EC:3.1.4.1 - FACTA Search

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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)

The particulate, cGMP- and cilostamide-inhibited "low Km" cAMP phosphodiesterase was purified greater than 100,000-fold in good yield (approximately 20%) from bovine omental fat by a procedure similar to that utilized for purification of an analogous enzyme from rat epididymal adipose tissue; ten-fold more enzyme protein (20-30 micrograms) could be prepared from bovine omentum (25 kg) than from rats (approximately 900 fat pads). Kinetic parameters (all similar to those for the rat enzyme) were: for cAMP, Km and Vmax = 0.3 microM and 2.5 mumol/min/mg, respectively; for cGMP, 0.8 microM and 1.6 mumol/min/mg. For inhibition of cAMP hydrolysis, IC50 values were: for cGMP = 0.6 microM and for OPC 3911, milrinone, CI 930, 0.1-2.0 microM. The purified enzyme, the activity of which eluted from Sephadex G-200 with Mr(app) = 110,000 and was associated with a single protein band during non-denaturing electrophoresis, exhibited on SDS-PAGE silverstained bands of 62 (probably a 61-63 doublet) and 77 kDa, perhaps due to proteolytic nicking. On Western blots, each of the polypeptides cross-reacted with a monoclonal antibody toward the bovine cardiac low Km cAMP and polyclonal rabbit antibody generated toward the purified bovine omental phosphodiesterase. Rabbit anti-phosphodiesterase IgG, which inhibited bovine and rat phosphodiesterase enzymatic activity, did not cross-react with purified bovine retina cGMP-binding or bovine cGMP-stimulated phosphodiesterase.
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PMID:Purification, properties and polyclonal antibodies for the particulate, low Km cAMP phosphodiesterase from bovine adipose tissue. 285 60

Insulin antagonized the lipolytic actions of epinephrine in rat epididymal adipocytes when the phosphodiesterase inhibitor, Ro 20-1724, was present. Adipocytes were depleted of functional cAMP by inhibiting adenylate cyclase with N6-phenylisopropyladenosine in the presence of adenosine deaminase such that Ro 20-1724 no longer stimulated lipolysis. The cAMP analogs 8-thioisopropyl-cAMP or 8-thiomethyl-cAMP, which are resistant to phosphodiesterase hydrolysis, were subsequently added to bypass adenylate cyclase and phosphodiesterase action. Under these conditions, insulin antagonized the lipolytic effects of these analogs, even in the presence of Ro 20-1724.
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PMID:The antilipolytic effect of insulin does not require adenylate cyclase or phosphodiesterase action. 298 Nov 81

In an attempt to determine the mechanism of insulin resistance in the presence of obesity, we examined effects of insulin on insulin-sensitive phosphodiesterase (PDE) in spontaneously diabetic KK mice. Isolated fat cells prepared from epididymal adipose tissue were incubated, with or without insulin, for 10 min. In the case of subcellular fractionation, only membrane-bound PDE was activated by insulin, as was noted in the case of rat fat cells. The specific activity was decreased in KK mice compared with control C57BL/6 mice. The dose-response curve, expressed as a percent of the maximal insulin effect, shifted to the right and the increase of ED50 indicated a decreased insulin sensitivity in the KK mice. The maximal insulin effect did not change, either when expressed as a percent of the basal enzyme activity or when expressed on a per cell basis. Specific binding of [125I]-insulin in fat cells increased in KK mice and curvilinear Scatchard plots showed an increase of the high-affinity sites. These data indicate that impairment of PDE activation in fat cells of KK mice relates to postreceptor defects and the uncoupling may result in a decreased sensitivity.
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PMID:Insulin resistance of fat cells from spontaneously diabetic KK mice. Analysis of insulin-sensitive phosphodiesterase. 299 83

Uncontrolled diabetes in man is associated with increased plasma and tissue levels of cAMP and decreased cAMP phosphodiesterase (PDE) activity. Spontaneously diabetic BB rats (SDR) were used in these experiments. Specific tissues (i.e. liver and epididymal fat) were studied without therapeutic insulin. Another group of normal animals were rendered diabetic by streptozotocin (STZ) and killed without benefit of insulin therapy. Calmodulin (CM), a small molecular weight protein essential for activation of specific cAMP PDE was assayed. STZ diabetes is associated with a decrease (58%) in CM biological activity and in immunoreactive CM in fat (69%) and liver (13%) tissues. Similarly, SDR rats and the nondiabetic genetic controls (NDR) demonstrate decreased CM bioactivity in fat (76% and 56%, respectively) and decreased CM immunoreactivity in liver (68% and 74%, respectively) compared to normal control rats. In addition, maximum velocity (Vmax) of the low Michaelis-Menten constant (Km) cAMP PDE is decreased in SDR animals, as compared to controls in both fat (42%) and liver (39%) tissues. Similar data are presented for NDR animals. STZ diabetes is also associated with a reduction in Vmax of the low Km cAMP PDE in both liver (70%) and fat (70%) tissues. These changes found in the NDR animals suggests that the diabetic defect may be under dual regulation: genetic and environmental.
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PMID:Spontaneous diabetic BB rat: studies of cyclic adenosine 3',5'-monophosphate phosphodiesterase and calmodulin. 301 47

Stabilization of cyclic adenosine 3',5'-monophosphate (cAMP)-phosphodiesterase (PDE) in 50% glycerol made possible the removal of endogenous inhibitors from tissue extracts by dialysis and the storage of the extracts at -20 degrees C without loss of PDE activity. Dialysates of heat-inactivated epididymal extracts were fractionated by liquid chromatography, and 4 fractions-F2, F5, F7, and F12-were found to contain endogenous inhibitors of PDE. The masses of the fractions required to inhibit low-Km PDE activity by ca. 50% in 430-microliter incubation mixtures were F2, 89 micrograms; F5, 23 micrograms; F7, 275 micrograms; and F12, 1.2 mg. The mechanisms of inhibition of low-Km PDE by the endogenous inhibitors were investigated by kinetic analysis of enzyme-inhibitor interaction. F2 and F12 inhibited PDE competitively; F5 and F7 decreased both apparent Km and Vmax, suggesting an uncompetitive mechanism of inhibition. The high potency of F5 in low concentration suggests that it may be a physiological modulator of low-Km cAMP-PDE activity.
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PMID:Endogenous inhibitors of cyclic adenosine 3',5'-monophosphate-phosphodiesterase in rat epididymis. 302 16

In the presence of 10-100 microM monensin (a monovalent cation ionophore), a considerable amount of 125I activity of iodoinsulin accumulated in isolated rat epididymal adipocytes during a 30-min incubation. The accumulation was secondary to the action of monensin to inhibit dissociation of a certain fraction of the cellbound 125I activity. This monensin effect was reversible. The accumulation of 125I activity was ATP dependent and so was the discharge of the accumulated radioactivity. Approximately 91% of the accumulated radio-activity was precipitable with trichloroacetic acid, and at least 84% was reactive to anti-insulin antibody. Monensin at 100 microM appeared to have only mild effects on the cellular activities of glucose transport and cAMP phosphodiesterase. Nevertheless, when cells were first exposed to 10 nM insulin in the presence of 100 microM monensin and then transferred into a hormone-free buffer that contained monensin, the phosphodiesterase activity in cells remained partially activated as if cells were kept exposed to approximately 0.5 nM insulin. Under similar conditions, glucose transport activity remained partially activated as if cells were incubated with approximately 70 pM insulin. Monensin did not inhibit the reversal of the insulin effect per se. Like monensin, 20-100 microM chloroquine (a lysosomotropic inhibitor) induced a considerable accumulation of [125I] iodoinsulin. However, cells that had been exposed to insulin in the presence of chloroquine retained little hormonal effect after washing. Based on these observations and on the reported biological effects of monensin, it is suggested (a) that monensin may induce intracellular accumulation of the insulin-receptor complex by blocking the acidification of endocytic vesicles and (b) that the accumulated insulin-receptor complex may retain a weak, but significant, capacity to stimulate both glucose transport and phosphodiesterase activities.
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PMID:Effects of monensin on insulin processing in adipocytes. Evidence that the internalized insulin-receptor complex has some physiological activities. 388 3

1. The rise in clearing-factor lipase activity that occurs when epididymal fat bodies from starved rats are incubated in appropriate media in vitro is inhibited in the presence of 6-N-2'-O-dibutyryl-3',5'-(cyclic)-AMP (1mm). 2. Inhibition occurs at a concentration of glucose in the incubation medium of 1.3mg./ml. or less, but not at a glucose concentration of 2.4mg./ml., unless caffeine (1mm), an inhibitor of 3',5'-(cyclic)-nucleotide phosphodiesterase, is also present. Caffeine (5mm) alone inhibits the rise in clearing-factor lipase activity at a glucose concentration of 2.4mg./ml. of medium. 3. The concentration of free fatty acids in the epididymal fat bodies normally falls during incubations in vitro as the rise in clearing-factor lipase activity occurs. In the presence of 1mm-6-N-2'-O-dibutyryl-3',5'-(cyclic)-AMP, however, either the tissue free fatty acid concentration is increased or it does not fall to the same extent. The concentration of glucose in the incubation medium is important in determining the direction and extent of the changes in tissue free fatty acid concentration that occur in the presence of 6-N-2'-O-dibutyryl-3',5'-(cyclic)-AMP. 4. Free fatty acid concentrations in epididymal fat bodies in vivo rise as the clearing-factor lipase activity of the tissue falls during starvation. 5. The possibility that the concentration of 3',5'-(cyclic)-AMP in adipose tissue may regulate clearing-factor lipase activity, and that the regulation may occur through effects of the nucleotide on tissue free fatty acid concentrations, is discussed.
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PMID:Clearing-factor lipase in adipose tissue. A possible role of adenosine 3',5'-(cyclic)-monophosphate in the regulation of its activity. 430 48

1. 3':5'-Cyclic nucleotide phosphodiesterase activity was measured in homogenates prepared from epididymal fat-pads and isolated fat-cells incubated in the absence and presence of insulin. 2. Homogenates of insulin-treated tissues showed an increase in phosphodiesterase activity compared with controls. No effect of insulin was observed when the hormone was added directly to homogenates. 3. There was kinetic evidence for the presence of two 3':5'-cyclic nucleotide phosphodiesterases in adipose tissue. Insulin raised the maximal velocity of the low-K(m) enzyme and lowered the K(m) of the higher-K(m) enzyme. 4. It is suggested that the effect of insulin on adipose tissue phosphodiesterase accounts for the ability of this hormone to lower cyclic-AMP concentration in the tissue.
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PMID:An effect of insulin on adipose-tissue adenosine 3':5'-cyclic monophosphate phosphodiesterase. 432 31

Effects of divalent cations on the regulation of glucose transport and cAMP phosphodiesterase in isolated rat epididymal adipocytes were studied. EDTA (5 mM) moderately inhibited the binding of insulin to adipocytes in Krebs-Henseleit Hepes buffer. In the same buffer, A-23187 (an ionophore specific for divalent cations; 50 microM) plus EDTA (5 mM) almost completely blocked the insulin- or hydrogen peroxide-dependent stimulation of phosphodiesterase. This inhibition was not secondary to the loss of ATP. When cells that had been treated with A-23187 plus EDTA were washed and then exposed to 1-10 mM of divalent cations, the cellular phosphodiesterase activity was elevated. Mn2+ was most stimulatory, Mg2+ was next, and Ca2+ was least effective. The stimulatory effects were enhanced by insulin. In the presence of insulin, Mn2+ at 10 mM was less stimulatory than that at 1 mM. In regular Krebs-Henseleit Hepes buffer, Mn2+ greatly stimulated phosphodiesterase if cells were first exposed to A-23187. The Mn2+-dependent stimulation was blocked by treatment of cells with 2,4-dinitrophenol. Results essentially parallel to those described above were also obtained when the rate of glucose transport was determined. The above results indicate that divalent cations mildly support the extracellular binding of insulin to its receptor, facilitate the physiological actions of insulin, and mimic the hormone actions, presumably by stimulating an intracellular enzyme.
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PMID:Effects of divalent cations on the regulation of insulin-sensitive glucose transport and cAMP phosphodiesterase in adipocytes. Insulin-like effects of divalent cations. 608 37

The activities of several pivotal nucleotide metabolizing enzymes from the testis and vasal sperm of rats treated for 7 wk with 0, 20 or 30 mg X kg X day gossypol acetic acid were examined. Total testicular lactate dehydrogenase (LDH) activity increased 40% above control in the highest treatment group examined. However, the specific activity of the testis-specific isozyme of LDH, LDH-C4, decreased to 50 and 20% of control in the 20 and 30 mg X kg X day treatment groups, respectively. Basal soluble adenylate cyclase from a 100,000 X g supernatant of testis homogenate exhibited a 25% decrease in activity only in the 30-mg treatment group. Basal adenylate cyclase activity in the testicular membrane fraction increased 20 to 30% above control in response to gossypol administration. Testis membranes from the 20- and 30-mg treatment group exhibited a 2- and 4-fold greater activation of adenylate cyclase by guanine nucleotides. In vitro dose-response curves showed a half-maximal inhibitory concentration (IC50) for inhibition of soluble testicular adenylate cyclase by gossypol of 400 microM in each treatment group. Caudal epididymal sperm adenylate cyclase activity decreased to 25% of control levels in gossypol-treated animals, and the in vitro sensitivity of the enzyme to the inhibitory effects of gossypol increased 4-fold. IC50 values for gossypol inhibition of sperm adenylate cyclase decreased from 200 microM in control animals to 75 and 50 microM in the 20 and 30 mg X kg X day treatment groups, respectively. Cyclic adenosine 3':5' monophosphate phosphodiesterase activity in caudal sperm increased 6-fold in the 20- and 30-mg treatment groups. These results demonstrate that nucleotide metabolizing enzymes in sperm are major targets for the actions of gossypol and provide a possible mechanism for the inhibition of normal sperm function by this compound.
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PMID:Gossypol modulation of nucleotide metabolizing enzymes in the reproductive tract of male rats. 609 38

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