Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sarcolemmal Ca++-ATPase, Mg++-ATPase, and (Na+-K+)-ATPase activities were increased in late stages of heart failure in myopathic hamsters (BIO 14.6) without any changes in the adenylate cyclase activity. On the other hand, these hamsters at early and moderate stages of heart failure showed depressions in mitochondrial calcium binding and uptake and microsomal calcium binding. Sarcolemmal (Na+-K+)-ATPase was decreased in failing hearts because of substrate lack, oxygen lack, and perfusion with Ca++-free, Na+-free, or K+-free medium. Both Mg++-ATPase and Ca++-ATPase activities of sarcolemma did not change on perfusing the hearts with substrate-free, hypoxic, Na+-free, or K+-free medium. Adenylate cyclase activity decreased on substrate-free or Ca++-free perfusion. Intracellular calcium overload produced by perfusing the hearts with medium containing calcium after Ca++-free perfusion was associated with decrease in all the sarcolemmal-bound enzyme activities. All types of failing hearts employed in this study showed a dramatic shift in the electrolyte composition. Failure of the cardiac muscle to generate contractile force on treatment with trypsin was associated with defects in the functions of sarcolemma, mitochondria, and sarcoplasmic reticulum, whereas such an effect on treatment with phospholipase C was limited to alterations in the activities of sarcolemma. The data suggest that abnormality at the level of sarcolemma plays an important role in the pathogenesis of heart dysfunction; however, the degree and direction of alterations in the sarcolemmal functions seem to be dependent upon the type of heart failure.
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PMID:Role of sarcolemmal changes in cardiac pathophysiology. 13 Jun 63

Although stimulated [3H] inositol phosphate turnover has been demonstrated in isolated, perfused [3H] inositol prelabelled rat hearts, there is still no information regarding Ins (1,4,5)P3 levels in intact cardiac muscle. Using a D-myo-Ins(1,4,5)P3 assay system, Ins(1,4,5)P3 levels were determined in isolated perfused rats hearts during ischaemia, reperfusion and alpha 1-adrenergic stimulation via noradrenaline (3 x 10(-5) M). Control hearts contained +/- 674 pmols Ins(1,4,5)P3/g dry heart weight. Myocardial Ins(1,4,5)P3 levels were significantly decreased (+/- 389 pmols/g dry heart weight) after exposure to 20 mins of normothermic ischaemic cardiac arrest (NICA). Reperfusion produced a marked increase in Ins(1,4,5,)P3 levels (+/- 1,115 pmols/g dry heart weight) after only 30 s. Noradrenaline caused a 3-4 fold increase in tissue Ins(1,4,5)P3 levels within 30 s. After 20 mins stimulation with noradrenaline, the Ins(1,4,5)P3 levels were still significantly elevated. The rise in tissue Ins(1,4,5)P3 levels during reperfusion as well as during noradrenaline administration was counteracted by neomycin (0.5 x 10(-3) M), an inhibitor of phosphoinositidase specific phospholipase C. In both events neomycin restored the Ins(1,4,5)P3 levels to control values. For correlation of tissue Ins(1,4,5)P3 levels with mechanical events, noradrenaline (3 x 10(-5) M), in the presence of 10 mM LiCl, 10(-7) M propranolol and 10(-7) M atropine, was administered to isolated perfused rat hearts and the mechanical performance recorded over a period of 20 mins. Noradrenaline caused a significant increase in peak systolic pressure and work performance which was maintained for at least 10 mins, suggesting that the positive inotropic effects of noradrenaline may be provoked by Ins(1,4,5)P3. Furthermore, the finding that 20 min NICA followed by 30 s reperfusion causes an immediate significant increase in Ins(1,4,5)P3 content suggests a role for the phosphatidylinositol pathway in the intracellular Ca2+ overloading, characteristic of ischaemia-reperfusion.
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PMID:Increased myocardial inositol trisphosphate levels during alpha 1-adrenergic stimulation and reperfusion of ischaemic rat heart. 179 34

Previous work has demonstrated that myocardial ischemia results in a breakdown of the excitation-contraction coupling system of cardiac muscle associated with lysosomal activation. It has been hypothesized that lysosomal activation during the course of myocardial ischemia is mediated by the production of oxygen free radicals. We have tested the hypothesis that myocardial ischemia results in the activation of lysosomal phospholipase C and disruption of calcium transport in sarcoplasmic reticulum (SR) mediated by oxygen free radicals. Three groups of dogs were studied: sham-operated controls (n = 6); normothermic global ischemia of 30-min duration (n = 6); and 30 min of normothermic global ischemia pretreated with intracoronary superoxide dismutase (SOD, 10 micrograms/ml) plus catalase (25 micrograms/ml). In vitro, isolated SR demonstrated a significant depression of calcium uptake rates and Ca2+-stimulated, Mg2+-dependent ATPase activity at both pH 7.0 and 6.4 with the depression at pH 6.4 greater than 7.0. This depression of SR function was significantly inhibited in hearts pretreated with SOD plus catalase. In sham-operated controls, acid-induced dysfunction was associated with substantial loss of phospholipid phosphorus and major changes in phospholipid composition. SR contained an extremely active, ion-independent sphingomyelinase-phospholipase C (SM-PLC) that had maximal activity at pH 4.5-5.0. This SM-PLC was activated when control SR was incubated at acid pH and the specific activity of SM-PLC was decreased 50% in SR isolated from normothermic global ischemia. Activity remained at control levels in hearts pretreated with SOD plus catalase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sarcoplasmic reticulum dysfunction: phospholipid alterations induced by lysosomal phospholipase C. 377 91

Excitation-contraction coupling in cardiac muscle is dependent on extracellular calcium and calcium bound to the surface of the myocardial cell. In this study, we examined the physical characteristics of calcium binding to adult guinea pig ventricular myocytes disaggregated mechanically in oxygenated tissue culture medium containing a proteinase inhibitor (aprotinin), and separated from cellular debris by Cytodex beads. Cells prepared in this manner excluded Trypan blue and showed no evidence of spontaneous contraction or contracture. Scatchard plots of calcium binding determined by continuous flow equilibrium dialysis revealed a high-affinity, low-capacity pool, Ka = 65 X 10(3) M-1 and Bt = 1.3 nmol X mg-1 and a low-affinity, high-capacity pool, Ka = 141 M-1 and Bt = 138 nmol X mg-1. The low-affinity pool was not detectable after lanthanum, trypsin or collagenase treatment or in cells prepared without aprotinin in the isolation medium. Both neuraminidase and phospholipase C reduced Bt of the low-affinity pool by one half, but only neuraminidase affected the affinity constant of this pool. Ka was increased to 516.7 M-1, similar to the apparent affinity constant for calcium binding estimated from dP/dtmax measured at several extracellular calcium concentrations (470 M-1). The results suggest that calcium bound to sarcolemmal phospholipids represents the superficial calcium involved in excitation-contraction coupling in the heart.
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PMID:Calcium binding to cardiac myocytes protected from proteolytic enzyme activity. 398 17

We have characterized a membrane-bound phosphatidylcholine (PC) specific phospholipase C (PC-PLC) in plasma membranes from rat cardiac muscle, and have investigated the role of PC-PLC and PC-specific phospholipase D (PC-PLD) activities in the mechanism of action of atrial natriuretic factor (ANF). In purified sarcolemma, ANF stimulated over a wide range of concentrations with a maximum at 10(-11) M the hydrolysis of phosphatidylcholine through PC-PLD giving phosphatidate and choline, whereas higher concentrations of ANF (10(-10) M) preferentially stimulated PC breakdown through PC-PLC to form diacylglycerol and phosphocholine. To confirm the involvement of the PC-PLD in the mechanism of ANF action, we measured the transphosphatidylation reaction, a specific assay for this phospholipase which in the presence of ethanol catalyses the phosphatidylethanol formation from PC. ANF stimulated phosphatidylethanol formation with the same dose-response behavior as phosphatidate formation. The significant diacylglycerol increase at 10(-10) M ANF, in the presence of propranolol, a potent inhibitor of phosphatidate phosphatase which can hydrolyse phosphatidate to give diacylglycerol, suggested a direct involvement of PC-PLC. The use of GTP-gamma-S, a non hydrolysable analog of GTP, and of pertussis toxin showed the involvement of a pertussis toxin insensitive G protein in PC-PLC mediated ANF signal transduction. We suggest a differential effect of ANF on PC breakdown by phospholipases C and D depending on the concentration of the peptide.
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PMID:Selective activation by atrial natriuretic factor of phosphatidylcholine-specific phospholipase activities in purified heart muscle plasma membranes. 773 Oct 62

This study explored whether Staphylococcus aureus alpha-toxin can permeabilize the ventricular muscle and whether the treatment can leave cardiac membrane receptors, intracellular Ca2+ stores and the Ca2+ sensitivity of myofilament without damage. After alpha-toxin treatment, the trabeculae from guinea-pig ventricles developed tension at very low Ca2+ concentration ([Ca2+]) (approximately 0.6 microM) in high K+ solution. The trabeculae could contract transiently with 20 mM caffeine after incubating the muscle in a solution containing 0.5 microM [Ca2+]. Phenylephrine (20 microM) with or without GTP gamma S, a non-hydrolyzable analogue of GTP, in the incubating solution did not change the caffeine-induced tension transient. After loading intracellular Ca2+ stores with Ca2+, Ca2+ could be released from the stores by the [Ca2+] of 1.6 microM since the caffeine-induced tension transient was smaller than without Ca2+ releasing protocol. Phenylephrine with or without 100 microM GTP in the releasing solution did not modify the caffeine-induced tension transient. When the muscle was bathed in 1.6 microM Ca2+ solution containing 5 mM EGTA, the developed tension was maintained stably for more than 2 h. Phenylephrine with or without GTP, GTP alone, or 20 microM inositol 1,4,5-trisphosphate (InsP3) did not change the maintained tension. The amplitude and the rate of spontaneous contractions, induced at the free [Ca2+] around 0.5 microM, were not modified by phenylephrine, with or without GTP, and InsP3. These results show that alpha-toxin is useful at least to permeabilize the cardiac muscle to ions and small molecules without damaging the internal membrane and contractile machinery.
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PMID:Contractility of alpha-toxin permeabilized ventricular muscle of guinea pig. 789 6

NAD:arginine ADP-ribosyltransferases catalyze the ADP-ribosylation of arginine residues in proteins. Coding region nucleic acid and deduced amino acid sequences of a human skeletal muscle ADP-ribosyltransferase cDNA were, respectively, 80.8% and 81.3% identical to those of the rabbit skeletal muscle transferase. A human transferase-specific cDNA probe detected major mRNA of 1.2 kb (mouse and rat), 3.0 kb (rabbit), 3.8 kb (monkey), and 5.7 kb (human) upon Northern analysis. Polyclonal anti-rabbit ADP-ribosyltransferase antibodies reacted with 36,000 M(r) proteins in partially purified transferase preparations from bovine, dog, and rabbit heart muscle and a 40,000 M(r) protein from human skeletal muscle. The human muscle ADP-ribosyltransferase cDNA, like the previously cloned rabbit muscle transferase, predicts predominantly hydrophobic amino- and carboxy-terminal amino acid sequences, which is characteristic of glycosylphosphatidylinositol (GPI)-anchored proteins. On immunoblots of partially purified rabbit and human skeletal muscle ADP-ribosyltransferases, anti-cross-reacting determinant antibodies detected at 36,000 and 40,000 M(r), respectively, phosphatidylinositol-specific, phospholipase C-sensitive, GPI-anchored proteins. These data are consistent with the conclusion that GPI-anchored skeletal and cardiac muscle ADP-ribosyltransferases are conserved across mammalian species.
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PMID:Immunological and structural conservation of mammalian skeletal muscle glycosylphosphatidylinositol-linked ADP-ribosyltransferases. 794 88

The release of arachidonic acid by phospholipases in response to cell surface receptor activation may be an important step in the initiation of inotropic events in cardiac muscle. Endothelin has been shown to activate phospholipase A2 and release arachidonic acid in isolated rat hearts. Endothelin also has a positive inotropic effect in cardiac muscle, suggesting that endothelin increases Ca2+ influx or the amount of Ca2+ released from the sarcoplasmic reticulum. We used suspensions of adult rat ventricular myocytes loaded with fura-2/AM to compare the effects of arachidonic acid and endothelin on Ca2+ transients evoked by extracellular ATP. We showed recently (Damron, D.S., and Bond, M. (1993) Circ. Res. 72, 376-386) that pretreatment of cardiac myocytes with arachidonic acid significantly potentiated the amplitude of the ATP-triggered Ca2+ transient. We now report that endothelin also enhances the ATP-triggered Ca2+ transient and that the effect of the combination of maximal doses of endothelin and arachidonic acid is additive. Neither endothelin nor arachidonic acid was found to affect the size of the sarcoplasmic reticulum Ca2+ store. The potentiating effects of both arachidonic acid and endothelin were sensitive to inhibitors of protein kinase C. Endothelin was also found to stimulate phospholipase C but not phospholipase A2. Application of arachidonic acid to individual cardiac muscle cells resulted in inhibition of the transient outward K+ current, whereas application of endothelin inhibited the delayed rectifier current. These effects of arachidonic acid and endothelin were additive, and both effects could be blocked by the protein kinase C inhibitor, staurosporine. Similarly, staurosporine inhibited endothelin-induced increases in isometric contractions in ventricular papillary muscle. We conclude that arachidonic acid and endothelin may be involved in the modulation of inotropic activity in cardiac muscle by means of protein kinase C-dependent inhibition of two distinct K+ channels. This would result in a prolongation of action potential duration and thus an increase in Ca2+ influx across the sarcolemma.
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PMID:Arachidonic acid and endothelin potentiate Ca2+ transients in rat cardiac myocytes via inhibition of distinct K+ channels. 826 73

Cobra snake venom cardiotoxins and bee venom melittin share a number of pharmacological properties in intact tissues including hemolysis, cytolysis, contractures of muscle, membrane depolarization and activation of tissue phospholipase C and, to a far lesser extent, an arachidonic acid-associated phospholipase A2. The toxins have also been demonstrated to open the Ca2+ release channel (ryanodine receptor) and alter the activity of the Ca(2+)+Mg(2+)-ATPase in isolated sarcoplasmic reticulum preparations derived from cardiac or skeletal muscle. However, a relationship of these actions in isolated organelles to contracture induction has not yet been established. The toxins also bind to and, in some cases, alter the function of a number of other proteins in disrupted tissues. The most difficult tasks in understanding the mechanism of action of these toxins have been dissociating the primary from secondary effects and distinguishing between effects that only occur in disrupted tissues and those that occur in intact tissue. The use of cardiotoxin and melittin fractions contaminated with trace ('undetectable') amounts of venom-derived phospholipases A2 has continued to be common practice, despite the problems associated with the synergism between the toxins and enzymes and the availability of methods to overcome this problem. With adequate precautions taken with regard to methodology and interpretation of results, the cobra venom cardiotoxins and bee venom melittin may prove to be useful probes of a number of cell processes, including lipid metabolism and Ca2+ regulation in skeletal and cardiac muscle.
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PMID:Possible mechanisms of action of cobra snake venom cardiotoxins and bee venom melittin. 834 68

It is well known that external load plays a critical role in determining cardiac muscle mass and its phenotype, but little is known as to how mechanical load is transduced into intracellular signals regulating gene expression. To address this question we analyzed the 'mechano-transcription' coupling process using an in vitro model of load-induced cardiac hypertrophy, in which a stretch of rat cardiac myocytes, grown on a deformable substrate, causes a rapid induction of immediate-early genes followed by growth (hypertrophic) response. We report here that cell stretch rapidly activates a plethora of second messenger pathways, including tyrosine kinases, p21ras, mitogen-activated protein (MAP) kinases, S6 kinases (pp90RSK), protein kinase C, phospholipase C, phospholipase D, and probably the phospholipase A2 and P450 pathways. In contrast, the cAMP pathway is not activated significantly by stretch. The signals generated by these second messengers appear to converge into activation of the p67SRF-p62TCF complex via the serum response element, causing induction of c-fos. The stretch response may involve an autocrine or paracrine mechanism, because stretch-conditioned medium, when transferred to non-stretched myocytes, mimicked the effect of stretch. These results indicate that mechanical load causes rapid activation of multiple second messenger systems, which may in turn initiate a cascade of hypertrophic response of cardiac myocytes.
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PMID:Mechanical stretch rapidly activates multiple signal transduction pathways in cardiac myocytes: potential involvement of an autocrine/paracrine mechanism. 838 10


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