Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sarcoplasmic calcium-binding proteins (SCPs) are members of the EF-hand calcium-binding protein family which are characterized by the presence of helix-loop-helix motifs in their amino acid sequence. SCPs have an M(r) of approximately 20,000, a pI of approximately 5 and interact with two to three calcium ions (Ca2+) with a KD of 10(-7) to 10(-8) M. Mg2+ ions antagonize Ca2+ ion binding in a complex manner so that these proteins are exquisitely fine-tuned to interfere with the Ca2+ signal. SCPs apparently fulfil no specific activatory function. They exhibit strong polymorphism, show a marked homology to coelenterate photoproteins (aequorin, luciferin) and have been found only in invertebrates, predominantly in muscle and neurons. In mollusks, SCPs are distributed in a tissue-specific manner, with immunoreactivity to SCP I-like isoforms localized in electrically silent neurons colocalized with serotonin, and immunoreactivity to SCP II-like isoforms exclusively present in muscle.
Comp Biochem Physiol B Biochem Mol Biol 1995 Jul
PMID:Sarcoplasmic calcium-binding protein. 761 60

Extracellular ATP activates two distinct types of P2 purinoreceptor-mediated signaling pathways in macrophages, 1) the rapid formation of nonselective pores/channels in the plasma membrane and 2) a guanine nucleotide-binding protein-dependent stimulation of phosphotidylinositol-specific phospholipase C, with subsequent mobilization of intracellular Ca2+. Several studies have suggested that the pore-forming, or P2z, purinoreceptor may be involved in the cytolytic effects of ATP on macrophages and other cell types. We have identified 3'-O-(4-benzoyl)benzoyl-ATP (BzATP) and UTP as selective agonists for the P2z purinoreceptor and Ca(2+)-mobilizing nucleotide receptor, respectively, in BAC1.2F5 macrophages. In this paper we demonstrate that BzATP and ATP (but not UTP) activate membrane depolarization in BAC1.2F5 cells and also stimulate appropriate electrophysiological responses, consistent with the expression of the P2z purinoreceptor, in Xenopus oocytes injected with poly(A)+ RNA derived from BAC1.2F5 cells. Micromolar concentrations of BzATP or millimolar concentrations of ATP induced a sustained increase in the membrane holding current in these voltage-clamped oocytes. This response was significantly potentiated in the absence of extracellular divalent cations, consistent with the specificity of the P2z purinoreceptor for tetrabasic nucleotides. The sustained currents induced by BzATP or ATP were distinct from the transient and/or oscillating increases in Ca(2+)-dependent Cl- currents that were stimulated by UTP but not BzATP. UTP-stimulated transient currents and nucleotide-dependent increases in aequorin luminescence in poly(A)+ RNA-injected oocytes were independent of extracellular Ca2+ and were correlated with the mobilization of intracellular Ca2+ stores. Sucrose fractionation of the poly(A)+ RNA from BAC1.2F5 cells resulted in the enrichment of mRNA species encoding the components of the P2z purinoreceptor, as well as the Ca(2+)-mobilizing nucleotide receptor, in fractions containing 2.5-4.0-kilobase species.
Mol Pharmacol 1993 Jul
PMID:Expression of the pore-forming P2Z purinoreceptor in Xenopus oocytes injected with poly(A)+ RNA from murine macrophages. 768 70

Calcium is a dynamic signalling molecule which acts to transduce numerous signals in plant tissues. The basis of calcium signalling is outlined and the necessity for measuring and imaging of calcium indicated. Using plants genetically transformed with a cDNA for the calcium-sensitive luminescent protein, aequorin, we have shown touch and wind signals to immediately increase cytosol calcium. Touch and wind signal plant cells mechanically, through tension and compression of appropriate cells. Many plant tissues and cells are very sensitive to mechanical stimulation and the obvious examples of climbing plants, insectivorous species as well as other less well-known examples are described. Touch sensing in these plants may be a simple evolutionary modification of sensitive mechanosensing system present in every plant. The possibility that gravitropism may be a specific adaptation of touch sensing is discussed. There is a growing appreciation that plant form may have a mechanical basis. A simple mechanical mechanism specifying spherical, cylindrical and flat-bladed structures is suggested. The limited morphological variety of plant tissues may also reflect mechanical specification. The article concludes with a discussion of the mechanisms of mechanical sensing, identifying integrin-like molecules as one important component, and considers the specific role of calcium.
Plant Mol Biol 1994 Dec
PMID:Mechanical signalling, calcium and plant form. 785 94

We investigated signal transduction pathways involved in c-myc activation, using rat hepatocytes in primary culture. c-Myc mRNA was constantly expressed in the cultured hepatocytes regardless of the conditions present. When the expression was examined in the presence of various agents modulating intracellular signals, isoflavonoids (genistein, psi-tectorigenin, and orobol) significantly decreased c-myc mRNA levels, in a dose dependent manner. However, genistein did not decrease Li+ induced inositol phosphate accumulation using [3H]inositol-labeled cultured hepatocytes. In addition, we have shown that these isoflavonoids increase cytoplasmic free Ca2+, when measured using aequorin-loaded hepatocytes. In light of these observations, the persistent basal level of c-myc expression seems to be maintained by mechanisms other than phosphatidylinositol turnover.
Biochem Mol Biol Int 1994 Jun
PMID:Signaling pathway other than phosphatidylinositol turnover is responsible for constant expression of c-myc gene in primary cultures of rat hepatocytes. 795 Oct 61

Experiments were carried out to investigate the changes in intracellular Ca2+ transients associated with biphasic contractions that were elicited during interaction of theophylline with isoproterenol in the dog ventricular myocardium. For this purpose, effects of theophylline and isoproterenol on aequorin light transients and isometric contractions were assessed in the isolated canine ventricular trabeculae, superficial cells of which had been microinjected with the Ca2+ sensitive bioluminescent protein aequorin. The positive inotropic effect of theophylline (0.1-0.3 mM) was consistently associated with an increase in the amplitude of aequorin light transients. Theophylline at concentrations of 0.6 mM and higher decreased the amplitude of aequorin light transients, but the force of contraction increased further in association with a prominent prolongation of time to peak force. Theophylline (0.3 mM) enhanced the forskolin-induced increase in aequorin light transients and force. Theophylline (2 mM) inhibited the isoproterenol-induced increase in aequorin light transients associated with early phase of contraction in a reversible manner. A late phase of aequorin light transients was induced in association with late phase of contraction in the presence of both isoproterenol and theophylline. Thus, both the early and late phase of contraction were accompanied by corresponding phases of aequorin light transients. The relation between the amplitude of force and Ca2+ transients was markedly different and the late phase of contraction was associated with much lower aequorin light transients. The late phase of aequorin light transients induced by theophylline at a high concentration (10 mM) was enhanced by isoproterenol. These results indicate that theophylline (0.1-0.3 mM) increases the amplitude of Ca2+ transients through an accumulation of cyclic AMP by inhibition of the cyclic AMP phosphodiesterase activity. In concentrations of 0.6 mM and higher theophylline decreases the amplitude of the early phase aequorin light transients probably by inhibition of release of Ca2+ from the sarcoplasmic reticulum and induces simultaneously the late phase of contraction that may be associated with an increase in responsiveness to Ca2+ of myofibrils.
J Mol Cell Cardiol 1994 Jan
PMID:The effects of theophylline on aequorin light transients and force in the isolated dog right ventricular myocardium. 819 72

The Ca(2+)-sensitive photoprotein aequorin was injected into single frog skeletal muscle fibers, and the intracellular aequorin light intensity during muscle activation with different maneuvers was mapped with digital imaging microscopy. During 50 Hz electrical activation (tetanus), the aequorin light intensity from different locations in the muscle fiber rose with very similar time course. Caffeine (10 mM) application, on the other hand, caused aequorin light signals to show significantly different time courses, with an earlier increase in Ca2+ concentration near the surface of the fiber than near the core. The non-uniform rise of intracellular Ca2+ concentration with caffeine treatment is consistent with the slow inward diffusion of caffeine and subsequent Ca2+ release from sarcoplasmic reticulum.
Mol Cell Biochem 1993 Feb 17
PMID:Radial spread of aequorin Ca2+ signal in single frog skeletal muscle fibers. 845 87

A chimeric protein (ERaeq) comprised of the invariant chain (Ii) of class II major histocompatability complex (MHC-II) and aequorin was localized in the endoplasmic reticulum (ER) of transfected human embryonal kidney 293 cells. The targeted aequorin resided in the lumen of the ER membrane system, including the nuclear cistern, and following addition of the chromophore coelenterazine underwent Ca(++)-activated chemiluminescence. The majority of chemiluminescence produced by coelenterazine treatment of ERaeq-expressing 293 cells was consumed rapidly (within 2-4 min) upon re-addition of Ca++ to coelenterazine-loaded cells, a finding consistent with very high Ca++ concentrations (approximately 10(-5)-10(-3) M Ca++ ion) inside the ER. However, following the initial rapid consumption of ERaeq chemiluminescence, the activity that remained (10-30% of total sample luminescence of permeabilized cells or 50-70% of total sample luminescence of intact cells) was found to produce a stable baseline corresponding to a Ca++ ion concentration < or = 1-2 microM. The stable baseline of luminescence observed following rapid consumption of the majority of the sample's activity was not derived from re-binding of fresh chromophore to spent photoprotein, suggesting that a minority fraction of the ER membrane system within which the ERaeq chimera was distributed contained a relatively low Ca++ concentration. Addition of IP3 to digitonin-permeabilized cells, or agonist treatment of intact cells decreased this residual signal. Luminescence recordings from cells expressing an ER-targeted aequorin with relatively high affinity for Ca++ thus reveal heterogeneity in luminal ER Ca++ concentration and permit observation of receptor- and IP3-activated release of Ca++ from the ER membrane system.
Mol Biol Cell 1996 Mar
PMID:Aequorin targeted to the endoplasmic reticulum reveals heterogeneity in luminal Ca++ concentration and reports agonist- or IP3-induced release of Ca++. 886 70

The following study was undertaken to determine if calcium ions move from the plasma membrane to the nucleus of Trypanosoma brucei. Nuclear and cytosolic calcium flux was measured with the calcium sensitive photoprotein, aequorin which was targeted to various locations in stably transformed procyclic cells. Immunoblots revealed that the recombinant proteins, CYT-AEQ and NUC-AEQ were translated in transformants, and that CYT-AEQ was contained in a soluble fraction. Immunolocalization demonstrated that NUC-AEQ was contained within the trypanosome nucleus. To evaluate calcium movement from the plasma membrane to the nucleus in live trypanosomes, aequorin was reconstituted in vivo with coelenterazine and luminescence was recorded. The resting levels of [Ca2+]cyt and [Ca2+]nuc were similar (314 +/- 43 and 287 +/- 28 nM, respectively). When calcium influx across the plasma membrane was initiated with 2 microM ionomycin, [Ca2+]cyt and [Ca2+]nuc each became elevated in parallel to a new steady state which was approximately 2-fold above the resting level. Compound 48/80 initiated a calcium flux across the plasma membrane by a different mechanism from ionomycin, and in a manner that was inhibited by the calcium channel antagonist, La3+. Compound 48/80 (8 micrograms/ml) transiently elevated [Ca2+]cyt to 1.73 +/- 0.3 microM over the course of 20 s, and also generated a transient rise in [Ca2+]nuc which peaked at 1.32 + 0.29 microM over the same time course. Overall, these data demonstrate that calcium moves into and out of the trypanosome nucleus in a manner which closely parallels changes in [Ca2+]cyt. A small calcium ion gradient between nucleus and cytoplasm was also observed.
Mol Biochem Parasitol 1996 Dec 02
PMID:Nuclear calcium flux in Trypanosoma brucei can be quantified with targeted aequorin. 901 Aug 42

Specifically targeted aequorin chimeras were used for studying the dynamic changes of Ca2+ concentration in different subcellular compartments of differentiated skeletal muscle myotubes. For the cytosol, mitochondria, and nucleus, the previously described chimeric aequorins were utilized; for the sarcoplasmic reticulum (SR), a new chimera (srAEQ) was developed by fusing an aequorin mutant with low Ca2+ affinity to the resident protein calsequestrin. By using an appropriate transfection procedure, the expression of the recombinant proteins was restricted, within the culture, to the differentiated myotubes, and the correct sorting of the various chimeras was verified with immunocytochemical techniques. Single-cell analysis of cytosolic Ca2+ concentration ([Ca2+]c) with fura-2 showed that the myotubes responded, as predicted, to stimuli known to be characteristic of skeletal muscle fibers, i.e., KCl-induced depolarization, caffeine, and carbamylcholine. Using these stimuli in cultures transfected with the various aequorin chimeras, we show that: 1) the nucleoplasmic Ca2+ concentration ([Ca2+]n) closely mimics the [Ca2+]c, at rest and after stimulation, indicating a rapid equilibration of the two compartments also in this cell type; 2) on the contrary, mitochondria amplify 4-6-fold the [Ca2+]c increases; and 3) the lumenal concentration of Ca2+ within the SR ([Ca2+]sr) is much higher than in the other compartments (> 100 microM), too high to be accurately measured also with the aequorin mutant with low Ca2+ affinity. An indirect estimate of the resting value (approximately 1-2 mM) was obtained using Sr2+, a surrogate of Ca2+ which, because of the lower affinity of the photoprotein for this cation, elicits a lower rate of aequorin consumption. With Sr2+, the kinetics and amplitudes of the changes in [cation2+]sr evoked by the various stimuli could also be directly analyzed.
Mol Biol Cell 1997 Jan
PMID:Subcellular analysis of Ca2+ homeostasis in primary cultures of skeletal muscle myotubes. 901 1

By sequestering activator calcium, the sarcoplasmic reticulum (SR) plays the central role in the excitation-contraction (E-C) cycle of cardiac muscle. Hence, functional changes in the SR in diseased myocardium might critically determine its mechanical characteristics. Previously, we demonstrated that both Ca2+ release and uptake were increased in SR isolated from hearts showing compensatory left ventricular (LV) hypertrophy taken from pressure-overloaded rats. However, it has not been elucidated whether such alterations also occur in the volume-overloaded myocardium. Rats in which volume-overloaded hypertrophy had been induced by aortocaval shunt 12 weeks prior to the investigation were compared to sham-operated controls in terms of SR Ca2+ uptake and release, and density of Ca2+ releasing channels (ryanodine receptors, RyR). Isometric tension and intracellular Ca2+ transients were also measured using the bioluminescent Ca2+ indicator, aequorin, in isolated LV papillary muscles. The extent of hypertrophy was verified by measuring the ratio of biventricular weight to body weight. In vivo, the aortocaval shunt rats showed normal LV contractility and slightly depressed LV relaxation, indicating a compensatory (adaptive) stage of LV function. In contrast, Ca2+ release, uptake, and maximal number of [3H]-ryanodine binding sites were all significantly lower in aortocaval shunt rats than in controls. Both the Ca2+ transients and isometric relaxation of the isolated myocardium were significantly prolonged in aortocaval shunt rats, though their amplitudes were similar in the two groups. Thus, the volume-overloaded cardiac hypertrophy, even at its hemodynamically compensatory (adaptive) stage, (i) was accompanied by abnormal Ca2+ handling, as indicated by prolonged intracellular Ca2+ transients and isometric tension traces, (ii) seems to involve subcellular mechanisms related to decreases in SR Ca2+ release and uptake functions, as well as to a decrease in the number of RyR. Therefore, changes in the intracellular processes underlying cardiac E-C coupling, including SR function, precede the development of this type of heart disease.
J Mol Cell Cardiol 1997 Apr
PMID:Early changes in the functions of cardiac sarcoplasmic reticulum in volume-overloaded cardiac hypertrophy in rats. 916 Aug 62


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