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:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Testicular and cauda epididymal sperm were obtained via catheters previously implanted in the rete testis and proximal vas deferens of bulls and were used to examine the relationships among sperm motility, cyclic adenosine 3':5'-monophosphate (cAMP) level, adenine nucleotide levels, and rates of glucose and oxygen consumption. Testicular, cauda epididymal, and ejaculated sperm contain cAMP-stimulated protein kinase, adenylate cyclase, and nucleotide phosphodiesterase. Treatment of the nonmotile testicular sperm with phosphodiesterase inhibitors resulted in a doubling of cellular cAMP concentration and a 25% increase in their glucose consumption. No change in motility, ATP level, or rate of oxygen consumption was observed. Sperm in neat cauda epididymal semen had flagellating tails but no progressive motility. Dilution of these sperm into glucose-containing buffer resulted in an increase in intracellular cAMP concentration and a decrease in ATP level with concomitant increases in ADP and AMP levels. These biochemical changes occurred within 30 s after dilution and apparently preceded the initiation of progressive motility by most cells. Since sperm in neat cauda epididymal semen became progressively motile when diluted with neat cauda epididymal plasma as well as accessory sex gland fluid or buffer, composition of the fluid surrounding the sperm is not responsible for the initiation of progressive motility upon dilution nor does cauda epididymal plasma contain an inhibitory factor. Perhaps release from contact immobilization provides the stimulation for the initial acquisition of progressive motility by cauda epididymal sperm. We conclude that during epididymal passage sperm develop from a cell physically unresponsive to changes in cAMP concentration to a form which initiates progressive motility upon changes in cAMP concentration.
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PMID:Adenine nucleotide changes at initiation of bull sperm motility. 17 61

Guanosine 3':5'-monophosphate (cyclic GMP)-dependent protein kinase was purified from the guinea pig fetal lung, a tissue shown to be the richest in this enzyme in all mammalian sources examined, and its general properties studied. The enzyme was purified 150-fold from crude extract by steps of pH 5.4 isoelectric precipitation, Sephadex G-200 filtration, hydroxylapatite treatment and DEAE-cellulose chromatography. The purified enzyme, free from contamination with adenosine 3':5'-monophosphate (cyclic AMP)-dependent protein kinase, had a specific activity at least equivalent to 600-fold purification of the enzyme from the adult lung. The pulmonary enzyme exhibited an absolute requirement of protein kinase modulator (prepared from various mammalian tissues with an exception of skeletal muscle) for its activity. Inhibitor protein of cyclic AMP-dependent protein kinase purified from rabbit skeletal muscle could not stimulate nor inhibit the cyclic GMP target enzyme, indicating the factors from mammalian sources regulating the two classes of protein kinases may not be the same. The enzyme had Ka values of 1.3 times 10(-8) and 3.3 times 10(-8) M for 8-bromo cyclic GMP and cyclic GMP, respectively, compared to 3.0 times 10(-6) M for cyclic AMP. Cyclic GMP lowered the Km of the enzyme for ATP from 6.3 times 10(-5) M in its absence to 2.1 times 10(-5) M in its presence, accompanied by an approximate doubling of the Vmax. The molecular weight of the enzyme (assayed by its catalytic and cyclic GMP-binding abilities) was estimated to be 123,000, corresponding to a sedimendation coefficient of 7.06 S, by means of sucrose density gradient ultracentrifugation. The cyclic GMP-dependent enzyme required Mg2+ and Co2+ for its activity with optimal concentrations of about 30 and 0.7 mM, respectively. The maximal activity seen in the presence of Mg2+, however, was nearly twice as high as that seen in the presence of Co2+. Histones were generally effective substrates for the enzyme, whereas protamine, casein, phosvitin, phosphorylase kinase, and activator protein of phosphodiesterase were not. The cyclic GMP-dependent enzyme exhibited a greater affinity for histones than did the cyclic AMP-dependent enzyme in the presence of Mg2+.
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PMID:Purification and general properties of guanosine 3':5'-monophosphate-dependent protein kinase from guinea pig fetal lung. 17 61

Hormone-induced desensitization of hormonal regulation of cyclic AMP (cAMP) content has been described in a number of tissues. In the present study, we examined responses of rat liver to glucagon after periods of sustained exposure to the hormone in vivo and in vitro. In intact anesthetized rats infused with glucagon (50 ng/min) for 1 h or more and in liver slices incubated with the hormone (10 muM) for this period, hepatic cAMP responsiveness to glucagon was significantly blunted compared with that of tissue exposed to the hormone for shorter periods. The reduction in hepatic cAMP responsiveness to glucagon appeared to be fully expressed by 2 h. With the doses of hormone employed, the sequential alterations in hepatic responsiveness seemed to be limited to the cAMP system, since other parameters of glucagon action did not wane with time. Diminished hepatic cAMP responsiveness during sustained hormonal exposure could not be attributed to decreased glucagon availability, accelerated extracellular release of cAMP, hepatic ATP depletion, or enhanced phosphodiesterase activity. Studies in vitro suggested that modulation of the cAMP response occurred at the level of adenylate cyclase (AC). During sustained exposure of hepatic slices to glucagon, reductions in glucagon-responsive AC correlated temporally with those in cAMP and both changes were reversible. Alterations in glucagon-responsive AC were demonstrated over a wide range of ATP (10 muM-0.1 mM) and glucagon (10 nM-5 MM) concentrations in the cyclase reaction mixture, and appeared to be a noncompetitive phenomenon relative to glucagon. Maximal NaF-responsive AC did not fall concomitantly with time. Thus, the reduction in glucagon-responsive AC was probably not related to a reduction in the catalytic unit of the enzyme, but could have been due to an alteration in glucagon binding to its receptor sites, or in the coupling mechanism involved in transmission of the hormonal signal to the catalytic unit.
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PMID:Reduced sensitivity of the hepatic adenylate cyclase-cyclic AMP system to glucagon during sustained hormonal stimulation. 17 80

Protein kinase, phosphodiesterase and adenylate cyclase of plasma membrane of adipocytes and the effect of the feedback regulator (FR) on these three enzymes was measured and compared. The basal level ratio of adenylate cyclase to phosphodiesterase to protein kinase was 1:1.9:3.0. Epinephrine and/or FR alters this ratio. FR stimulated protein kinase activity up to 3 fold in the presence of a wide range of enzyme concentrations, 5-50 mug membrane protein/tube. The concentration of FR effective for stimulation of membrane protein kinase was much greater than that needed for inhibition of adenylate cyclase and phosphodiesterases. The inhibition by FR on adenylate cyclase was the most potent effect among the 3 enzymes. 1 U (or 2 U/ml) of FR inhibited 50% of the adenylate cyclase activity in a defined system. The maximum effective concentration of FR for stimulation of membrane protein kinase was greater than 10 U/ml. Histone type 11A was the best substrate for protein phosphorylation so far observed. The FR stimulatory effect was observed at all substrate concentrations used ranging from 1-5 mg/ml. A NaF concentration curve shows that 15 mM NaF gave maximum phosphorylation. The stimulatory effect of FR was observed both in the presence and absence of NaF. Protein kinase of adipocyte plasma membrane was mainly cAMP-independent. The effect of FR (20 U/ml) in stimulation of protein phosphorylation was much greater than that of cAMP (1 X 10(-6) M). The cAMP and FR effects seemed to be additive. Preincubation of plasma membrane with FR in the absence of ATP resulted in no decrease but slight increase in protein kinase activity. A shift in protein kinase, phosphodiesterase and adenylate cyclase ratios by FR suggests the regulatory role of FR in cAMP metabolism in adipocytes.
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PMID:Influence on adipocyte plasma membrane bound protein kinase by feedback regulator. 17 96

A modification of Aurbach & Houston's enzymic method for measuring cAMP is presented. The procedure is relatively simple and in several respects new. Urinary cAMP is separated from other nucleotides and phosphate by ZnSO4-Ba(OH)2 precipitation and column chromatography. The eluate is concentrated by evaporation. Recovery at this stage is 60-82%. The cAMP from urine and the standards are dissolved in a reaction mixture and converted to 5-AMP with cyclic 3',5'-nucleotide phosphodiesterase (PDE) and further to ATP with adenylate kinase and pyruvate kinase. The ATP formed is labelled with 32P by an exchange reaction catalysed by glyceraldehyde phosphate dehydrogenase and phosphoglycerate kinase. The remaining 32P used to count the [32P]ATP in the aqueous phase. Daily human urinary cAMP excretion is 3380 +/- 836 nmol (S.D.). After an injection of 100 USP units of parathormone intravenously into a patient with idiopathic hypoparathyroidism, urinary cAMP excretion increased 40-fold above the basal concentration within 30 min. Drinking of coffee or water did not affect cAMP excretion. The limit of detection of the method is 170 pmol of cAMP, and the variation coefficient for urine ranges from 7 to 10%. When the enzymic cAMP method was compared with a radioimmunological procedure, the correlation coefficient was found to be 0.98.
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PMID:Determination of cyclic adenosine 3',5'-monophosphate in urine. 17 27

Subcellular fractions were obtained from aortas and ventricles of 6-month-old spontaneously hypertensive and normotensive Wistar rats by the use of differential and sucrose density gradient centrifugation. These preparations were studied to determine what alterations in calcium accumulation and enzymatic activities might be associated with hypertension. The total amount of calcium accumulation (in the presence of ATP and 17 muM free calcium) by the plasma membrane-enriched fraction from hypertensive rat aortas significantly less than that from normotensive rats (11.3 +/- 0.4 vs 16.2 +/- 1.6 mumol of calcium/g of protein, n = 8). In contrast the specific activities of the plasma membrane marker enzymes, 5'-nucleotidase and phosphodiesterase I, were 80% and 40% greater, respectively, in the hypertensive than in the normotensive fractions. On the other hand, various fractions from ventricles of the two types of rats were generally similar in enzyme activities and calcium accumulation. The decreased rate of relaxation of aortas from spontaneously hypertensive rats may be caused by the decreased rate of calcium transport demonstrated in this study.
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PMID:Calcium accumulation and enzymatic activities of subcellular fractions from aortas and ventricles of genetically hypertensive rats. 17 22

Adenosine rapidly stimulated adenylate cyclase activity but did not modify cyclic AMP degradation when added to a particulate fraction prepared from isolated bone cells. The effect of adenosine was one-half maximal at 5-10 micronM, and was not mimicked by 5' AMP, inosine, guanosine, uridine, adenine, or ribose. Basal and adenosine-stimulated adenylate cyclase activites were directly proportional to the concentration of particulate protein in the assay system. Theophylline decreased the degree to which adenosine stimulated adenylate cyclase activity, whereas another phosphodiesterase inhibitor, RO-20-1724, failed to iiinfluence the effect of adenosine. Adenosine itself, and not a metabolite of adenosine is the stimulator of adenylate cyclase, since it was neither phosphorylated nor deaminated appreciably by the particulate fraction. The particulate fraction did not convert substrate ATP to adenosine in amounts sufficient to enhance adenylate cyclase. The stimulatory effect of adenosine was maximal at 1.2 mM Mg2+, declined with increases in the Mg2+ concentration, and was replaced by inhibition at 20 mM Mg2+. At 2.4 mM Mg2+, basal adenylate cyclase activity peaked at 1.1 mM ATP, and was inhibited by higher ATP concentrations. The magnitude of adenosine stimulation was greater at inhibitory concentrations of ATP than at concentrations which yielded maximum activity. The results suggest that the previously demonstrated ability of adenosine to increase cyclic 3'5' AMP levels in intact bone cells stems from its effect on adenylate cyclase. Adenosine may act by modifying the regulatory nfluence of free Mg2+, uncomplexed ATP, (or both), on adenylate cyclase. Theophylline appears to interfere with the action of adenosine by a mechanism which is distinct from its capacity to inhibit cyclic AMP phosphodiesterase activity. (Endocrinology 99:901,1976)
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PMID:Adenosine-mediated stimulation of bone cell adenylate cyclase activity. 18 72

Control of the levels of cAMP in the early phase after addition of catecholamines and the effect of insulin is discussed under consideration of own findings from experiments with isolated fat cells of the rat. Data on the kinetics of cAMP are interpreted in the light of results from several groups of a rapid activation of phosphodiesterase activity along with the adenylate cyclase system. Comparison of energy metabolism of fat cells with the formation of cAMP under conditions of near-maximal activation of the adenylate cyclase system by isoproterenol shows that about half of the cellular ATP turnover is used for information transfer. Insulin reduces cAMP concentrations in the presence of isoproterenol within one min of incubation when added either together with or after the catecholamine. Experiments with propranolol and the phosphodiesterase inhibitor, methyl isobutylxanthine suggest an effect of insulin on formation and breakdown of cAMP.
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PMID:Hormonal control of cyclic AMP turnover in isolated fat cells. 18 81

When glucagon release from monolayer cultures of newborn rat pancreas was measured over four hours in media containing 2.5 mM Ca++, a significant cyclic AMP-related inhibition of release was observed. This was noted whether intracellular cyclic AMP levels were raised by the addition of exogenous cyclic AMP or dibutyryl cyclic AMP, by phosphodiesterase inhibition with theophylline, or by the stimulation of adenylate cyclase with cholera toxin. The inhibition was concentration dependent for cyclic AMP and could not be reproduced by the addition of AMP, ADP or ATP. Adenosine also inhibited glucagon release while ATP was stimulatory. From time course studies it appeared that the inhibitory effects of cyclic AMP and cholera toxin were progressive after two hours of incubation. With cholera toxin an early stimulation of glucagon release was observed. The effects of cyclic AMP and cholera toxin on arginine-stimulated glucagon release were to stimulate further the glucagon release during the first hour of the incubation. Thus, the effects of raising intracellular cyclic AMP levels were biphasic in that both an early stimulation and a late inhibition of glucagon release were observed. In examining the nature of these responses a remarkable controlling role for Ca++ was uncovered: at Ca concentrations of 0.3 mM and lower no effect of cyclic AMP on glucagon release was found. With 1 mM Ca++ in the medium cyclic AMP stimulated glucagon release early (30 min) and thereafter had no further effect. In the presence of 2.5 mM Ca++ cyclic AMP did not stimulate early but did cause the delayed inhibition of release. It is concluded that the effect of cyclic AMP on glucagon release can be either stimulatory or inhibitory depending upon the Ca++ concentration of the medium and the duration of exposure to raised cyclic AMP levels.
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PMID:Stimulatory and inhibitory effects of cyclic AMP on pancreatic glucagon release from monolayer cultures and the controlling role of calcium. 18 8

The purpose of this study was to try to differentiate histochemically between the various enzymes which may catalyze the hydrolysis of ATP in developing rat dental tissues. Freeze cut and freeze dried sections of molar and incisor teeth were incubated in lead capture-based media at pH 5.0, 7.2 or 9.4 with one of the following substrates: beta-glycerophosphate, AMP, ADP, ATP, AMP-PNP and tetrasodium pyrophosphate. To establish the enzymatic nature of the hydrolysis parallel sections were incubated after prior fixation in either formaldehyde or glutaraldehyde. By comparing the enzymatic stainings obtained with the various substrates and at the different pH:s, it was concluded that ATP can be visibly hydrolyzed in rat dental tissues by alkaline phosphatase (stratum intermedium, apical part of maturation ameloblasts, basal part of all ameloblasts, odontoblasts and subodontoblastic layer), specific ATPase (apical and basal parts of secretory ameloblasts) and ATP pyrophosphatase and/or adenylate cyclase (stratum intermedium, odontoblasts). Acid phosphatase, specific ADPase, 5'-nucleotidase, inorganic pyrophosphatase, 3':5'-cyclic-AMP-phosphodiesterase and adenylate kinase on the other hand, seem not to be engaged in the ATP hydrolysis to such a degree as to complicate the interpretation of the histochemical staining. The alkaline phosphatase part of the ATP hydrolysis appeared to be rather insensitive to aldehyde fixation, while the hydrolysis effected by specific ATPase and ATP pyrophosphatase and/or adenylate cyclase was extinguished after fixation with formaldehyde for 4 h or glutaraldehyde for 10 min.
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PMID:Adenosine triphosphate hydrolysis in rat dental tissues. A histochemical study to differentiate the enzymes involved. 18 60


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