Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Temporal patterns of biosynthesis of the sarcoplasmic reticulum protein, calsequestrin, were analyzed and compared with rates of ATPase synthesis in primary cultures of rat skeletal muscle cells. Rates of synthesis were measured by the incorporation of radioactive leucine into the isolated proteins. Cells at various stages of differentiation were incubated for 2 h with tritium-labeled leucine and extracted with detergent. The extracts were incubated with antibodies specific against calsequestrin or the ATPase and immunoprecipitates were separated by disc gel electrophoresis. Incorporation of radioactivity into bands identified as calsequestrin or the ATPase was analyzed by counting of gel slices. In Dulbecco's modified Eagles medium (DME medium) containing 0.1 volume of horse serum and 0.005 volume of chick embryo extract, the cells began to fuse after about 50 h in culture, forming multinucleated myotubes. Calsequestrin synthesis was barely detectable after 24 h in culture. After 44 h, before fusion of myoblasts began, the rate of calsequestrin synthesis increased severalfold. The rate of synthesis continued to increase until about 72 h and then diminished. If cells were transferred at 44 h to DME medium containing 0.2 volume of fetal calf serum and 0.08 volume of chick embryo extract, fusion was delayed by about 20 h. In this medium the rate of calsequestrin synthesis diminished after a peak at 44 h but, by contrast, the rate of synthesis of the ATPase increased dramatically following fusion at about 80 h. If cells were transferred at about 40 h to DME medium containing 0.1 volume of horse serum and only 60 muM Ca2+ the cells did not fuse and, again, the rate of calsequestrin synthesis was diminished after a peak at about 40 h. By contrast the rate of ATPase synthesis increased sharply in spite of the lack of fusion. Both proteins were degraded with a half-life of about 20 h. These studies show that the synthesis of calsequestrin, an extrinsic membrane protein, and the ATPase, an intrinsic protein of the same membrane, are synthesized under separate control.
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PMID:Assembly of the sarcoplasmic reticulum. Biosynthesis of calsequestrin in rat skeletal muscle cell cultures. 13 41

The nature of second messenger-responsive intracellular Ca2+ stores in neurons remains open for discussion. Here, we demonstrate the existence in Purkinje cells (PCs) of endoplastic reticulum (ER) subcompartments characterized by an uneven distribution of three proteins involved in Ca2+ storage and release: the inositol 1,4,5-trisphosphate (InsP3) receptor, Ca(2+)-ATPase, and calsequestrin. Ca(2+)-ATPase and the InsP3 receptor have a widespread, although not identical, distribution throughout the ER. Calsequestrin is localized throughout the smooth ER and is particularly concentrated in pleiomorphic vesicles with a moderately electron-dense core, which appear to represent a subcompartment of the smooth ER. In double-labeling experiments many of these vesicles were unlabeled by InsP3 receptor antibodies. These results suggest a key role of the ER as an intracellular Ca2+ store and demonstrate a possible structural basis for distinct intracellular Ca2+ pools regulated by different second messengers.
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PMID:Ca2+ stores in Purkinje neurons: endoplasmic reticulum subcompartments demonstrated by the heterogeneous distribution of the InsP3 receptor, Ca(2+)-ATPase, and calsequestrin. 131 Oct 32

Myothermal measurements of tension-independent heat are used to calculate the quantity of calcium released during isometric contraction and the rate at which it is removed in control, thyrotoxic and pressure-overloaded rabbit hearts. Experiments were carried out at 30 degrees C. In control rabbit hearts 41.0 +/- 7.0 nmoles/g Ca++ was released into the cytosol for each beat, while the rate at which the Ca++ was removed from the cytosol was 24.4 +/- 4.4 nmoles/g sec. In the presence-overloaded preparations, the amount of calcium released and the rate of calcium removal were 41% and 40% of control values. This reduction was correlated with the mRNA levels for the sarcoplasmic reticulum (SR) Ca++ ATPase, phospholamban and the ryanodine receptor. The depression was also correlated with a reduction in SR Ca++ ATPase protein expression. In thyrotoxic hearts compared with controls, with each activation there is an increase in the amount of calcium liberated into the cytosol (39%) and the rate of calcium removal (31%). This increase is correlated with an increase in the mRNA and protein expression for the SR Ca++ ATPase as well as the mRNA for the ryanodine receptor. Calsequestrin mRNA was unchanged in all of the experimental preparations. It is suggested that the alteration in the calcium cycling proteins offers at least a partial explanation for the changes in calcium cycling measured in response to the stresses applied.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The regulation of calcium cycling in stressed hearts. 133 66

1. The sarcoplasmic reticulum (SR) from malignant hyperpyrexia susceptible (MHS) and control porcine skeletal muscle was separated into vesicular fractions enriched in the membrane elements of the terminal cisternae and longitudinal tubules. 2. The two membrane preparations were highly purified and had distinctive features which were associated with their origins in the SR membraneous network. 3. Calsequestrin and calcium were enriched in the terminal cisternae fraction (HSR), in comparison to longitudinal tubule preparations (LSR). 4. The HSR membrane also had a greater total capacity to store Ca2+ and Ca2+ release was more rapid than from LSR preparations. 5. No distinction could be made between the membrane morphology, Ca2+ -fluxes or Ca2+ -dependent ATPase activities, associated with these functionally distinct regions of MHS and control preparations.
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PMID:Characterization of the terminal cisternae and longitudinal tubules of sarcoplasmic reticulum from malignant hyperpyrexia susceptible porcine skeletal muscle. 258 47

Tissue contents of the sarcoplasmic-reticulum Ca2+-ATPase (Ca2+ +Mg2+-dependent ATPase), of calsequestrin and of parvalbumin were immunochemically quantified in homogenates of fast- and slow-twitch muscles of embryonic, maturing and adult rabbits. Unlike parvalbumin, Ca2+-ATPase and calsequestrin were expressed in embryonic muscles. Presumptive fast-twitch muscles displayed higher contents of these two proteins than did presumptive slow-twitch muscles. Calsequestrin steeply increased before birth and reached adult values in the two muscle types 4 days after birth. The main increase in Ca2+-ATPase occurred during the first 2 weeks after birth. Denervation of postnatal fast- and slow-twitch muscles decreased calsequestrin to amounts typical of embryonic muscle and suppressed further increases of Ca2+-ATPase. Denervation caused slight decreases in Ca2+-ATPase in adult fast-twitch, but not in slow-twitch, muscles, whereas calsequestrin was greatly decreased in both. Chronic low-frequency stimulation induced a rapid decrease in parvalbumin in fast-twitch muscle, which was preceded by a drastic decrease in the amount of its polyadenylated RNA translatable in vitro. Tissue amounts of Ca2+-ATPase and calsequestrin were essentially unaltered up to periods of 52 days stimulation. These results indicate that in fast- and slow-twitch muscles different basal amounts of Ca2+-ATPase and calsequestrin are expressed independent of innervation, but that neuromuscular activity has a modulatory effect. Conversely, the expression of parvalbumin is greatly enhanced by phasic, and drastically decreased by tonic, motor-neuron activity.
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PMID:Neural control of gene expression in skeletal muscle. Calcium-sequestering proteins in developing and chronically stimulated rabbit skeletal muscles. 288 May 79

Antibodies directed against purified Ca-ATPase from sarcoplasmic reticulum, calsequestrin and parvalbumin from rabbit fast-twitch muscle were raised in sheep. The specificity of the antibodies was shown by immunoblot analysis and by enzyme-linked immunoadsorbent assays (ELISAs). IgG against the sarcoplasmic reticulum Ca-ATPase inhibited the catalytic activities of Ca-ATPase from fast-twitch (psoas, tibialis anterior) and slow-twitch (soleus) muscles to the same degree. In non-equilibrium competitive ELISAs the anti(Ca-ATPase) IgG displayed a slightly higher affinity for the Ca-ATPase from fast-twitch muscle than for that from slow-twitch muscle. This suggests a fiber-type-specific polymorphism of the sarcoplasmic reticulum Ca-ATPase. Quantification of Ca-ATPase, calsequestrin and parvalbumin in various rabbit skeletal muscles of histochemically determined fiber composition was achieved by sandwich ELISA. Ca-ATPase was found to be 6-7 times higher in fast than in slow-twitch muscles. A slightly higher concentration was found in fast-twitch muscles with a higher percentage of IIb fibers when compared with fast-twitch muscles with a higher percentage of IIa fibers. Thus Ca-ATPase is distributed as follows, IIb greater than or equal to IIa much greater than I. Calsequestrin was uniformly distributed in fast-twitch muscles independently of their IIa/IIb fiber ratio and displayed 50% lower concentrations in slow than in fast-twitch muscles (IIb = IIa greater than I). Parvalbumin contents were 200-300-fold higher in fast than in slow-twitch muscles. Significantly lower parvalbumin concentrations were found in fast-twitch muscles with a higher percentage of IIa fibers than in fast-twitch muscles with a higher percentage of IIb fibers (IIb greater than IIa much greater than I).
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PMID:Immunochemical quantification of sarcoplasmic reticulum Ca-ATPase, of calsequestrin and of parvalbumin in rabbit skeletal muscles of defined fiber composition. 293 50

Rabbit skeletal muscle sarcoplasmic reticulum (SR) was fractionated by isopycnic density gradient centrifugation into longitudinal tubules (LSR) and terminal cisternae (TC). Junctional face membranes (JFM) were obtained by Triton X-100 treatment of the TC fraction (Costello, B., Chadwick, C., Saito, A., Chu, A., Maurer, A. and Fleischer, S. (1986) J. Cell Biol. 103, 741-753). Photoactivatable phospholipid analogs were introduced into LSR, TC, and JFM fractions to specifically label integral membrane proteins. Remarkably different labeling patterns were observed. Proteins of the following Mr were labeled and identified in the junctional sarcoplasmic reticulum (JFM): 350,000, 325,000, 80,000, 49,000, 37,000, 32,000, 30,000, and 6000. Polypeptides of Mr 105,000 (Ca2+-dependent ATPase), 77,000, 55,000, 41,000, 22,000, and 9000 (proteolipid) were labeled and found to be selectively localized in the nonjunctional sarcoplasmic reticulum (LSR). Calsequestrin, a key protein responsible for Ca2+ storage within the SR lumen, was never labeled, whether 1 mM CaCl2 was present or absent, and is termed a nonintegral membrane protein.
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PMID:Photolabeling of the integral proteins of skeletal muscle sarcoplasmic reticulum: comparison of junctional and nonjunctional membrane fractions. 294

Polyadenylated RNA prepared from neonatal rat muscle was translated in a rabbit reticulocyte cell-free system. Two sarcoplasmic reticulum proteins, the Ca2+ + Mg2+-dependent adenosine triphosphatase (ATPase) and calsequestrin, were isolated from the translation mixture by immunoprecipitation, followed by electrophoresis in sodium dodecyl sulfate-polyacrylamide gels. The [35S]methionine-labeled translation products were characterized by molecular weight, peptide mapping, and NH2-terminal sequence analysis. The ATPase synthesized in the cell-free system was found to have the same molecular weight (Mr = 100,000) and [35S]-methionine-labeled peptide map as the mature ATPase. The methionine residue present at the NH2 terminus of the mature ATPase was donated by initiator methionyl-tRNArMet and it became acetylated during translation. These results suggest that the ATPase was synthesized without an NH2-terminal signal sequence. Calsequestrin (Mr - 63,000) was synthesized as a higher molecular weight precursor (Mr = 66,000) that contained an additional [35S]methionine-labeled peptide when compared to mature calsequestrin. The NH2-terminal sequence of the precursor was different from the mature protein. The precursor was processed to a polypeptide with a molecular weight identical with mature calsequestrin when microsomal membranes prepared from canine pancreas were included during translation. These results show that calsequestrin is synthesized with an NH2-terminal signal sequence that is removed during translation. These data add to the evidence that the ATPase and calsequestrin follow distinctly different biosynthetic pathways, even though, ultimately, they are both located in the same membrane.
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PMID:Assembly of the sarcoplasmic reticulum. Cell-free synthesis of te Ca2+ + Mg2+-adenosine triphosphatase and calsequestrin. 616 Jan 54

Calsequestrin is a Ca2+ binding protein expressed by a few cell types (mostly muscle fibers). In these cells the distribution of the protein is within the endoplasmic/sarcoplasmic reticulum, however, not uniformly throughout but at discrete sites of the lumen. In order to investigate the mechanisms of this unusual intracellular distribution together with the possible functions of the protein, we have studied stable transfected clones of epithelial HeLa cells. Treatment of these cells with butyric acid induced a rapid (24 h) and massive (approx. 10-fold) increase of the transfected protein, whereas the other lumenal and membrane proteins of the endoplasmic reticulum were either modified slightly or unchanged. When butyric acid treatment was interrupted the calsequestrin levels returned rapidly (within 24 h) to the pre-treatment level. Such a rapid turnover was due in part to secretion, sustained by both spontaneous and Ca(2+)-dependent release of calsequestrin to the extracellular medium. From the physiological point of view, the transfected cells exhibited only moderate increases of the Ca2+ release responses triggered by either ATP (a ligand addressed to the P2u receptor and working through IP3 generation) or thapsigargin (a blocker of the endoplasmic reticulum Ca2+ ATPase), with no further increase after butyric acid induction of calsequestrin. This result appears to correlate with the occurrence of only small amounts of calsequestrin within the endoplasmic reticulum lumen of all transfected cells. The bulk of calsequestrin, in contrast, was found sequestered within large vacuoles distributed both near the cell surface and, after butyric acid treatment, also in the deep cytoplasm. These vacuoles (possibly a lysosomal subcompartment) appear to contain no Ca2+ as no difference in 45Ca release from transfected cells was observed without or with butyric acid pretreatment when exposed to ionomycin, alone or combined with monensin. We conclude that HeLa cells possess no adequate mechanisms to keep calsequestrin in its physiologically relevant location, the endoplasmic reticulum. In the transfected cell the protein seems therefore to be diverted (possibly by default) to vacuoles destined to be rapidly eliminated by the cell.
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PMID:Expression of muscle calsequestrin in epithelial HeLa cells: distribution and functional role. 791 67

The enhanced diastolic Ca2+ levels observed in cardiac myocytes from patients with idiopathic dilated cardiomyopathy (DCM) may be either a consequence of functional impairment of sarcoplasmic reticulum calcium-ATPase (SERCA 2) and its regulator protein phospholamban or due to a reduction in the number of SERCA 2 proteins. As different myocardial membrane preparations may lead to different accumulation of proteins, the present study evaluated two different membrane preparations, in human failing and nonfailing myocardium for comparison of SERCA 2 activity and the protein expression of SERCA 2 and phospholamban. Crude membranes and tissue homo-genates without any centrifugation steps were prepared from human nonfailing hearts (donor hearts, NF, n=18) and terminally failing hearts (heart transplant, DCM, n=18). Calsequestrin protein expression was used as an internal control for overall protein expression. In both crude membranes and homogenates maximal SERCA 2 activity (Vmax) was significantly reduced in failing heart preparations (NF crude membranes, 130+/-8; DCM crude membranes, 102+/-5 nmol ATP/mg protein per minute). In contrast, the protein expression of SERCA 2 (NF crude membranes, 488+/-35; DCM crude membranes, 494+/-42; P=0.92), phospholamban (NF crude membranes, 497+/-51; DCM crude membranes, 496+/-45; P=0.98) and calsequestrin (NF crude membranes, 109+/-06; DCM crude membranes, 107+/-08; P=0.84) was unchanged in NF and DCM hearts in both preparation methods. This was also the case when the protein expression was normalized to calsequestrin protein levels. Preparation of sarcoplasmic reticulum in crude membranes led to enhanced purification and consequently higher SERCA 2, phospholamban, and calsequestrin protein levels in crude membranes than in the homogenates, which was paralleled by an increase in SERCA 2 enzyme activity. In conclusion, the altered Ca2+ handling in DCM may be a consequence of reduced SERCA 2 enzyme activity and not the result of differences in protein expression of the Ca2+ regulating proteins SERCA 2, phospholamban, and calsequestrin in human myocardium. The present study emphasizes the importance of different myocardial membrane preparations with respect to quantitative investigations of protein expression and function.
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PMID:Unchanged protein expression of sarcoplasmic reticulum Ca2+-ATPase, phospholamban, and calsequestrin in terminally failing human myocardium. 962


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