2+- dependent ATPase was distinctly inhibited under effect of neuroleptic drugs - derivatives of phenothiazine and butyrophenone. The effect of tricyclic antidepressants was less pronounced. Tranquilizers (derivatives of 1,4-benzodiazepine) inhibited the enzyme, but trioxazin was only slightly active. High concentrations of lithium salts and of psychostimulants caffeine and corasole were found to stimulate the Ca2+, Mg2+-ATPase activity; low concentrations of the substances slightly inhibited the enzyme. The blocking effect of psychotropic drugs was more distinct, if the enzyme preparations were previously treated with ATP.
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PMID:[Effect of psychotropic preparations on the activity of Ca- and Mg-dependent ATPase of the sarcoplasmic reticulum]. 1

Caffeine, 50 mM, inhibited ATP-mediated 45Ca uptake by plasma membrane vesicles from bovine adrenal medullary microsomes by 40 percent. Hg++ (0.09 mM) completely inhibited 45Ca uptake, while Cd++ (0.3 mM) and Ba++ (0.3 mM) produced mean depressions of 80 and 41 percent, respectively. 45Ca uptake in the presence of Zn++ (0.3mM) was not significantly different from controls. Inhibition of calcium accumulation in plasma membrane vesicles by these agents was not correlated with their ability to inhibit the enzyme Ca++-ATPase. Caffeine and certain divalent cations may modify secretory responses by inhibiting the active extrusion of calcium through the adrenal medullary plasma membrane.
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PMID:Inhibition of the adrenal chromaffin cell membrane calcium pump by caffeine and various divalent cations. 12 46

The effect of dantrolene sodium, 1-(5-(p-nitrophenyl)furfuryli-deneamino)hydantoin sodium hydrate, on electrical and mechanical response in frog skeltal muscles (whole muscles or single fibers) and on the biochemical properties of contractile proteins and fragmented sarcoplasmic reticulum isolated from frog or rabbit skeletal muscle was investigated. The peak tensions of twitch, tetanus and potassium contracture were significantly inhibited by dantrolene, without affecting the magnitude of resting potential, the amplitude and duration of action potential and the negative afterpotential. On the other hand, ATP-INDUCED SHORTENING OF GLYCEROL-EXTRACTED RABBIT PSOAS MUSCLE FIBERS, ATPase activity of frog myofibrils and Ca release induced by caffeine, Ca uptake and ATPase activity of fragmented sarcoplasmic reticulum of frog or rabbit muscle were not affected by dantrolene. Caffeine contracture was partially inhibited by dantrolene and was almost unchanged by it in potassium-depolarized muscele fiber. Nitrate ions and low concentration of caffeine rapidly recovered the twitch inhibition induced by dantrolene. These results suggested that dantrolene acts on the membrane of transverse tubules and possibly the triadic junction and that it inhibits the inward movement of Ca and subsequently decreases the release of activator Ca from sarcoplasmic reticulum.
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PMID:Effect of dantrolene sodium on excitation-contraction coupling in frog skeletal muscle. 13 70

It was found that some substances as aspartate, glutamate, atropine, physostigmine, ephedrine, caffeine and theophylline tended to alter the erythrocyte shape in the same concentration in which also the Mg++-dependent ATPase activity had been changed. The employment of various concentrations of barbiturate revealed that changes of the erythrocyte shape were dependent on its concentration. In the present study the relationship between Mg++-dependent ATPase and biconcave erythrocyte shape is discussed.
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PMID:The change of erythrocyte shape following action of different substances altering mg++-dependent ATPase activity (actomyosin-like protein). 13 56

We studied the effects of caffeine on calcium transport by subcellular organelles isolated from rabbit myocardium. Caffeine increased myofibrillar basic and calcium-activated ATPase activity at 20 mM but not at lower concentrations. Mitochondrial and sarcoplasmic reticulum (SR) calcium accumulation was measured both by dual wavelength spectrophotometry with the calcium-sensitive dye, murexide, and by Millipore filtration with 45Ca. In mitochondria, caffeine impaired phosphate-assisted calcium transport but did not alter the closely related parameters of oxygen uptake, P/O ratio (nmol adenosine diphosphate consumed/n ats oxygen consumed, state 3 respiration) or limited calcium loading. In SR, caffeine impaired calcium accumulation. New methods were used to characterize calcium accumulation in the absence of oxalate according to first order reaction kinetics. Caffeine increased the rate constant while decreasing the calcium accumulated. It also increased the associated calcium-activated ATPase activity at low (30 mM) but not high (240 micrometer) external calcium concentration. In the presence of oxalate, caffeine decreased the rate of calcium accumulation, more with low than high calcium concentration. Net efflux of 45Ca from preloaded SR also was increased by caffeine. The findings indicate that caffeine impairs active calcium accumulation by making SR vesicle membranes more permeable to calcium.
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PMID:Action of caffeine on calcium transport by isolated fractions of myofibrils, mitochondria, and sarcoplasmic reticulum from rabbit heart. 15 Sep 53

Two highly purified sarcoplasmic reticulum membrane fractiones differing in their sensitivities to the uncoupling action of caffeine were isolated from white skeletal muscles of the rabbit. The main protein component of both fractions is a catalytical polypeptide of Ca2+-dependent ATPase. Treatment of the caffeine-sensitive reticular fraction by trypsin or DTNB completely removes the effect of caffeine. It was found that similar effects on the caffeine-sensitive reticular fraction are exerted by bemegride, camphor, ethymizole and cordiamine. Isolation of Ca2+-dependent ATPase from both reticular fractions and reconstruction of Ca2+-transporting vesicles were carried out. Ca2+ transport by the vesicles enriched by ATPase from the caffeine-sensitive reticular fraction is uncoupled under the effect of caffeine; however, caffeine has no effect on the vesicles enriched by caffeine-insensitive reticular ATPase. The molecular weight of caffeine-sensitive and caffeine-insensitive ATPases determined in the presence of sedium dodecyl sulfate are found to be identical. Electrophoresis in the presence of digitonin revealed different electrophoretic behaviour of the two forms of ATPase.
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PMID:[Two forms of Ca2+-dependent ATPase from sarcoplasmic reticulum]. 15 30

Ca-stimulated ATPase activity has been demonstrated in homogenates of mouse pancreatic islets. On subcellular fractionation Ca-ATPase activity was found in secretory granules, mitochondria, and microsomes, but not in the postmicrosomal fractions. Highest specific activity was found in the granules. In all active subcellular fractions two Km(Ca) values for Ca-ATPase around 7.0 X 10(-6) and 1.8 X 10(-7) M were estimated. Assuming an ATP hydrolysis:Ca pumping ratio of 1:2, the highest capacity for active Ca transport was found in secretory granules and mitochondria. Concentrations of 40 mM or higher of Na and 10(-5) M cyclic AMP inhibited Ca-ATPase in all subfractions. Caffeine at a concentration of 10 mM inhibited Ca-ATPase significantly in secretory granules and microsomes. Also MG-ATPase activity was demonstrated in the various subfractions. This activity was compared with that of Ca-ATPase at identical concentrations of free metal ions and in the absence or presence of various inhibitors. It was concluded that high-affinity Ca-ATPase and Mg-ATPase are two different enzymic entities. Ca-ATPase may tentatively be assumed to participate in active transport of Ca between intracellular compartments and to constitute a Ca-accumulating system which returns the cytosolic free Ca concentration to the resting state after stimulation of the beta-cells by secretagogues. This enzyme may therefore play a significant role in regulation of insulin release.
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PMID:Ca-activated ATPase activity in subcellular fractions of mouse pancreatic islets. 17 92

The development of sarcoplasmic reticulum membranes was studied in vivo and in tissue culture in chicken pectoralis muscle cells. The concentration of the calcium- and magnesium-activated ATPase measured by selective labeling of the enzyme with [32P]ATP in whole muscle homogenates was found to increase in developing chicken pectoralis muscle in vivo from 0.01 nmol/mg of protein in 12-day embryos to 0.3 to 0.4 nmol/mg of protein in 1-month-old chicks, where it constitutes about 3% of the total protein content of muscle. In cultured muscle cells the concentration of calcium-sensitive phosphoprotein increased from 0.015 nmol/mg of protein at 2 days to 0.04 to 0.05 nmol/mg of protein after 5 days of culture. This amount represents about 0.5% of the protein content of the muscle cells. The accumulation of Ca2+ transport ATPase began during fusion and continued with a linear rate during 8 days of culture. The density of 75 A intramembranous particles seen by freeze-etch electron microscopy on fracture faces of sarcoplasmic reticulum membranes is about 4,000/mum2 in adult chick pectoralis muscle but only 400/mum2 in cultured muscle cells in rough proportion to the concentration of Ca2+-sensitive phosphoprotein. The Ca2+, Na+, and K+ concentration of the medium and addition of ouabain, caffeine, or the calcium ionophores A23187 and X537A sharply influence the concentration of calcium transport ATPase in cultured muscle cells, parallel with their effect upon cell fusion and growth. These observations are consistent with the proposition that the gene expression leading to the accumulation of Ca2+ transport ATPase during development in culture may be regulated by intracellular ion concentrations.
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PMID:Development of sarcoplasmic reticulum in cultured chicken muscle. 40 12

1. Voltage-clamped isolated smooth muscle cells from guinea-pig urinary bladder were studied with 3.6 mM extracellular Ca2+ at 36 degrees C. The fluorescence of the Ca(2+)-sensitive dye Indo-1 was used to monitor the cytosolic calcium concentration ([Ca2+]i) and its changes ([Ca2+]i transient). Fast application of caffeine (10 mM) to the cell was used to release the intracellular Ca2+ from a 'caffeine-sensitive Ca2+ store'. 2. At the holding potential -60 mV, a short (1 s) caffeine application increased [Ca2+]i within less than 1 s from the resting 118 +/- 22 nM to 1490 +/- 332 nM. Following the caffeine wash-out, [Ca2+]i fell from this peak to a subresting level of 47 +/- 12 nM, i.e. an 'undershoot' of [Ca2+]i occurred. Subsequent caffeine-induced [Ca2+]i transients had attenuated peaks suggesting that the caffeine-sensitive Ca2+ store had lost a part of the releasable Ca2+. 3. In the continuous presence of caffeine, [Ca2+]i decayed from its peak to control resting [Ca2+]i values. The wash-out of caffeine following prolonged (10-30 s) treatment also resulted in [Ca2+]i undershoot. Subsequent caffeine-induced [Ca2+]i transients were largely abolished as if the caffeine-sensitive Ca2+ store had lost a large part of releasable Ca2+. During the undershoot, hyperpolarization to -100 mV did not affect [Ca2+]i. In most cells studied, recovery of [Ca2+]i from the undershoot to the resting level required depolarizations inducing Ca2+ influx through L-type Ca2+ channels. 4. Block of plasmalemmal Ca(2+)-ATPase (PMCa) with extracellular La3+ (3 mM) did not modify the decay of the [Ca2+]i transients induced by depolarization or by a 1 s caffeine application suggesting that decay rate of both is not limited by PMCa rate. La3+ abolished the undershoot of [Ca2+]i. In the continuous presence of caffeine, La3+ largely prevented the decay of [Ca2+]i. 5. When the depolarizing steps from -60 to 0 mV (160 ms duration) were applied during the period of [Ca2+]i undershoot, the half-time of decay of the corresponding [Ca2+]i transients was up to three times faster than in control. Repetitive depolarizations restored the rate of decay and [Ca2+]i recovered to the resting value. Both processes recovered along a similar time course. 6. Application of the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX; 0.1 mM) or of 8-Br-cAMP (0.1 mM) did not mimic the above caffeine effects suggesting that stimulation of sarcoplasmic reticulum (SR) Ca(2+)-ATPase (SERCa) by cAMP-dependent phosphorylation is not the underlying mechanism.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Caffeine-induced release and reuptake of Ca2+ by Ca2+ stores in myocytes from guinea-pig urinary bladder. 128 69

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