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:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adipocytes were prepared by collagenase digestion of rat epididymal adipose tissue and incubated for 5, 15 or 30 minutes in Krebs-Ringer bicarbonate buffer containing albumin (40 mg/ml), glucose (1 mg/ml) and epinephrine. Calcium ion was present in some incubations at concentration of 2.5 mM and omitted from others; media with no added calcium contained 1.0 mM EGTA thereby producing a final calcium concentration of less than 10(-7) M. Glycerol release and accumulation of cyclic AMP were measured. Basal lipolysis and cell cyclic AMP levels were increased slightly but not significantly when adipocytes were incubated in calcium free media. Lipolysis could be activated with epinephrine in the absence of calcium but the sensitivity of the lipolytic response was greatly reduced; however, the maximum lipolytic response to epinephrine was not decreased in calcium free media. Similarly, incubation of adipocytes in calcium free media resulted in decreased accumulation of cyclic AMP in response to epinephrine but only when sub-maximum concentrations of the catecholamine were present. Varying the extracellular calcium concentration showed that a concentration of at least 10(-5) M was optimal for epinephrine activation of lipolysis. These observations are considered in accord with the view that activation of adenylate cyclase is facilitated by calcium ion.
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PMID:The role of calcium ion in epinephrine activation of lipolysis. 18 5

In a first series of experiments, the effects of uridine and inosine on glucose metabolism in rat diaphragm muscle incubated in Krebs-bicarbonate buffer were studied. Uridine in concentrations of 10(-4) to 10(-6) M stimulated the uptake of glucose and increased the content of glycogen, but had no effect on the production of lactate. When diaphragm muscles were incubated in the buffer without glucose, uridine (10(-4)-10(-6) M) had no effects on the content of glycogen and on the production of lactate. On the other hand, inosine in concentrations of 10(-4) to 10(-6) M stimulated the uptake of glucose and the production of lactate, but had no effect on the content of glycogen in the muscle. In a second series of experiments, uridine (10(-4)-10(-5) M) and inosine (10(-4)-10(-7) M) inhibited the relase of glycerol from isolated rat epididymal adipose tissue in Krebs-bicarbonate buffer. Uridine and inosine in concentrations of 10(-4) M inhibited the epinephrine (10(-5) M)-, the norepinephrine (10(-5) M)- and the theophylline (10(-3) M)-stimulated lipolysis. Dibutyryl 3',5'-adenosine monophosphate-stimulated lipolysis was further activated in the presence of 10(-4) M uridine or inosine. Dose-response curves studies suggested that inosine, but not uridine, has a common receptor site with epinephrine in adipose tissue. These results demonstrated that both nucleosides stimulated the glucose uptake, but only uridine increased the synthesis of glycogen in the muscle. Both nucleosides also inhibited lipolysis in adipose tissue. The mechanism of antilipolytic action of these nucleosides is unknown, but one of the receptor sites for inosine might be adenylate cyclase.
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PMID:Effects of uridine and inosine on glucose metabolism in skeletal muscle and activated lipolysis in adipose tissue. 18 86

Glycerol release from epididymal fat fragments of young adult (3-month old) ob/ob mice was three times lower than normal, on a tissue weight basis. Dose-response curves in response to isoproterenol and ACTH-(1--24) indicated that the capacity of the lipolytic process was reduced. However, the sensitivity to both hormones was normal, i.e. greater for ACTH than for isoproterenol. The burst of cyclic AMP observed at 7 minutes was affected even more than the lipolytic capacity in adipose tissue from obese mice. This was already observed in 1-month old animals, i.e. at a time when total body weight was still normal. It is concluded that the adenylate cyclase system is defective in adipose tissue of ob/ob mice. Besides, glucagon, vasoactive intestinal polypeptide, and secretin failed to stimulate glycerol release and cyclic AMP accumulation in both ob/ob, ob+/ob+, and HA-ICR mice, suggesting that mouse adipose tissue does not possess receptors for this group of hormones.
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PMID:Lipolysis and cyclic AMP levels in epididymal adipose tissue of obese-hyperglycaemic mice. 20 30

The activity of the lipolytic system of the obese hyperglycemic mouse was assessed after treatment with physiological doses of thyroxin (T4). The treatment significantly increased fatty acid mobilization in response to adrenaline over the levels observed in the control mice under all conditions studied. The activities of the high- and low-Km phosphodiesterases and of adenylate cyclase were also studied. Treatment of the ob/ob mice with T4 had little effect on the activities of the cyclic AMP phosphodiesterases (high and low Km) but it partially restored the activity of adenylate cyclase, which is deficient in these animals. A correlation was found in the T4-treated obese animals between the ability of the epididymal adipose tissue to mobilize fatty acids, its ability to increase the intracellular levels of cyclic AMP, and the activity of adenylate cyclase in response to adrenaline stimulation.
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PMID:Increased response of adipose tissue of the ob/ob mouse to the action of adrenaline after treatment with thyroxin. 20 80

Cyclic AMP metabolism in epididymal adipose tissue of exercise-trained rats was examined to determine if training induced changes in cyclic AMP production or inactivation. Beginning at 7 weeks of age, male rats were physically trained by 12 weeks of treadmill running. Pair-fed control rats remained sedentary in their cages for the duration of the experiment. Tissue levels of cyclic AMP were measured in epididymal adipose tissue slices incubated with norepinephrine. Adenyl cyclase was assayed in adipocyte ghost cell prepartions and low-Km phosphodiesterase was assayed in homogenates of adipose tissue. In response to norepinephrine stimulation, tissue cyclic AMP levels were reduced in trained compared to untrained rats. Training increased the ratio of activity of phosphodiesterase relative to adenyl cyclase. The results of this study indicate that cyclic AMP production in response to norepinephrine stimulation is not increased by training and may even be reduced, implying that adipose tissue cyclic AMP levels may be under a greater degree of control in trained rats. Modulation of adipose tissue cyclic AMP levels may function to regulate more closely the duration of lipolysis in exercise-trained rats.
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PMID:Cyclic AMP metabolism in adipose tissue of exercise-trained rats. 21 Nov 72

A distinctive Mn-2+-sensitive adenylate cyclase [ATP pyrophosphate-lyase(cyclizing), EC 4.6.1.1] system insensitive to fluoride has been found in rat seminiferous tubules and epididymal sperm. The development of this distinctive adenylate cyclase in testis was studied during spermatogenesis. It was first detectable in seminiferous tubules in immature rats at about the time of the first reductive divisions and the appearance of spermatid cells. The specific activity of the enzyme increased substantially during the period of spermatogenesis when spermatids develop into mature spermatozoa, and reached maximal values in the testis of adult rats. After centrifugation of testis tissue homogenates at 105,000 X g for 60 min, the Mn-2+-sensitive adenylate cyclase activity was found in the cytosol. The enzyme remains in solution after centrifugation at 300,000 X g for 5 hr or at 180,000 X g for 24 hr and passes through a 0.22 mum Millipore filter. Electron microscopic examination showed no visible membrane fragments or vesicles in the filtered supernatant. The Mn-2+-sensitive adenylate cyclase system is also present in epidiymal sperm. However, in the sperm obtained from either the caput or the cauda of epididymis, the adenylate cyclase is membrane-associated and found in particulate fractions of sperm homogenates. It therefore appears that the Mn-2+-sensitive adenylate cyclase is initially present in the cytoplasm either unattached or loosely bound to intracellular membranes and becomes firmly attached to sperm membranes later in development. This occurs either during the process of maturation of spermatids into sperm or during the transport of the testicular sperm into the epididymis.
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PMID:Development of a Mn-2+-sensitive, "soluble" adenylate cyclase in rat testis. 105 68

Cytosol prepared from rat epididymal fat cells by centrifugation at 100,000 X g for 1 hr was found to enhance the basal and epinephrine-sensitive adenylate cyclase [EC 4.6.1.1; ATP pyrophosphate-lyase (cyclizing)] of fat cell ghosts. Cholera toxin also stimulated adenylate cyclase and increased the response to epinephrine in fat cells. A possible relationship between the adenylate cyclase modifying activities of cytosol and the effects of cholera toxin was sought. Cytosol from freshly prepared fat cells added to ghosts prepared from cells that had been exposed to toxin for varying periods showed a progressive loss of responsiveness to cytosol epinephrine-enhancing activity. The effect appeared within 15 min after toxin exposure, a full 30 min before any direct effect of toxin on adenylate cyclase was seen. Since exposure to toxin decreased membrane response to cytosol epinephrine-enhancing activity, the possibility that epinephrine-enhancing activity in cytosol might be altered by toxin was explored. Cytosol from cells exposed to toxin for varying periods lost epinephrine-enhancing activity to an appreciable degree within 15 min. Examination of these early events after exposure to toxin should clarify the way in which this bacterial substance affects mammalian cells. The cytosol epinephrine-enhancing activity was destroyed by boiling for 3 min and was partially inactivated by trypsin. It was nondialyzable and stable at -70 degrees.
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PMID:Stimulation of epinephrine-sensitive fat cell adenylate cyclase by cytosol: effect of cholera toxin. 105 43

Lysine vasopressin did not increase plasma FFAs level in man and in rat Pitressin and lysine vasopressin did not influence adenyl cyclase activity in rat epididymal fat pad, while ornithine vasopressin induced a statistically significant adenyl cyclase increment. These findings suggest that the adipokinetic acticity of ADH which has been correlated only with the amino acid arginine is also correlated with ornithine.
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PMID:Antidiuretic hormone and lipolysis. 114 94

Vibrio cholerae enterotoxin stimulates lipolysis in rat epididymal fat cell suspensions. Like hormones this toxin increases adenylate cyclase activity, raising levels of cyclic adenosine 3',5'-monophosphate (cAMP), which activates a cellular lipase. Using specific blocking agents, we studied the responses to the adrenergic lipolytic hormones epinephrine, norepinephrine, and isoproterenol, and to cholera toxin. All stimulators were used at 100 x threshold dose. Propranolol (34 muM), a beta blocking agent, inhibited epinephrine stimulation (P less than 0.001) but not that of toxin (P greater than 0.2). Choleragenoid (25 mug/ml), a natural toxoid of cholera toxin, blocked stimulation by toxin (P less than 0.001) but not that of the adrenergic agents (P greater than 0.2). A beta blocker, practolol (3 mM), inhibited stimulation by the catecholamines tested (P less than 0.005) but not that of toxin (P greater than 0.05). Higher concentrations of propranolol (340 muM) and the alpha blocking agents phenoxybenzamine (3 mM) and phentolamine (1.6 mM) inhibited all agonists (P less than 0.001). The response to theophylline was inhibited by all blockers (P less than 0.05) except propranolol at the lower concentration (34 muM). A combined beta and alpha blockade using propranolol and epinephrine together did not inhibit toxin-mediated lipolysis. It appears that stimulation by cholera toxin is independent of beta adrenergic receptors. A major inhibition of theophylline-mediated lipolysis by alpha blocking drugs indicated a nonspecific effect of these agents at the concentrations used. The uninhibited response to toxin in the presence of propranolol and epinephrine suggests a lack of relationship of the toxin receptor to either alpha or beta receptors.
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PMID:Selective inhibition of cholera toxin- and catecholamine-stimulated lipolysis by blocking agents. 119 34

7-oxa-13-prostynoic acid (OPA) and polyphloretin phosphate (PPP) are believed to act as specific antagonists of prostaglandin action. In order to estimate their specificity, the inhibitory effects of these drugs were tested on the activity of adenylate cyclase from several tissues which were stimulated by prostaglandins and several other compounds. In adenylate cyclase preparation from L-fibroblasts both OPA (0.15-1.5 MM) and PPP (0.01-1.0 MG/ML) antagonized not only the stimulatory effects of PGE but also the stimulatory effects of sodium fluoride and increased enzyme activity due to the previous treatment of cell cultures by cholera toxin. Both OPA and PPP produced a dose dependent depression of adenylate cyclase activity to zero values both under basal conditions and after stimulation by sodium fluoride and various hormones in all preparations studied, including rat liver, heart, brain, epididymal adipose tissue, small intestine, renal cortex and renal medulla. The present results indicate that both prostaglandin antagonists may, in higher concentrations, act as nonspecific inhibitors of the catalytic unit of adenylate cyclase rather than specific antagonists of the prostaglandin effects on adenylate cyclase.
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PMID:7-oxa-13-prostynoic acid and polyphloretin phosphate as non-specific antagonists of the stimulatory effects of different agents on adenylate cyclase from various tissues. 123 93


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