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1.
Regulation of cardiac sarcoplasmic reticulum (Ca2+ + Mg2+)-ATPase   总被引:2,自引:0,他引:2  
Summary The two high affinity calcium binding sites of the cardiac (Ca2+ + Mg2+)-ATPase have been identified with the use of Eu3+. Eu3+ competes for the two high affinity calcium sites on the enzyme. With the use of laser-pulsed fluorescent spectroscopy, the environment of the two sites appear to be heterogeneous and contain different numbers of H2O molecules coordinated to the ion. The ion appears to be occluded even further in the presence of ATP. Using non-radiative energy transfer studies, we were able to estimate the distance between the two Ca2+ sites to be between 9.4 to 10.2 A in the presence of ATP. Finally, from the assumption that the calcium site must contain four carboxylic side chains to provide the 6–8 ligands needed to coordinate calcium, and based on our recently published data, we predict the peptidic backbone of the two sites.  相似文献   

2.
In resting muscle, cytoplasmic Ca2+ concentration is maintained at a low level by active Ca2+ transport mediated by the Ca2+ ATPase from sarcoplasmic reticulum. The region of the protein that contains the catalytic site faces the cytoplasmic side of the membrane, while the transmembrane helices form a channel-like structure that allows Ca2+ translocation across the membrane. When the coupling between the catalytic and transport domains is lost, the ATPase mediates Ca2+ efflux as a Ca2+ channel. The Ca2+ efflux through the ATPase channel is activated by different hydrophobic drugs and is arrested by ligands and substrates of the ATPase at physiological pH. At acid pH, the inhibitory effect of cations is no longer observed. It is concluded that the Ca2+ efflux through the ATPase may be sufficiently fast to support physiological Ca2+ oscillations in skeletal muscle, that occur mainly in conditions of intracellular acidosis.  相似文献   

3.
The dependence of the Ca2+-ATPase activity of sarcoplasmic reticulum vesicles upon the intravesicular concentration of calcium accumulated after active uptake was studied. The internal calcium concentration was modified by addition of the ionophore A23187 at the steady state of accumulation. About half of the calcium accumulated could be released at low ionophore concentration without any concomitant activation of the Ca2+-ATPase. This population of calcium might consist of calcium free in the lumen of the vesicles or bound to the bilayer at sites which do not interact with the ATPase activity. At higher concentrations of ionophore (above 1.75 nmol A23187/mg protein) the release of calcium activated this enzyme. This phenomenon was independent of the extravesicular calcium concentration and might be explained by assuming second species of calcium ions bound to the inner side of the membrane and in close functional interaction with the Ca2+-ATPase.  相似文献   

4.
The conformational states of Ca2+-ATPase in sarcoplasmic reticulum (SR) vesicles with or without a thousand-fold transmembrane Ca2+ gradient have been studied by fluorescence spectroscopy and fluorescence quenching. In consequence of the establishment of the transmembrane Ca2+ gradient, the steady-state fluorescence results revealed a reproducible 8% decrease in the intrinsic fluorescence while time-resolved fluorescence measurements showed that 13 tryptophan residues in SR · Ca2+-ATPase could be divided into three groups. The fluorescence lifetime of one of these groups increased from 5.5 ns to 5.95 ns in the presence of a Ca2+ gradient. Using KI and hypocrellin B (a photosensitive pigment obtained from a parasitic fungus, growing in Yunnan, China), the fluorescence quenching further indicated that the dynamic change of this tryptophan group, located at the protein-lipid interface, is a characteristic of transmembrane Ca2+ gradient-mediated conformational changes in SR · Ca2+-ATPase.Abbreviations SR sarcoplasmic reticulum - HB hypocrellin B - Trp tryptophan - DMSO dimethysulfoxide - Hepes N-2-hydroxyethyl piperazine-N-ethanesulfonic acad - SR(50005) SR vesicles with 1000-fold transmembrane Ca2+ gradient - SR(5050) SR vesicles without Ca2+ gradient - Ksv(app) apparent Stern-Volmer constant - Ksvi Stern-Volmer constant of component i for dynamic quenching  相似文献   

5.
Summary In reconstituted rabbit skeletal muscle (Ca2+ + Mg2+)-ATPase proteoliposomes, Ca2+-uptake is decreased by more than 90% with T2 cleavage (Arg-198). However, no difference in the ATP dependence of hydrolysis activity is seen between SR and trypsin-treated SR. A large decrease in E-P formation and hydrolysis activity of the enzyme appear only at T3 cleavage, which represents the cleavage of A1 fragment to A1a + A1b forms. The disappearance of hydrolysis activity due to digestion is prior to the disappearance of E-P formation. No significant difference is found in the passive Ca2+ efflux between control SR and tryptically digested SR in the absence of Mg+ ruthenium red or in the presence of ATP. However, the passive Ca2+ efflux rate for tryptically digested SR is much larger than control SR in the presence of Mg2+ + ruthenium red. These results show that the Ca2+ channel cannot be closed after trypsin digestion of SR membranes by the presence of the Ca2+ channel inhibitors, Mg2+ and ruthenium red. In the reconstituted ATPase proteoliposomes, the Ca2+ efflux rates are the same regardless of digestion (T2); also, efflux is not affected by the presence or absence of Mg2+ + ruthenium red. These results indicate that T2 cleavage causes uncoupling of the Ca2+-pump from ATP hydrolytic activity.A theoretical model is developed in order to fit the extent of tryptic digestion of the A fragment of the (Ca2+ + Mg2+)-ATPase polypeptide with the loss of Ca2+-transport. Fits of the theoretical equations to the data are consistent with that Ca2+-transport system appears to require a dimer of the polypeptide (Ca2+ + Mg2+)-ATPase.  相似文献   

6.
The Ca2+-ATPase of skeletal sarcoplasmic reticulum was purified and reconstituted in proteoliposomes containing phosphatidylcholine (PC). When reconstitution occurred in the presence of PC and the acidic phospholipids, phosphatidylserine (PS) or phosphatidylinositol phosphate (PIP), the Ca2+-uptake and Ca2+-ATPase activities were significantly increased (2–3 fold). The highest activation was obtained at a 50:50 molar ratio of PSYC and at a 10:90 molar ratio of PIP:PC. The skeletal SR Ca2+-ATPase, reconstituted into either PC or PC:PS proteoliposomes, was also found to be regulated by exogenous phospholamban (PLB), which is a regulatory protein specific for cardiac, slow-twitch skeletal, and smooth muscles. Inclusion of PLB into the proteoliposomes was associated with significant inhibition of the initial rates of Ca2+-uptake, while phosphorylation of PLB by the catalytic subunit of cAMP-dependent protein kinase reversed the inhibitory effects. The effects of PLB on the reconstituted Ca2+-ATPase were similar in either PC or PC: PS proteoliposomes, indicating that inclusion of negatively charged phospholipid may not affect the interaction of PLB with the skeletal SR Ca2+-ATPase. Regulation of the Ca2+-ATPase appeared to involve binding with the hydrophilic portion of phospholamban, as evidenced by crosslinking experiments, using a synthetic peptide which corresponded to amino acids 1–25 of phospholamban. These findings suggest that the fast-twitch isoform of the SR Ca2+-ATPase may be also regulated by phospholamban although this regulator is not expressed in fast-twitch skeletal muscles.  相似文献   

7.
Summary Our interest in the role of sulfhydryl groups (SH) in regulating or altering transport across biological membranes has focused on the significance of a critical SH group associated with the Ca2+-release protein from skeletal muscle sarcoplasmic reticulum (SR). We have shown that binding of heavy metals to this group or oxidation of this sulfhydryl to a disulfide induces rapid Ca2+ release from SR vesicles [1, 2] and induces contraction in skinned muscle fibers [3]. Several models are described in which oxidation and reduction might control the state of the Ca2+-release channel from SR.Abbreviations DTT Dithiothreitol, redox. - oxidation-reduction - SDS Sodium Dodecyl Sulfate - SH Sulfhydryl - SR Sarcoplasmic Reticulum - T-tubule Transverse tubule  相似文献   

8.
To investigate the hypothesis that prolonged partial ischemia would result in a depression in homogenate sarcoplasmic reticulum (SR) Ca2+-sequestering and mechanical properties in muscle, a cuff was placed around the hindlimb of 8 adult Sprague–Dawley rats (267 ± 5.8 g; × ± S.E.) and partially inflated (315 mm Hg) for 2 h. Following occlusion, the EDL was sampled both from the ischemic (I) and contralateral control (C) leg and SR properties compared with the EDL muscles extracted from rats (n = 8) immediately following anaesthetization (CC). Ischemia was indicated by a lower (p < 0.05) concentration (mmol.kg dry wt–1) of ATP (19.0 ± 0.7 vs. 16.7 ± 0.7) and phosphocreatine (58.1 ± 5.7 vs. 35.0 ± 4.6) in I compared to C. Although Ca2+-ATPase activity (mol·g protein–1.sec–1 ), both maximal and submaximal, was not different between C and I (19.7 ± 0.4 vs. 18.5 ± 1.3), reductions (p < 0.05) in Ca2+-uptake (mmol·g protein–1.sec–1 ) of between 18.2 and 24.7% across a range of submaximal free Ca2+-levels were observed in I compared to C. Lower submaximal Ca2+-ATPase activity and Ca2+-uptake were also observed in the EDL in C compared to CC animals. Time dependent reductions (p < 0.05) were found in peak twitch and maximal tetanic tension in EDL from I but not C. It is concluded that partial ischemia, resulting in modest reductions in energy state in EDL, induces a reduction in Ca2+-uptake independent of changes in Ca2+-ATPase activity. These changes reduce the coupling ratio and the efficiency of Ca2+-transport by SR.  相似文献   

9.
Summary Proteolytic digestion of sarcoplasmic reticulum vesicles with trypsin has been used as a structural modification with which to examine the interaction between the ATP hydrolysis site and calcium transport sites of the (Ca2++Mg2+)-ATPase. The kinetics of trypsin fragmentation were examined and the time course of fragment production compared with ATP hydrolytic and calcium uptake activities of the digested vesicles. The initial cleavage (TD 1) of the native ATPase to A and B peptides has no effect on the functional integrity of the enzyme, hydrolytic and transport activities remaining at the levels of the undigested control. Concomitant with the second tryptic cleavage (TD 2) of the A peptide to A1 and A2 fragments, calcium transport is inhibited. Kinetic analysis demonstrates that the rate constant for inhibition of calcium uptake is correlated with the rate constant of a fragment disappearance. Both Ca2+-dependent and total ATPase activities are unaffected by this second cleavage. Passive loading of vesicles with calcium and subsequent efflux measurements show that transport inhibition is not due to increased permeability of the membrane to calcium even at substantial extents of digestion. Steady-state levels of acidstable phosphoenzyme are unaffected by either TD 1 or TD 2, indicating that uncoupling of the hydrolytic and transport functions does not increase the turnover rate of the enzyme and that TD 2 does not change the essential characteristics of the ATP hydrolysis site. Sarcoplasmic reticulum (SR) vesicles were examined for the presence of tightly bound nucleotides and are shown to contain 2.8–3.0 nmol ATP and 2.6–2.7 nmol ADP per mg SR protein. The ADP content of SR remains essentially unchanged with TD 1 cleavage of the ATPase enzyme to A and B peptides, but declines upon TD 2 in parallel with the digestion of the A fragment and the loss of calcium uptake activity of the vesicles. The ATP content is essentially constant throughout the course of trypsin digestion. The results are discussed in terms of current models of the SR calcium pump and the molecular mechanism of energy transduction.  相似文献   

10.
In this work, we compared the effect of K+ on vesicles derived from the longitudinal (LSR) and terminal cisternae (HSR) of rabbit white muscle. In HSR, K+ was found to inhibit both the Ca2+ accumulation and the heat released during ATP hydrolysis by the Ca2+-ATPase (SERCA1). This was not observed in LSR. Valinomycin abolished the HSR Ca2+-uptake inhibition promoted by physiological K+ concentrations, but it did not modify the thermogenic activity of the Ca2+ pump. The results with HSR are difficult to interpret, assuming that a single K+ is binding to either the ryanodine channel or to the Ca2+-ATPase. It is suggested that an increase of K+ in the assay medium alters the interactions among the various proteins found in HSR, thus modifying the properties of both the ryanodine channel and SERCA1.  相似文献   

11.
Ca2+-ATPase of muscle sarcoplasmic reticulum is an ATP-powered Ca2+-pump that establishes a >10,000-fold concentration gradient across the membrane. Its crystal structures have been determined for nine different states that cover nearly the entire reaction cycle. Presented here is a brief structural account of the ion pumping process, which is achieved by a series of very large domain rearrangements.  相似文献   

12.
A two-dimensional projection map was computed of the Ca2+-ATPase molecules in sarcoplasmic reticulum, isolated from rabbit skeletal muscle. Crystalline arrays of Ca2+-ATPase molecules were formed by incubating the membrane vesicles with phospholipase A2 and dialysing against Tris/HCl buffer. Ca2+-ATPase molecules appear as quasi-triangular blobs in the projection map and seem to form dimers. The projection map seems to indicate an enzyme conformation somewhat similar to vanadate-induced crystals but different from lanthanide-induced crystals of Ca2*-ATPase.  相似文献   

13.
To examine the effect of short term intense activity on sarcoplasmic reticulum (SR) Ca2+ sequestering function, the gastrocnemius (G) muscles of 11 anaesthetized male rats (weight, 411±8 g,X±SE) were activated using supramaximal, intermittent stimulation (one train of 0.2 msec impulses per sec of 100 msec at 100 Hz). Homogenates were obtained from stimulated white (WG-S) and red (RG-S) tissues, assayed for Ca2+ uptake and maximal Ca2+ ATPase activity and compared to contralateral controls (WG-C, RG-C). Calcium uptake (nmoles/mg protein/min) determined using Indo-l and at [Ca2+]f concentrations between 300–400 nM was unaffected (p>0.05) by activity in both WG (6.14+0.43 vs 5.37+0.43) and RG (3.21+0.18 vs 3.07+0.20). Similarly, no effect (p>0.05) of contractile activity was found for maximal Ca2+ ATPase activity (mole/mg protein/min) determined spectrophotometrically in RG (0.276+0.03 vs 0.278+0.02). In WG, Ca2+ ATPase activity was 15% higher in WG-S compared to WG-C (0.412+0.03 vs 0.385+0.04). Repetitive stimulation resulted in a reduction in tetanic tension of 74% (p<0.05) by 2 min in the G muscle. By the end of the stimulation period, ATP concentration was reduced (p<0.05) by 57% in the WG and by 47% in the RG. These results indicate that the repeated generation of maximal tetanic force, at least for short term periods, need not adversely affectin vitro homogenate determination of Ca2+ sequestering function in spite of severe alterations in energy potential and that some other mechanism must be involved to explain the depression in Ca2+ uptake and Ca2+ ATPase activity previously noted with short term intense exercise.  相似文献   

14.
Summary The relationship between Ca2+ release from sarcoplasmic reticulum, induced by elevated pH, tetraphenylboron (TPB) or chemical modification, and the change in the surface charge of the membranes as measured by the fluorescence intensity of anilinonaphthalene sulfonate (ANS) is examined. The stimulated Ca2+ release is inhibited by dicyclohexylcarbodiimide and external Ca2+. TPB, but not tetraphenylarsonium (TPA+), causes a decrease in ANS fluorescence, with 50% decrease occurring at about 5 m TPB. The decrease in ANS fluorescence as well as the inhibition of Ca2+ accumulation induced by TPB are prevented by TPA+. A linear relationship between the decrease in membrane surface potential and the extent of the Ca2+ released by TPB is obtained. Similar levels of [3H]TPB bound to sarcoplasmic reticulum membranes were obtained regardless of whether or not the vesicles have taken up Ca2+. The inhibition of Ca2+ accumulation and the [3H]TPB incorporation into the membranes were correlated. Ca2+ release from sarcoplasmic reticulum, by pH elevation, chemical modification or by addition of NaSCN (0.2 to 0.5m) or the Ca2+ ionophore ionomycin, is also accompanied by a decrease in ANS fluorescence intensity. However, chemical modification and elevated pH affects the surface potential much less than SCN or TPB do. These results suggest that the enhancement of Ca2+ release by these treatments is not due to a general effect on the membrane surface potential, but rather through the modification of a specific protein. They also suggest that membrane surface charges might play an important role in the control mechanism of Ca2+ release.  相似文献   

15.
Summmary The Ca2+ uptake activity of rat cardiac sacroplasmic reticulum (CSR) in ventricular homogenates is highly unstable, and this instability probably accounts for the low specific activity of Ca2+ uptake in previously reported fractions of isolated rat CSR. The instability was observed at either 0° or 37°, but the Ca2+ uptake activity was relatively stable at 25°. The decay of Ca2+ uptake activity at 0° could not be prevented by either PMSF or leupeptin, but dithiothreitol exerted some protective effects. Sodium metabisulfite prevented decay of the Ca2+ uptake activity of homogenates kept on ice but not of homogenates kept at 37°. We also found that release of the CSR from the cellular debris required homogenization in high KCI. This distinguishes rat CSR from canine CSR. Isolated CSR was produced by a combination of differential centrifugation and discontinuous sucrous gradient centrifugation. The average rate of the sustained oxalate-supported calcium uptake in the resulting CSR fraction was 0.36 mol/min-mg in the absence of CSR calcium channel blockers and 0.67 mol/min/mg in the presence of 10 M ruthenium red. Thus, this preparation has the advantage of containing both the releasing and non-releasing fractions of the CSR. The Ca2+-ATPase rates averaged 1.07 mol/min/mg and 0.88 mol/min-mg in the absence and presence of ruthenium red, respectively. Although these rates are higher than previously reported rates, this CSR preparation should still be considered a crude preparation. A major distinction between the rat CSR and dog CSR was the lower content of Ca2+-ATPase in rat CSR, as judged by SDS-PAGE. Preparations of CSR isolated by this method may be useful in evaluating alterations in CSR function.  相似文献   

16.
The results of site-directed mutagenesis studies of the sarcoplasmic reticulum Ca2+-ATPase are reviewed. More than 250 different point mutants have been expressed in cell culture and analysed by a panel of functional assays. Thereby, 40–50 important amino acid residues have been pinpointed, and the mutants have been assigned to functional classes: the Ca2+-affinity mutants, the phosphorylation-negative mutants, the ATP-affinity mutants, the E1P mutants, the E2P mutants, and the uncoupled mutants. Moreover, regions important to the specific inhibition by thapsigargin have been identified by analysis of Ca2+-ATPase/Na+, K+-ATPase chimeric constructs.  相似文献   

17.
Two groups of weanling Sprague-Dawley rats were fed a low-selenium basal diet (Se 0.009 mg/kg) and the same diet supplemented with sodium selenite (Se 0.25 mg/kg), respectively, for 1, 2, and 3 months. At each feeding time, the Ca2+-ATPase activity, Ca2+ uptake rate and the capacity of Ca2+ uptake in isolated cardiac sacroplasmic reticulum from the Se-deficient rats were decreased significantly compared to those from the Se-supplemented rats, the contents of lipid peroxide in postmitochondrial supernatant and isolated sarcoplasmic reticulum from the Se-deficient rats were significantly higher than that from Se-supplemented rats. Compared to the Se-supplemented rats, the cytosolic glutathione peroxidase activity in Se-deficient rats decreased significantly. In addition, significant linear negative correlations of lipid peroxide in postmitochondrial supernatant to sarcoplasmic reticular Ca2+-ATPase activity, Ca2+ uptake rate and to whole blood selenium concentration were observed. The results suggest that the enhancement of lipid peroxidation via the depressed glutathione peroxidase activity might be responsible for the decrease of Ca2+-ATPase and Ca2+ uptake activities in sarcoplasmic reticulum in Se-deficient animals.  相似文献   

18.
The effect of palmitic and oleic acids on Ca2+-ATPase activity in coupled preparations of sarcoplasmic reticulum isolated from rabbit hind leg muscle have been compared with their effects on vesicles uncoupled with Ca2+ ionophore, A23187. Palmitate at 2 µM · mg protein–1 has no significant effect on enzyme activity and does not uncouple catalytic activity from calcium accumulation within the vesicles. Oleic acid at 1 µM · mg protein–1 uncouples the vesicles, whereas 2 µM · mg protein–1 completely inhibits Ca2+-ATPase activity. Fluorescence anisotropy of diphenylhexatriene is not significantly altered by palmitate, but a large transient increase in motion of the probe is observed with addition of oleic acid. The effects of oleic acid on enzyme activity are not mediated via an effect on the bulk properties of the hydrophobic domain of the membrane lipids.  相似文献   

19.
The effect of palytoxin was studied in a microsomal fraction enriched in longitudinal tubules of the sarcoplasmic reticulum membrane. Half-maximal effect of palytoxin on Ca2+-ATPase activity yielded an apparent inhibition constant of approx. 0.4 μM. The inhibition process exhibited the following characteristics: (i) the degree of inhibition was dependent on membrane protein concentration; (ii) no protection was observed when the ATP concentration was raised; (iii) dependence on Ca2+ concentration with a decreased maximum catalytic rate; (iv) it occurred in the absence of Ca2+ ionophoric activity. Likewise, the inhibition mechanism was linked to: (i) rapid enzyme phosphorylation from ATP in the presence of Ca2+ but lower steady-state levels of phosphoenzyme; (ii) more drastic effect on phosphoenzyme levels when the toxin was added to the enzyme in the absence of Ca2+; (iii) decreased phosphoenzyme levels at saturating Ca2+ concentrations; (iv) no effect on kinetics of phosphoenzyme decomposition. The palytoxin effect is related with lock of the enzyme in the Ca2+-free conformation so that progression of the catalytic cycle is impeded.  相似文献   

20.
Summary Rapid mixing-vesicle ion flux and planar lipid bilayer-single channel measurements have shown that a high-conductance, ligand-gated Ca2+ release channel is present in heavy, junctional-derived membrane fractions of skeletal and cardiac muscle sarcoplasmic reticulum. Using the release channel-specific probe, ryanodine, a 30S protein complex composed of polypeptides of Mr 400 000 has been isolated from cardiac and skeletal muscle. Reconstitution of the complex into planar lipid bilayers has revealed a Ca2+ conductance with properties characteristic of the native Ca2+ release channel.  相似文献   

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