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Calcium binding properties of sarcoplasmic reticulum membranes 总被引:2,自引:0,他引:2
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Localization of the high affinity calcium binding protein and an intrinsic glycoprotein in sarcoplasmic reticulum membranes 总被引:9,自引:0,他引:9
Several proteins in sarcoplasmic reticulum preparations move in a band with a mobility, in sodium dodecyl sulfate-polyacrylamide gels (0.1 M phosphate buffer, pH 7.0), corresponding to a molecular mass of about 55,000 daltons. Only one of these proteins is the high affinity calcium binding protein. An intrinsic glycoprotein is also present in this band, and it is this glycoprotein which is found in vesicles reconstituted after dissolution of sarcoplasmic reticulum in deoxycholate. Both of these proteins are found in rather constant ratios with the ATPase in light, intermediate, and heavy sarcoplasmic reticulum vesicles. Transverse tubular vesicles can be isolated from the heavy sarcoplasmic reticulum vesicles after disruption of the membrane in a French pressure cell (Lau, Y.H., Caswell, A.H., and Brunschwig, J.P. (1977) J. Biol. Chem. 252, 5565-5574). These vesicles are enriched in their content of the high affinity calcium binding and depleted of the intrinsic glycoprotein. Cycloheptaamylose . fluorescamine complex (CFC) labels the intrinsic glycoprotein heavily indicating that it is at least partially exposed on the cytoplasmic surface of sarcoplasmic reticulum membranes. Since the carbohydrate component of the protein must lie in luminal spaces, it is inferred that the intrinsic glycoprotein is a transmembrane protein. The high affinity calcium binding protein is not labeled by CFC indicating that it is not exposed on the cytoplasmic surface of sarcotubular vesicles. The protein is also not affected by proteolytic digestion of sarcoplasmic reticulum vesicles and can be isolated intact from trypsin-digested vesicles. It is not removed from sarcoplasmic-reticulum vesicles by washing with buffers containing Chelex 100 or ethylene glycol bis(beta-aminoethyl ether)N,N,N',N'-tetraacetic acid (EGTA). These data show that the high affinity calcium binding protein is localized in the interior of the sarcotubular system and suggest that it might be common to both sarcoplasmic reticulum and transverse tubular membranes. 相似文献
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Vincent C. K. Chiu Donald Mouring Brant D. Watson Duncan H. Haynes 《The Journal of membrane biology》1980,56(2):121-132
Summary The binding of the anionic fluorescent probe 1-anilino-8-naphthalene-sulfonate (ANS–) was used to estimate the surface potential of fragmented sarcoplasmic reticulum (SR) derived from rabbit skeletal muscle. The method is based on the observation that ANS– is an obligatory anion whose equilibrium constant for binding membranes is proportional to the electrostatic function of membrane surface potential, exp(e0/kT, where 0 is the membrane surface potential,e is the electronic charge, andkT has its usual meaning. The potential measured is characteristic of the ANS– bindings of phosphatidylcholine head groups and is about one-third as large as the average surface potential predicted by the Gouy-Chapman theory. At physiological ionic strength the surface potentials, measured by ANS–, referred to as the aqueous phase bathing the surface, were in the range –10 to –15 mV. This was observed for the outside and inside surfaces of the Ca2+-ATPase-rich fraction of theSR and for both surfaces of theSR fraction rich in acidic Ca2+ binding proteins. The inside and outside surfaces were differentiated on the basis of ANS– binding kinetics observed in stopped-flow rapid mixing experiments. A mechanism by which changes in Ca2+ concentration could give rise to an electrostatic potential across the membrane and possibly result in changes in Ca2+ permeability.The dependence of the surface potential on the monovalent ion concentration in the medium was used together with the Gouy-Chapman theory to determine the lower limits for the surface charge density for the inside and outside surfaces of the two types ofSR. Values for the Ca2+-ATPase richSR fraction were between 2.9×103 and 3.8×103 esu/cm2, (0.96×10–6 and 1.26×10–6 C/cm2) with no appreciable transmembrane asymmetry. A small amount of asymmetry was observed in the values for the inside and outside surfaces of the fraction rich in acidic binding proteins which were ca. 6.6×103 and ca. 2.2×103 esu/cm2 (2.2×10–6 and 0.73×10–6 C/cm). The values could be accounted for by the known composition of negatively-charged phospholipids in theSR. The acidic Ca2+ binding proteins were shown to make at most a small contribution to the surface charge, indicating that their charge must be located at least several tens of Å from the membrane surface. The experiments gave evidence for a Donnan effect on the K+ distribution in the fraction rich in acidic binding proteins. This could be accounted for by the known concentration of acidic binding proteins in thisSR fraction.The equilibrium constant for ANS– was shown to be more sensitive to changes in the divalent cation concentration than to changes in the monovalent cation concentration, as predicted by the Gouy-Chapman theory. Use of these findings together with the stopped-flow rapid mixing techniques constitutes a method for rapid and continuous monitoring of changes in ion concentrations in theSR lumen. 相似文献
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R B Martin 《FEBS letters》1992,308(1):59-61
The classic work on binding of calcium to CaATPase is analyzed by an objective non-linear least squares procedure of 74 data points over six pH values. Binding of two calciums to the basic form of the sites occurs with an equilibrium stability constant product of log K1K2 = 13.2. Owing to competition from protons, this value drops in acidic and neutral solutions, becoming, for example, 11.9 at pH 6.8. Binding of the two calciums is so strongly cooperative that its extent is difficult to estimate reliably; there is very little of the one calcium species. Two protons are also bound cooperatively to the calcium sites. In solutions of calcium free protein, at pH less than 7.6 the predominant species holds two protons at the calcium sites, while at greater pH the dominant species bears no protons; there is very little of the intermediate one proton species. The analysis also reveals the likely presence of a small, less than statistical, amount of a ternary complex bearing one calcium and one proton. 相似文献
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S R Highsmith 《Biochemistry》1982,21(16):3786-3789
Incubation of rabbit skeletal muscle sarcoplasmic reticulum vesicles in solutions of very low [Ca2+] caused Ca2+ to bind noncooperatively, as determined by the dependence of the intrinsic tryptophan fluorescence intensity on added increments of Ca2+. Cooperative Ca2+ binding was obtained if the ATPase was incubated in [Ca2+] high enough (25 microM) to saturate the two high-affinity Ca2+ binding sites and then titrated with [ethylenebis(oxyethylenenitrilo)]tetraacetic acid. The cooperative binding had an apparent association constant of 6.3 X 10(6) M-1 and a Hill coefficient of 2.6; these constants for the noncooperative binding case were 5.0 X 10(5) M-1 and 1.2, respectively. The transitions from the noncooperative to the cooperative Ca2+ binding forms of the enzyme were slow compared to the time required for Ca2+ binding to reach equilibrium. Thus, it appears that sarcoplasmic reticulum CaATPase is a hysteretic enzyme. Intrinsic association constants for Ca2+ binding and equilibrium constants for the transitions between the two forms in low and high [Ca2+] were estimated from analyses of a general scheme for cooperative and noncooperative binding. 相似文献
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Sequential mechanism of calcium binding and translocation in sarcoplasmic reticulum adenosine triphosphatase 总被引:3,自引:0,他引:3
G Inesi 《The Journal of biological chemistry》1987,262(34):16338-16342
Cooperative calcium binding (apparent Kd = 1.04 X 10(-6) M) to the ATPase of sarcoplasmic reticulum vesicles occurs with a maximal stoichiometry of 2 mols of divalent cation/mol of enzyme in the absence of ATP. The bound calcium is distributed into two pools which undergo fast or slow isotopic exchange, respectively. The two pools retain a 1:1 molar ratio under various conditions and are both located within a protein crevice, as suggested by their cooperative interaction and exchange kinetics. Following enzyme phosphorylation by ATP, both pools of bound calcium are "internalized" (cannot be displaced by quench reagents). If following 45Ca2+ binding, isotopic dilution is obtained in the medium by adding 40Ca2+ with ATP, internalization of both pools of bound 45Ca2+ (2 mol/mol of phosphoenzyme) is still observed within the first enzyme cycle. When the cycle is reversed by addition of excess ADP soon after ATP, only half of the internalized 45Ca2+ is released from the enzyme into the medium outside the vesicles, while the other half remains with the vesicles. If half of the bound 45Ca2+ is exchanged (fast exchange) with 40Ca2+ previous to the addition of ATP, none of the remaining 45Ca2+ is released outside the vesicles upon reversal of the enzyme cycle. Therefore, the pool of bound calcium which undergoes slower exchange with the outside medium, is the first to be released inside the vesicles upon enzyme phosphorylation. A sequential mechanism of calcium binding and translocation is proposed, that accounts for binding cooperativity and exchange kinetics, presteady state transients following addition of ATP, and the Ca2+ concentration dependence of ATPase activity in steady state. 相似文献
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Low-temperature studies of the sarcoplasmic reticulum calcium pump. Mechanisms of calcium binding 总被引:4,自引:0,他引:4
Y Dupont 《Biochimica et biophysica acta》1982,688(1):75-87
The mechanism of the sarcoplasmic reticulum Ca2+-ATPase was investigated at low temperatures (0 to -12 degrees C). Transient states of the enzyme were studied by two complementary techniques: intrinsic protein fluorescence and rapid filtration on Millipore filters. Intrinsic fluorescence was used to distinguish conformational states of the protein and to evaluate the rate of conversion between these states. Filtrations were used to measure the evolution of the active sites during the transition; the time resolution was 2-5 s. At sub-zero temperatures this time is shorter than the lifetime of most of the enzymatic states which have been detected. In this paper the mechanism of Ca2+ binding to the protein is investigated in the absence of nucleotides. Two basic experiments are described; (1) Kinetics of calcium binding and dissociation over a wide range of calcium concentration. (2) Kinetics of calcium exchange (45Ca2+ in equilibrium 40Ca2+) at constant concentration. The results obtained in the first series of experiments are consistent with a sequential binding to two interacting Ca2+ binding sites. Calcium ions have very fast access to a site with low apparent affinity (Kd approximately 25 microM). Occupation of this site induces a slow conformational change which increased its apparent affinity and reveals a second site of high apparent affinity. At equilibrium the two sites are not equivalent in terms of rate of exchange. Two different rates were detected k fast greater than 0.2 s-1, k slow approximately 0.015 s-1 at -10 degrees C. Removal of Ca2+ from the fast exchanging site by addition of EGTA accelerates the rate of release of the slow exchanging one. A model is proposed with two interacting Ca2+-binding sites. A set of parameters has been obtained which produces correctly the Ca2+-binding curve and the fluorescence level at equilibrium as well as the rate constants of the calcium-induced fluorescence changes over a very wide range of Ca2+ concentrations (0.02 to 150 microM). The non-equivalence of the two classes of site and the meaning of the initial low-affinity binding are discussed. 相似文献
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F Fernandez-Belda F Garcia-Carmona G Inesi 《Archives of biochemistry and biophysics》1988,260(1):118-124
The rise of intrinsic fluorescence due to calcium binding to sarcoplasmic reticulum ATPase occurs with a kobs of approximately 2 s-1 at pH 6.0, which is much lower than that observed at neutral pH. This is consistent with a H+-Ca2+ competition for the high-affinity sites. An accelerating effect of ATP on the calcium-induced transition can be clearly demonstrated at that pH. Nonhydrolyzable nucleotides, such as AMP-PNP, do not elicit the same response. Acetylphosphate also accelerates the calcium-induced fluorescence rise, demonstrating that this effect is limited to substrates that are able to form the phosphorylated enzyme intermediate. This effect, which is attributed to occupancy of the phosphorylation domain of the catalytic site, is distinct from the known secondary activation of enzyme turnover which is produced by ATP and by inactive nucleotide analogs, but not by acetylphosphate. 相似文献
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The effects of ryanodine on passive calcium fluxes across sarcoplasmic reticulum membranes 总被引:8,自引:0,他引:8
F A Lattanzio R G Schlatterer M Nicar K P Campbell J L Sutko 《The Journal of biological chemistry》1987,262(6):2711-2718
Ryanodine at concentrations of 0.01-10 microM increased, while greater concentrations of 10-300 microM decreased the calcium permeability of both rabbit fast twitch skeletal muscle junctional and canine cardiac sarcoplasmic reticulum membranes. Ryanodine did not alter calcium binding by either sarcoplasmic reticulum membranes or the calcium binding protein, calsequestrin. Therefore, the effects by this agent appear to involve only changes in membrane permeability, and the characteristics of the calcium permeability pathway affected by ryanodine were those of the calcium release channel. Consistent with this, the actions by ryanodine were localized to junctional sarcoplasmic reticulum membranes and were not observed with either longitudinal sarcoplasmic reticulum or transverse tubular membranes. In addition, passage of the junctional sarcoplasmic reticulum membranes through a French press did not diminish the effects of ryanodine indicating that intact triads were not required. Under the conditions used for the permeability studies, the binding of [3H]ryanodine to skeletal junctional sarcoplasmic reticulum membranes was specific and saturable, and Scatchard analyses indicated the presence of a single binding site with a Kd of 150-200 nM and a maximum capacity of 10.1-18.9 pmol/mg protein. [3H]ryanodine binding to this site and the increase in membrane calcium permeability caused by low concentrations of ryanodine had similar characteristics suggesting that actions at this site produce this effect. Depending on the assay conditions used, ryanodine (100-300 microM) could either increase or decrease ATP-dependent calcium accumulation by skeletal muscle junctional sarcoplasmic reticulum membranes indicating that the alterations of sarcoplasmic reticulum membrane calcium permeability caused by this agent can be determined in part by the experimental environment. 相似文献
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Thermal analysis of sarcoplasmic reticulum membranes 总被引:2,自引:0,他引:2
M A Martonosi 《FEBS letters》1974,47(2):327-329
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The usefulness of chemical cross-linking and 125I-labeling techniques in the analysis of protein-protein interactions and membrane polarity was evaluated on sarcoplasmic reticulum membranes. Treatment of fragmented sarcoplasmic reticulum vesicles with glutaraldehyde, dimethylsuberimidate, or copper-phenanthroline leads to the formation of high molecular weight aggregates of the Ca2+ transport ATPase; intermediate polymers of functionally and structurally interesting sizes accumulated only occasionally and in amounts of questionable significance. Coupling of membrane proteins with tolylene 2,4-diisocyanate-albumin inhibited tht ATPase activity and caused the appearance of high molecular weight aggregates and a band of about 160 000 dalton which corresponds to the ATPase-albumin complex.Even after the 100 000 dalton band of the Ca2+-transport ATPase was severely diminished by cross-linking with copper-phenanthroline or toluene diisocyanate-albumin, the Ca2+ binding proteins of sarcoplasmic reticulum remained unreacted. A consistent finding was the presence of dimers of the Ca2+ transport ATPase in aged preparations of sarcoplasmic reticulum which were converted upon reduction with β-mercaptoethanol into 100 000 dalton units.Microsomes were labeled with 125I in the presence of lactoperoxidase, glucose oxidase, and glucose and the radioactivity oft he various protein components was measured after sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The specific activity of calsequestrin was many times greater than that of the Ca+ transport ATPase suggesting that it is exposed on the outside surface may be sterically hindered from access by bulky reagents (tolylene diisocyanate-albumin, ferritin-labeled anti-calsequestrin antibodies, proteolytic enzymes, etc.), as calsequestin becomes highly reactive with these agents only after its release from the membrane. 相似文献
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Roles of phosphorylation and nucleotide binding domains in calcium transport by sarcoplasmic reticulum adenosinetriphosphatase 总被引:1,自引:0,他引:1
The roles of the phosphorylation (phosphorylated enzyme intermediate) and nucleotide binding domains in calcium transport were studied by comparing acetyl phosphate and ATP as substrates for the Ca2+-ATPase of sarcoplasmic reticulum vesicles. We found that the maximal level of phosphoenzyme obtained with either substrate is approximately 4 nmol/mg of protein, corresponding to the stoichiometry of catalytic sites in our preparation. The initial burst of phosphoenzyme formation observed in the transient state, following addition of either substrate, is accompanied by internalization of 2 mol of calcium per mole of phosphoenzyme. The internalized calcium is then translocated with a sequential pattern, independent of the substrate used. Following a rate-limiting step, the phosphoenzyme undergoes hydrolytic cleavage and proceeds to the steady-state activity which is soon "back inhibited" by the rise of Ca2+ concentration in the lumen of the vesicles. When the "back inhibition" is released by the addition of oxalate, substrate utilization and calcium transport occur with a ratio of 1:2, independent of the substrate and its concentration. When the nucleotide binding site is derivatized with FITP, the enzyme can still utilize acetyl phosphate (but not ATP) for calcium transport. No secondary activation of acetyl phosphate utilization by the FITC-enzyme was obtained with millimolar nucleotide. These observations demonstrate that the basic coupling mechanism of catalysis and calcium transport involves the phosphorylation and calcium binding domains, and not the nucleotide binding domain.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
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The effect which hydrostatic pressure exerts on the hydrolysis of dinitrophenyl phosphate and nitrophenyl phosphate by the sarcoplasmic reticulum calcium-transport enzyme was determined. Activation volumes for substrate hydrolysis at saturating and non-saturating concentrations of calcium were determined and used to evaluate volume increments for initial calcium binding. A reaction scheme in which two unidirectional substrate-driven reactions transfer high-affinity into low-affinity calcium-binding sites was applied to determine binding-volume increments. It has been inferred from the pressure dependence of the volume-generating function, defined as the difference between the reciprocal reaction rates of the saturated and the unsaturated enzyme, that calcium binding proceeds in two steps. The two associated binding constants are endowed with large binding-volume increments of opposite signs (+84 to +207 ml/mol and -3 to -136 ml/mol). Under different experimental conditions, with respect to the temperature, degree of calcium saturation and absence or presence of Me2SO, they add up to the same integral volume increment of 73 +/- 3.5 ml/mol for the entry of two calcium ions into the reaction cycle. In aqueous media, the two binding constants contribute about equally to binding and to the observed binding-volume increment. The presence of Me2SO strongly favours the first binding step. The size of the integral volume increment is in line with that determined for the interaction of calcium with calmodulin [Kupke, D.W. & Dorrier, T.E. (1986) Biochem. Biophys. Res. Commun. 38, 199-204]. 相似文献
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Raman spectra are presented for sarcoplasmic reticulum membranes. Interpretation of the 1000–1130 cm?1 region of the spectrum indicates that the sarcoplasmic reticulum membrane may be more fluid than erythrocyte membranes that have been examined by the same technique. The fluidity of the membrane also manifests itself in the amide I portion of the membrane spectrum with a strong 1658 cm?1 band characteristic of CC stretching in hydrocarbon side chains exhibiting cis conformation. This band is unaltered in intensity and position in H2O and in 2H2O thus obscuring amide I protein conformation. Of particular interest is the appearance of strong, resonantly enhanced bands at 1160 and 1527 cm?1 attributable to membrane-associated carotenoids. 相似文献
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Multilayer planar membranes were constructed between a pair of cellulose sheets from fragmented sarcoplasmic reticulum (FSR) as well as a mixture of egg yolk lecithin and the Ca2+-ATPase purified from FSR. Since sodium deoxycholate was used instead of organic solvents in order to dissolve phospholipids in the process of the membrane preparation, the total activity of the Ca2+-ATPase was still preserved in the planar membrane of FSR. It was also indicated using a spin label technique that the orientation of phospholipids in the planar membrane of FSR was considerably disturbed by the presence of proteins such as the Ca2+-ATPase included in FSR. 相似文献