Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human chorionic somatomammotropin extracted and purified from placenta at term was proved to have a lipolytic action in the epididymal fat pad of rats. The following mechanism appears to be involved in the lipolytic action of the hormone; human chorionic somatomammotropin activates adenyl cyclase, thereby increasing the concentration of cyclic AMP in the tissue, which, in turn, activates protein kinase to lead to the activation of hormone sensitive lipase.
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PMID:Lipolytic action of human chorionic somatomammotropin. 16 57

Adenine requiring mutants of Serratia marcescens SM-6-F'lac+ have been found to grow well in minimal-glucose medium solely supplemented with cAMP. From one of these ade strains double mutants (called ade cpd) were isolated which could no longer utilize cAMP but which still grew on 5'AMP. Dialyzed cell extracts (soluble fraction) of the double mutants, assayed for cAMP phosphodiesterase, were unable to hydrolyze cAMP whereas cell extracts of the parental strains yielded 5'AMP at a rate of 1.6-2.0 mumoles min-1 mg-1 protein. The loss of the phosphodiesterase activity in S. marcescens cpd W 1181 did not cause an accumulation of large amounts of cAMP as was found for the diesterase-negative mutant AB257pc-1 of Escherichia coli. The induced synthesis of beta-galactosidase in mutant cpd W 1181 showed about the same sensitivity to transient and permanent catabolite (glucose) repression as the corresponding cpd+ strain. Starting from S. marcescens cpd W 1182 three independent double mutants (called cpd cya) were isolated which required exogenous cAMP for utilizing various carbohydrates as carbon source, for motility and for the formation of extracellular lipase and the red pigment prodigiosine. The intracellular concentration of cAMP in these mutants, grown in nutrient broth, was 40-60% of that of the parental strain which is about 4 x 10(-4) M. However, the adenylate cyclase in cell extracts of the mutants W 1237 and W 1270 was like that of the corresponding cya+ strain (about 2 x 10(-2) mumoles min-1 mg-1 protein).
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PMID:Mutants of Serratia marcescens lacking cyclic nucleotide phosphodiesterase activity and requiring cyclic 3',5'-AMP for the utilization of various carbohydrates. 16 32

An adenylate cyclase activity (AC) was found in guinea pig brown adipose tissue (BAT), since the tissue's apparition. This enzymatic activity increased during the development and showed high values at the end of gestation. An increase of AC units per cell was observed, in addition to the cell multiplication. A norepinephrine stimulation of AC activity was observed at the end of gestation : this regulating action disappeared in the first days of extrauterine life. Neither glucagon nor ACTH had any regulating role upon AC activity during fetal and newborn life. The basal lipolytic activity which was observed in BAT of fetuses (61rst day) and neonate dramatically around the 15th day. A potent lipolysis activation by norepinephrine was observed, but only after birth. The correlation observed between these enzymatic activities in presence of norepinephrine seems to indicate that the AC/lipase system was involved in the neonatal thermogenesis of guinea pigs.
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PMID:[Adenylate cyclase/Lipase. Hormone receptor induction]. 17 89

The liberation of arachindonate in the thyroid occurs at the expense of two distinct pools of precursors. (1) the phosphatidylinositol through a process Ca2+-dependent and cyclic AMP-independent; and (2) the triglycerides by a cyclic AMP-dependent lipase, in which the involvement of cyclic AMP-dependent protein kinase has not yet been determined. The "PI pool" or "paracyclic AMP pool" is mobilized very rapidly by large doses of TSH but its physiological significance can be discussed. The "triglyceride pool" or "post-cyclic AMP pool" is mobilized more slowly by small doses of TSH and seems not to be implicated in the acute TSH stimulation of adenylate cyclase. The "post-cyclic AMP pool" of prostaglandins would be very important as third messenger or as "long-acting TSH hormone". Some recent works of Boeynaems and Van Sande (16) and Madaoui et al. (17) on the thyroid support this hypothesis, as aspirin or indomethacin inhibits DBc-AMP stimulation of glucose oxydation, iodine organification, or thyroid hormone secretion. On the other hand, in the absence of prostaglandin synthesis, TSH still stimulates the adenylate cyclase, which means that prostaglandins are not obligatory intermediates of hormonal action on cyclic AMP production. In conclusion, these results show a TSH action in the thyroid on the release of fatty acids, precursors of PG's, from their lipidic stores. Nevertheless, a second control step is not excluded in conversion of cyclic endoperoxide to PGE or PGFalpha.
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PMID:Stimulation by TSH of prostaglandin synthesis in pig thyroid. 18 42

Adipose-tissue triacylglycerol is the major energy store in man. The physiological importance and biochemical mechanism of the hormonal control of lipolysis in white adipose tissue is reviewed. Rates of lipolysis and fatty acid release observed when adipose tissue is incubated in vitro are compared with rates of triacylglycerol turnover in man. It appears that enhanced rates of lipolysis in vivo, for example during fasting and exercise, may be a substantial fraction of the maximum obtainable by hormone stimulation in vitro. There is considerable species variation in the hormonal sensitivity of adipose tissue. Some hormones that stimulate lipolysis in vitro may not be significant lipolytic agents at physiological concentrations in vivo. In man and rat, the most important acutely acting lipolytic and anti-lipolytic hormones are catecholamines and insulin respectively. The sympathetic nervous system may play a role at least as important as circulating catecholamines in the mobilization of stored triacylglycerol. The effects of acute lipolytic hormones are modulated in the long term by corticosteroids and thyroid hormone. Stimulation of lipolysis is believed to be mediated by the increased intracellular cyclic AMP concentration that occurs after interaction of hormones with specific receptors in the plasma membrane. The properties of membrane receptors, adenylate cyclase, cyclic AMP phosphodiesterase, cyclic AMP-dependent protein kinase and triacylglycerol lipase, as studied in rat and human adipose tissue, are discussed. Several features of the action of lipolytic hormones in vitro are difficult to account for by the hypothesis that cyclic AMP is the only "second messenger" regulating lipase activity. These include anomalous effects of hormones at high concentrations and the possible existence of feedback inhibition limiting the accumulation of cyclic AMP and the stimulation of lipolysis. The mechanism of the anti-lipolytic action of insulin is at present unknown.
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PMID:Hormonal control of adipose-tissue lipolysis. 21 67

With histochemical methods the distribution of some enzymes and metabolic substances in the epidermal peelings of Phaseolus mungo, Lathyrus sativus, and Opuntia elatior under light and dark conditions is examined. Dehydrogenases oxidases, transferases and hydrolases were studied. Fluctuations in the activity of hydrolases, especially, acid phosphatase, lipase, glucose-6-phosphatase, adenosine triphosphatase, dehydrogenases and transferases were observed during light and dark conditions. The role of such fluctuations in relation to stomatal regulation is discussed. Based on the present studies the following is suggested; stomatal opening and closing is related to structural and metabolic changes, and these changes are brought about by sugar gradients in the guard cells; light is enhancing the synthesis of sugars and some hormones, and besides this it stimulates membrane bound adenyl cyclase and release of cyclic AMP which affects the permeability; subsidiary cells actively participate in the stomatal physiology. Lysosomal hydrolytic enzymes like acid phosphatase are actively involved in catabolic phase of normal guard cells metabolism and regulate the osmotic pressure of the guard cells.
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PMID:Histochemical studies in stomatal apparatus of Phaseolus mungo Linn, Lathyrus sativus Linn and Opuntia elatior Mill. 59 72

In open-chest dogs anesthized with sodium pentobarbital, acetylcholine (ACh, 5 times 10'-5M) infused into the left circumflex coronary artery caused an increase in coronary flow and a decrease in myocardial O'2 extraction ratio (P less than .01) anduptake (P less than .05). Heart rate and mean arterial pressure were not altered,although left ventricular dP/dt declined from 2,037 plus or minus 205 to 1,873 plus or minus 194 mmHg/s (P less than .02). Intracoronary administration of norepinephrine (NE, 2.4 times 10'-6M) caused an increase in myocardial O'2 uptake (P less than .02); simultaneous infusion of both NE and ACh caused a decline in O'2 extraction ratio (P less than .01) and uptake (P less than 0.5). Myocardial adenylatecyclase activity in response to ACh was not altered significantly from a control levelof 188 plus or minus 22 pmol of '14C-labeled cyclic AMP/mg protein per 10 min. Norepinephrine alone elevated adenylate cyclase activity to 401 plus or minus 45 pmol ['14C]cyclic AMP/mg protein per 10 min (P less than .01). However, with simultaneous infusion of both NE and ACh, adenylate cyclase returned to control levels. Although ACh alone did not alter myocardial hormone-sensitive lipaseactivity, NE elevated lipolytic activity from 8.1 plus or minus .7 to 13.2 plus or minus 1.8 mueq free fatty acid (FTA)/g per 30 min (P less than .05). The administration of both ACh and NE returned lipase activity to nearly control levels. Myocardial uptake of FFA increased significantly during ACh infusion alone (P less than 0.5) and during NE infusion alone (P less than 905). However, when NE and AChwere administered together, a decline in FFA uptake was observed (P less than .02). These data indicate that the effects of ACh on cardiac metabolism are minimal, withthe decline in myocardial O'2 uptake of ACh primarily reflecting the decrease in contractility. On the other hand, antagonism of ACh on NE-stimulated myocardial lipid metabolism appears to involve activity of the adenylate cyclase system.
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PMID:Acetylcholine and norepinephrine interactions on cardiac lipids and hemodynamics. 115 99

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

The adrenergic regulation of lipolysis was studied, before and after 30 min of submaximal exercise, in isolated adipocytes removed from the abdominal and gluteal regions of healthy non-obese men and women. Noradrenaline-induced lipolysis was significantly enhanced in gluteal adipocytes from men but not in women after exercise. However, the pure beta-adrenergic responsiveness was equally increased in gluteal adipocytes of both sexes after exercise, as judged by the effect of isoprenaline. Furthermore, the alpha 2-adrenergic anti-lipolytic responsiveness was more apparent after exercise in females than in males thereby counter-balancing the increase in the beta-adrenergic effect in the gluteal region in the former. The increased beta-adrenergic responsiveness induced by exercise in gluteal adipocytes of males could be mimicked by agents acting at the levels of adenylate cyclase, coupling proteins, phosphodiesterase, and protein kinase and seems to be due to an adaptive enhancement at the hormone-sensitive-lipase level. There was no change in the stoichiometric properties of beta-adrenoceptors of gluteal adipocytes after exercise. Abdominal adipocytes of both sexes were four to five times more responsive to noradrenaline than gluteal ones. However, exercise induced no further enhancement of the catecholamine-stimulated lipolysis rate in fat cells from this site. Thus, the influence of exercise on catecholamine-stimulated lipolysis is regional and sex dependent. Men, but not women, have a greater ability to adapt lipolysis to increasing energy demands during exercise that are due to an acute increase in the effectiveness of the hormone-sensitive lipase complex.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adrenergic regulation of lipolysis in human fat cells during exercise. 175 92

The effects of various secretagogues on the release of lingual lipase and amylase from rat lingual serous glands was examined in vitro and in vivo. After incubation, the media and tissues were assayed for lingual lipase and amylase activity to determine percent of secretion. In vitro secretion of lingual lipase and amylase stimulated by the cholinergic agonist, carbamylcholine chloride (carbachol), was 28.3 +/- 1.7, 48.0 +/- 3.2, and 55.9 +/- 2.4% and 18.1 +/- 1.7, 26.4 +/- 3.0, and 28.0 +/- 2.5%, respectively, for 30-, 60-, and 90-min incubations. The beta-adrenergic agonist, isoproterenol, and the adenylate cyclase activator, forskolin, elicited very little secretion in vitro; the 90-min values with isoproterenol were 16.8 +/- 7.1% lingual lipase and 6.0 +/- 2.6% amylase. The alpha-adrenergic agonist, phenylephrine, did not stimulate enzyme secretion. Morphological assessment of incubated tissues revealed that carbachol induced a rapid and extensive degranulation of the acinar cells, while isoproterenol caused only minimal exocytosis. In vivo stimulation by the cholinergic agonist, pilocarpine, caused rapid secretion, with maximal secretion occurring by 1 h. In vivo secretion stimulated by isoproterenol was slow, but by 4 h secretion was comparable to that induced by pilocarpine. In vitro, there was a significant difference between the percentages of lingual lipase and amylase secreted, which could not be accounted for by the presence of proteases or microbial products or the lack of stability of the enzymes during the incubation period. Neurotransmitter regulation of protein secretion by the lingual serous (minor salivary) glands appears to be principally cholinergic in contrast to the beta-adrenergic stimulation of protein secretion by the parotid (major salivary) gland.
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PMID:Secretion of lingual lipase and amylase from rat lingual serous glands. 244 9


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