首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 28 毫秒
1.
Evidence that the erythrocyte calcium pump catalyzes a Ca2+:nH+ exchange   总被引:3,自引:0,他引:3  
Treatment of whole erythrocytes with 4,4'-diisothiocyano-2,2'-disulfonic acid stilbene (DIDS) results in inhibition of ATP and phosphate-dependent Ca2+ transport in subsequently prepared inside-out vesicles (IOV). Accumulation of phosphate into IOV in the presence of Ca2+ is virtually abolished by prior DIDS treatment, consistent with the presumed inhibition of the band III anion-exchange protein by this agent. No inhibition of Ca2+-activatable ATP hydrolysis is observed following DIDS treatment when open membranes are used to prevent development of ion gradients. This indicates that DIDS does not affect the inherent ATPase activity of the calcium pump (Waisman, D. M., Smallwood, J., Lafreniere, D., and Rasmussen, H. (1982) FEBS Lett. 145, 337-340). In IOV prepared from untreated cells, ATP-dependent Ca2+ uptake is stimulated by phosphate, sulfate, or chloride. Rates of Ca2+ uptake into DIDS-IOV are not increased by these anions. Lipid-permeable organic acids such as acetate, however, do promote Ca2+ transport in DIDS-IOV. Lipophilic anions incapable of transporting protons into the vesicle interior (nitrate and thiocyanate) support sustained uptake only when the protonophore carbonyl cyanide p-trifluoromethoxyphenylhydrazone is also added. These results support a model of the (Ca2+-Mg2+)-ATPase as a pump exchanging Ca2+ for protons, not transporting Ca2+ alone. Band III protein appears to promote Ca2+ transport in the presence of phosphate, sulfate, or chloride by exchanging external anion for the accumulating OH- (or HCO3-) produced by the calcium pump.  相似文献   

2.
1. ATP-dependent calcium uptake by a rabbit brain vesicular fraction (microsomes) was studied in the presence of phosphate or oxalate. These anions, which are known to form insoluble calcium salts, increased the rate of calcium uptake and the capacity of the vesicles for calcium accumulation. 2. The degree of activation depended on the concentration of phosphate or oxalate. Under optimal conditions, phosphate promoted a 5-fold increase in the amount of calcium stored at steady state. This level was 200-250 nmol Ca-2+/mg protein. 3. Initial rate of calcium uptake followed Michaelis-Menten kinetics with an apparent Km for calcium of 6.7-10-minus 5 M and a V of 44 nmol/min per mg protein. Optimal pH was 7.0. With 2 mM ATP, optimal Mg-2+ concentration was 2 mM. 4. Dintrophenol and NaN3 inhibited calcium uptake in a mitochondria-enriched fraction but not in the microsomal fraction. 5. Calcium uptake activity was compared in the six subfractions prepared from the whole microsomal fraction by means of a sucrose density gradient fractionation. 6. The Mg-2+-dependent ATPase activity of brain microsomes was activated by calcium. Maximal activation was attained with 100 muM CaCl2. Greater calcium concentrations caused a progressive inhibition. 7. The data suggest that the ATP-dependent calcium uptake in brain microsomes, as in muscle microsomes, is brought about by an active transport process, calcium being accumulated as a free ion inside the vesicles.  相似文献   

3.
Calcium uptake into ejaculated ram spermatozoa is highly enhanced by the addition of extracellular phosphate. Under identical conditions, extracellular calcium stimulates the uptake of phosphate by the cells. Both calcium and phosphate uptake are comparably inhibited by the sulfhydryl reagent mersalyl. The I50 was found to be 6.36 and 10.14 nmol mersalyl per mg protein for phosphate and calcium uptake, respectively. Calcium uptake is inhibited by mersalyl whether phosphate is present or not. Extracellular fructose causes a 5-fold increase in calcium uptake. When fructose and phosphate are present in the cell's medium, there is an additive effect, which indicates that two independent systems are involved in calcium transport into the cell. Ruthenium red, which blocks Ca2+ transport into the mitochondria, causes 70% and 95% inhibition of calcium uptake in the absence or in the presence of fructose, respectively. Ruthenium red does not affect phosphate uptake unless calcium was present in the incubation medium. The stimulatory effect of fructose upon calcium uptake can be mimicked by L-lactate and can be inhibited by the glycolytic inhibitor 2-deoxyglucose. Fructose and L-lactate stimulate mitochondrial respiration in a comparable way. Oligomycin, which inhibits mitochondrial ATP synthesis, does not inhibit Ca2+ uptake. This indicates that ATP is not involved in the mechanism by which mitochondrial respiration stimulates Ca2+ uptake. The calcium channel blocker, verapamil, inhibits Ca2+ uptake in the presence or absence of extracellular phosphate. The phosphate-dependent calcium transport mechanism is more sensitive to verapamil than is the phosphate-independent transporter. In summary, the data indicate that the plasma membrane of mammalian spermatozoa contains a calcium/phosphate symporter, a phosphate-independent calcium carrier and a calcium-independent phosphate carrier.  相似文献   

4.
Energy-dependent calcium uptake activity of microsomes isolated from the rat aorta has been characterized. The microsomes consist of smooth membrane vesicles which in the presence of Mg · ATP as an energy source continuously sequester calcium over a 60-min period. This calcium uptake is greatly stimulated by oxalate anion which serves as a calcium trapping agent. Unlike the calcium uptake of miltochondria this uptake is not inhibited by sodium azide. Sucrose density gradient analysis of the microsomal calcium uptake suggests that the system is associated with the sarcoplasmic reticulum. In presence of 5 mM Mg · ATP and 20μM calcium approximately 38 nmol of calcium per mg of microsormal protein are taken up in 20 min. In the absence of ATP, less than 2 nmol of calcium per mg of protein are taken up in the first 2 min. with no further uptake of calcium in subsequent time periods. When calcium uptake activity is plotted against calcium or ATP concentration of the medium, half maximal activity is calculated for 24.3 μM calcium and for 1.6 mM ATP. The calcium uptake characteristics of the rat aorta microsomes are compatible with a postulated role in the relaxation of the vascular smooth muscle and the provision of an intracellular calcium store for muscle contraction.Aorta microsomes from SHR rats (a genetic strain that is spontaneously hypertensive) have a significantly reduced calcium uptake when compared with the corresponding nonhypertensive control strain. The level of calcium and ATP for half maximal activity of the rat aorta microsomal calcium uptake system is approximately the same in the SHR and the control strain. The rate of release of calcium from rat aorta microsomes is apparently identical in SHR strain and control. The calcium uptake activity of kidney and liver microsomes isolated from the SHR rat appears to be identical to that found in the control strain.Rats were treated with the steroid deoxycorticosterone acetate for ten and thirty days to induce hypertension. After ten days of deoxycorticosterone acetate although hypertension is present, there is no change in calcium uptake activity of aorta microsomes, renal microsomes or renal plasma membranes. After 30 days of deoxycorticosterone acetate treatment calcium uptake activity of renal microsomes is reduced. A variable decrease in calcium uptake activity is observed with aorta microsomes. Renal plasma membrane calcium uptake remains unchanged.  相似文献   

5.
Calcium uptake into bovine epididymal spermatozoa is enhanced by introducing phosphate in the suspending medium (Babcock et al. (1975) J. Biol. Chem. 250, 6488-6495). This effect of phosphate is found even at a low extracellular Ca2+ concentrations (i.e., 5 microM) suggesting that phosphate is involved in calcium transport via the plasma membrane. Bicarbonate (2 mM) cannot substitute for phosphate, and a relatively high bicarbonate concentration (20 mM) causes partial inhibition of calcium uptake in absence of Pi. In the presence of 1-2 mM phosphate, 20 mM bicarbonate enhances Ca2+ uptake. The data indicate that the plasma membrane of bovine spermatozoa contains two carriers for Ca2+ transport: a phosphate-independent Ca2+ carrier that is stimulated by bicarbonate and a phosphate-dependent Ca2+ carrier that is inhibited by bicarbonate. Higher phosphate concentrations (i.e., 10 mM) inhibit Ca2+ uptake into intact cells (compared to 1.0 mM phosphate) and this inhibition can be relieved partially by 20 mM bicarbonate. This effect of bicarbonate is inhibited by mersalyl. Calcium uptake into the cells is enhanced by adding exogenous substrates to the medium. There is no correlation between ATP levels in the cells and Ca2+ transport into the cell. ATP levels are high even without added exogenous substrate and this ATP level is almost completely reduced by oligomycin, suggesting that ATP can be synthesized in the mitochondria in the absence of exogenous substrate. Calcium transport into the sperm mitochondria (washed filipin-treated cells) is absolutely dependent upon the presence of phosphate and mitochondrial substrate. Bicarbonate cannot support Ca2+ transport into sperm mitochondria. There is good correlation between Ca2+ uptake into intact epididymal sperm and into sperm mitochondria with the various substrates used. This indicates that the rate of calcium transport into the cells is determined by the rate of mitochondrial Ca2+ uptake and respiration with the various substrates.  相似文献   

6.
ATP-driven calcium uptake was studied in basal-lateral membranes and in microsomal fractions, isolated from pig kidney cortex. The uptake is strongly enhanced in conditions where calcium inside the vesicles is precipitated by oxalate (5 mM) or phosphate (40 mM). Both anions were equally effective for the stimulation of calcium uptake in the microsomes but oxalate was less effective than phosphate in the basal-lateral membrane fraction. The active calcium pumps in the renal basal-lateral and microsomal fractions are different transport ATPases characterized by phosphorylated intermediates of 135 kDa and 115 kDa respectively. The subcellular distribution of the 135 kDa and 115 kDa phosphointermediates, reflects the distribution of typical marker enzymes for the basal-lateral membrane and for the endoplasmic reticulum. The calmodulin binding to the 135 kDa polypeptide as estimated by 125I-labelled calmodulin overlay, can be used as a specific marker for the basal-lateral plasma membrane calcium pump.  相似文献   

7.
The membrane potential and calcium accumulation of mitochondria were followed by ion-specific electrodes in the presence of the proton-donor anions phosphate, acetate, glutamate, and beta-hydroxybutyrate. Phosphate was the only anion which allowed rapid and complete restoration of both the membrane potential and the steady-state extramitochondrial calcium concentration after the uptake of 100–200 nmol calcium per mg protein. If there was no influx of any proton-donor anion, the extent of calcium uptake depended on the intramitochondrial phosphate content. Both the fall of the membrane potential and the increase of the external calcium concentration brought about by a given amount of uncoupler were counteracted by phosphate transported into the mitochondria.  相似文献   

8.
Treatment of sarcoplasmic reticulum vesicles with ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid (EGTA), Chelex-100, 1,10-phenanthroline, 8-hydroxyquinoline, or 8-hydroxyquinoline sulfonic acid increases the reactivity of SH groups with N-(1-pyrene)maleimide (PMI). The effect of Chelex treatment can be reversed by the addition of 10(-6)-10(-5) M Zn2+ to the Chelex-treated microsomes. The activation of the PMI reaction by EGTA was not reversed by subsequent addition of calcium, although the presence of excess calcium during EGTA treatment abolished the effect. Analysis of the elemental composition of sarcoplasmic reticulum by plasma emission spectroscopy indicates the presence of Zn, Cu, Fe, and Hg in amounts of 1-2 nmol/mg protein; of these only the Zn content is reduced significantly by treatment of microsomes with EGTA or Chelex-100. These observations suggest that Zn2+ may play a role in the regulation of the reactivity of SH groups in sarcoplasmic reticulum either by direct interaction with cysteinyl residues or by an effect upon the conformation of a subpopulation of ATPase molecules.  相似文献   

9.
Electron-dense deposits representing calcium oxalate crystals which result from ATP-dependent calcium uptake have been localized within vesicles of of a heavy microsomal fraction prepared from mouse pancreatic acini. In the absence of either ATP or oxalate, no electron-dense deposits could be observed. By subfractionation of microsomes on discontinuous sucrose gradients, it could be shown that the highest energy-dependent calcium transport activity was associated with the rough endoplasmic reticulum. In rough microsomes, the 45Ca2+-uptake measured was 7 times greater than that of smooth microsomes in the presence of ATP and oxalate and about 3 times greater in he presence of ATP alone. When ribosomes were released from the rough endoplasmic reticulum vesicles by treatment with KCl in the presence of puromycin, the stripped microsomes showed a 40% increase in the specific 45Ca2+-uptake activity measured in he presence of ATP and oxalate and an increase of 80 to 90% in the presence of ATP alone. From these results it can be concluded that the calcium transport activity of microsomes prepared from mouse pancreatic acini is located predominantly in the rough endoplasmic reticulum membrane.  相似文献   

10.
Microsomes prepared from guinea-pig ileum longitudinal smooth muscle and rat uterus continuously sequester calcium for a one hour period in the presence of Mg-ATP as an energy source and oxalate anion as a trapping agent. Dithiothreitol is essential for maximal calcium uptake activity of the rat uterus microsomes. On sucrose density gradients, calcium uptake of the smooth muscle microsomes appears to be associated with intracellular membrane (sarcoplasmic reticulum). Release of sequestered calcium from the longitudinal muscle microsomes is very slow (20% in 50 minutes). A small labile fraction (20%) is released by EGTA (1 mM) in 10 minutes. Rapid release of sequestered calcium (90% in 10 minutes) occurs in presence of the calcium ionophore A23187 (2 μM) or in the presence of chlorpromazine (1 mM).  相似文献   

11.
Energy-dependent calcium uptake activity of microsomes isolated from the rat aorta has been characterized. The microsomes consist of smooth membrane vesicles which in the presence of MG-ATP as an energy source continuously sequester calcium over a 60-min period. This calcium uptake is greatly stimulated by oxalate anion which serves as a calcium trapping agent. Unlike the calcium uptake of mitochondria this uptake is not inhibited by sodium azide. Sucrose density gradient analysis of the microsomal calcium uptake suggests that the system is associated with the sarcoplasmic reticulum. In presence of 5 mM Mg-ATP and 20 muM calcium approximately 38 nmol of calcium per mg of microsomal protein are taken up in 20 min. In the absence of ATP, less than 2 nmol of calcium per mg of protein are taken up in the first 2 min with no further uptake of calcium in subsequent time periods. When calcium uptake activity is plotted against calcium or ATP concentration of the medium, half maximal activity is calculated for 24.3 muM calcium and for 1.6 mM ATP. The calcium uptake characteristics of the rat aorta microsomes are compatible with a postulated role in the relaxation of the vascular smooth muscle and the provision of an intracellular calcium store for muscle contraction. Aorta microsomes from SHR rats (a genetic strain that is spontaneously hypertensive) have a significantly reduced uptake when compared with the corresponding nonhypertensive control strain. The level of calcium and ATP for half maximal activity of the rat aorta microsomal calcium uptake system is approximately the same in the SHR and the control strain. The rate of release of calcium from rat aorta microsomes is apparently identical in SHR strain and control. The calcium uptake activity of kidney and liver microsomes isolated from the SHR strain and control. The calcium uptake activity of kidney and liver microsomes isolated from the SHR rat appears to be identical to that found in the control strain.  相似文献   

12.
ATP-dependent Ca2+ uptake was measured in vesicles of rat liver cell basolateral plasma membranes. Nucleotide-dependent uptake was specific for ATP and observed at pH 7.0 and 7.4/7.5 but not at pH 8.0. ATP-dependent Ca2+ transport was only observed in the presence of Mg2+. Kinetic analysis of ATP-dependent transport revealed an apparent Km in the submicromolar region. Addition of calmodulin and trifluoperazine had no effect on ATP-dependent uptake. A Ca2+-dependent, phosphorylated intermediate with the apparent molecular weight of 135,000 could be demonstrated in the basolateral plasma membranes. Phosphorylated intermediates with apparent molecular weights of 200,000 and 110,000 were demonstrated in microsomes and appeared to contaminate 'basolateral' membrane protein phosphorylation. The results suggest that a 135,000 molecular weight protein is a Ca2+-ATPase and the enzymatic expression of the liver cell basolateral membrane Ca2+ pump.  相似文献   

13.
Calcium uptake by intact bovine epididymal spermatozoa is not affected by low concentrations (up to 0.75 mM) of the calcium transport blocker verapamil. Under these conditions, calcium transport into sperm mitochondria is highly inhibited. At higher verapamil concentrations (1.0, 1.5 mM), calcium transport into intact sperm is also inhibited, and this inhibition cannot be relieved by disrupting the plasma membrane with filipin. Calcium uptake into intact sperm is highly inhibited by mersalyl and this inhibitory effect can be completely relieved when the plasma membrane is disrupted by filipin. This effect of mersalyl is not dependent on the presence of phosphate in the incubation medium. Phosphate itself, up to 2 mM, enhances calcium uptake into the cells; this effect decreases at higher concentrations and is depressed 57% at 10 mM phosphate. This inhibitory effect of high phosphate concentration can be blocked by mersalyl. It is suggested that the calcium carrier itself and not a phosphate carrier of the plasma membrane is inhibited by mersalyl. It is possible that there is a symporter for calcium and phosphate in the plasma membrane of bovine spermatozoa.  相似文献   

14.
Microsomes from rat submaxillary glands are able to take up calcium from the suspension media. Calcium uptake is greatly increased by the presence of ATP. This effect of ATP is not detected at 0°C. ADP cannot replace ATP to potentiate calcium uptake. ATP-dependent calcium uptake is not observed in the absence of magnesium. ATP-dependent calcium uptake is enhanced by oxalate and, to a lesser degree, by inorganic phosphate. Total calcium per milligram of microsomal protein observed when tests were performed without oxalate closely parallels the amounts for skeletal and cardiac muscles reported by several authors. Calcium uptake in salivary gland microsomes is slower than in muscle microsomes. Speculations are considered about the role of ATP-dependent calcium uptake. It is suggested that a decrease in intracellular free calcium levels returns these cells to the resting state after secretion.  相似文献   

15.
Abstract: It is well established that ischemia is associated with prolonged increases in neuronal intracellular free calcium levels. Recent data suggest that regulation of calcium uptake and release from the endoplasmic reticulum is important in maintaining calcium homeostasis. The endoplasmic reticulum Mg2+/Ca2+ ATPase is the major mechanism for sequestering calcium in this organelle. Inhibition of this enzyme may play a causal role in the loss of calcium homeostasis. In order to investigate the effect of ischemia on calcium sequestration into the endoplasmic reticulum, microsomes were isolated from control and ischemic whole brain homogenates by differential centrifugation. Calcium uptake was measured by radioactive calcium (45Ca2+) accumulation in the microsomes mediated by Mg2+/Ca2+ ATPase. Ischemia caused a statistically significant inhibition of presteady-state and steady-state calcium uptake. Duration of ischemia was directly proportional to the degree of inhibition. Decreased calcium uptake was shown not to be the result of increased calcium release from ischemic compared with control microsomes nor the result of selective isolation of ischemic microsomes from the homogenate with a decreased capacity for calcium uptake. The data demonstrate that ischemia inhibits the ability of brain microsomes to sequester calcium and suggest that loss of calcium homeostasis is due, in part, to ischemia-induced inhibition of endoplasmic reticulum Mg2+/Ca2+ ATPase.  相似文献   

16.
When gastric microsomes were purified from resting and stimulated rabbit mucosae, they were found to be generally similar in (H+ + K+)-ATPase activity, peptide composition in single-dimension sodium dodecyl sulfate-gel electrophoresis, and in size. In the stimulated vesicles, optimal proton transport activity was found at pH 7.4, 20-50 mM KCl, and 1 mM ATP-Mg. However, in the case of resting vesicles, the presence of valinomycin and an inward Cl-gradient was also necessary for Mg-ATP-dependent proton transport. Measurement of K+ and Cl-diffusion potentials using 3,3-dipropylthiadicarboxocyanine iodide as a potential sensitive dye showed that both resting and stimulated vesicles developed K+ gradient-dependent potentials in the presence of an impermeant anion, but that Cl- gradient-dependent potentials were observed only in the stimulated preparation. 86Rb+ self-exchange was found in both types of vesicles, but Cl- self-exchange was confined to vesicles derived from stimulated mucosae. Putative inhibitors of anion conductance such as furosemide and anthracene 9-carboxylic acid blocked proton transport, Cl- conductance, 36Cl- uptake, and Cl- exchange. The inhibition of proton transport was overcome by valinomycin. ATPase activity in the presence of nigericin, an H+:K+ exchanger, was unaffected by these inhibitors. K+ conductance, Rb+ uptake, and Rb+ exchange were insensitive to these inhibitors. Thus, activation of acid secretion by the stimulated parietal cell appears to involve at least the appearance of a discrete Cl- conductance in the pump-associated membrane.  相似文献   

17.
The uptake of 86Rb+ was assayed in isolated rat pancreatic acinar cells to determine the effect of calcium and carbamoylcholine on the ouabain-sensitive and ouabain-insensitive components. The presence of calcium in the medium bathing the cells during the preincubation and the main incubation periods was needed to preserve in optimum conditions the uptake of 86Rb+, the stimulation by carbamoylcholine and the sensitivity to ouabain. In the presence of calcium, the ouabain-sensitive component of 86Rb+ uptake was higher than the ouabain-insensitive. The ouabain-sensitive component was 3-times lower in cells incubated in a medium lacking calcium and containing 1 mM EGTA, as compared to cells incubated in the presence of calcium. Carbamoylcholine, at 5 X 10(-4) M, stimulated the uptake of 86Rb+ and this effect depended on the presence of calcium in the bathing medium. Maximal stimulation by carbamoylcholine was reached at 0.2 mM calcium. The nett stimulation by carbamoylcholine was inhibited up to 85% by 1 mM ouabain. As judged by digitonin-disruption of plasma membrane, the above-indicated effects were limited to a cytoplasmic pool of 86Rb+ and a leaky plasma membrane could be ruled out. The results suggest that in rat pancreatic acinar cells, carbamoylcholine stimulated the ouabain-sensitive uptake of 86Rb+ and required the presence of calcium in the bathing medium.  相似文献   

18.
Summary The calcium uptake in the microsomial fraction isolated from the smooth muscle of the antrum of the pig stomach is stimulated by phosphate. The microsomial vesicles which are loaded with calcium phosphate can be purified by differential centrifugation. A purification of 36 times in terms of calcium content was reached. Electron microscopy of the freshly prepared material revealed calcium phosphate deposits in the form of needles of crystalline calcium phosphate. This structure differs from that of the deposits which appear in the fragmented sarcoplasmic reticulum of skeletal muscle. Their morphology is that of non-crystalline calcium phosphate. However, on standing these deposits convert slowly into crystalline calcium phosphate. This difference reflects different kinetics of crystallization of the precipitates in the two preparations. After negative staining of the calcium phosphate loaded microsomes of skeletal and of smooth muscle, only few deposits are preserved because a release of calcium occurs as a consequence of the action of the stain and also of the dilution and warming up of the suspension. Smooth muscle microsomes partially purified by loading with calcium phosphate were studied by freeze etching and rotary replication. Membrane fragments displaying subunit intramembrane particles similar to those observed in sarcoplasmic reticulum of skeletal muscle could be identified. However, in the smooth muscle microsomes the intramembrane particles were much less densely packed. Part of these particles could correspond to calcium transport sites.  相似文献   

19.
Hepatic microsomes take up calcium in the presence of ATP and oxalate. In either fed or fasted adrenalectomized rats injections of dexamethasone 18 hours and then again 1 hour prior to sacrifice increased uptake of calcium by microsomes. Injections of estradiol had no similar effect indicating that the stimulation might be specific to glucocorticoids. Injection of Actinomycin D, an inhibitor of protein synthesis, 1 hour prior to dexamethasone administration resulted in a complete block of the stimulation. It is therefore likely that the increased calcium uptake is due to the induction of the microsomal calcium activated ATP-ase. The onset of this effect occurred later than the induction of tyrosine-amino transferase (TAT). The present data, in conjunction with the previous demonstration of glucagon stimulation and insulin inhibition of this system, indicates that microsomes might serve as a modifier of intracellular calcium distribution.  相似文献   

20.
Isolated sarcoplasmic reticulum vesicles exhibited different functional characteristics in the presence of zwitterionic as compared to anionic buffers. In the absence of oxalate, dicarboxylic anions (e.g. maleate, succinate) in a dose-dependent manner enhanced ATP-supported Ca2+ accumulation, the ensuing spontaneous Ca2+ release, and Ca2+-dependent ATPase activity compared to zwitterionic buffers (e.g. piperazine-N,N'-bis(2-ethanesulfonic acid) (Pipes) and 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid) (Hepes). This was not attributed to ionic strength and osmotic effects. The additional anion-dependent Ca2+ accumulation was linked to augmented Ca2+-dependent ATPase activity, and both could be induced by the addition of anion at any time during Ca2+ accumulation as long as ATP was present. Since the initial Ca2+ accumulation rates and acyl phosphoenzyme formation were the same between the two buffer classes, and the presence of either oxalate (a Ca2+-precipitating anion) or A23187 (a Ca2+ ionophore) abolished differences in Ca2+-dependent ATPase activity between the two buffer classes, it is likely that conditions favoring high intravesicular Ca2+ concentration allow the expression of the observed effect of the anions. Initial spontaneous Ca2+ release in the presence of maleate was not caused by ATP depletion, and it was virtually absent in Pipes buffer. The rate of spontaneous release was also stimulated in a dose-dependent manner by the dicarboxylic anions, with the time of release being related to the time of anion addition and not ATP addition. A later, more rapid release phase in either maleate or Pipes buffer corresponded to ATP depletion, and could be duplicated at any time in the Ca2+ accumulation/release cycle by the addition of an ATP trap. With an ATP-regenerating system present or with very high ATP concentrations, the maximal peak Ca2+ accumulation in Pipes buffer could approach that in maleate buffer. The data suggest that dicarboxylic anions stimulate the filling of a Ca2+ compartment from which spontaneous Ca2+ release occurs.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号