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)

Adenylate cyclase activity was measured in a crude particulate fraction of hyaline cartilage obtained from the xiphoid process of the rat. Bovine parathyroid hormone (PTH) at concentrations as low as 1.3 x 10(-7)M and porcine calcitonin (CT) at concentrations as low as 2.3 x 10(-5)M significantly increased adenylate cyclase activity. Glucagon, prostaglandin E1 (PGE1) and E2 (PG2), and epinephrine at concentrations of 10(-5)M also increased activity, whereas, no increased activity was seen with the additions of somatotrophin (10 mug/ml), PGF1alpha, PGF2alpha, or T3 at 10(-5)M. The combination of doses of PTH and CT, which individually produced maximal responses, was not additive. These data provide evidence that cartilage in growing rats responds directly to PTH and CT.
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PMID:Hormonal responsiveness of adenylate cyclase activity in cartilage. 17 93

To disclose a parathyroid-independent calcium modulation of phosphate transport along the nephron, the effect of increasing plasma calcium concentration to subnormal levels in rats 6 days after parathyroidectomy (chronic PTX) was studied. Fractional phosphate reabsorption was significantly increased. The whole kidney response to calcium infusion was similar whether or not the thyroid gland was removed, which suggests that calcitonin is not involved. The micropuncture study indicated an increase in the reabsorptive capacity for phosphate (absolute reabsorption/absolute delivered phosphate per nephron segment) in the proximal tubule, the loop, and the terminal nephron when calcium was infused. Thus, the level of plasma calcium or some related factor affects the phosphate transport by the tubule independently of parathyroid hormone. With calcium infusion, the profile of phosphate reabsorption along the nephron became close to that of acutely parathyroidectomized rats, but with persisting differences. The level of plasma calcium concentration may partly account for the differences between the acute and the chronic steps of parathyroidectomy. The role of possible interferences between alterations of extracellular calcium concentration or some related factor and the adenylate cyclase-cyclic AMP system in such an action of calcium was evaluated. Cyclic AMP was infused so as to achieve a 10(-6) M plasma concentration. Combined infusions of calcium and cyclic AMP were also performed. The results are compatible with calcium inhibition of adenylate cyclase, although they do not rule out a direct action of calcium.
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PMID:Evidence for a parathyroid hormone-independent calcium modulation of phosphate transport along the nephron. 17 76

Microwave irradiation is shown to be a useful method for simultaneously killing chicks and fixing tissues. Renal adenylate cyclase and phosphodiesterase activities were rapidly abolished by microwaving. The increase in chick kidney cyclic adenosine 3',5'-monophosphate (cyclic AMP) content produced by intravenous bovine parathyroid hormone (PTH) injection was much greater in microwaved birds than in those killed by cervical dislocation with subsequent tissue fixation in liquid nitrogen. After PTH injection there was a prolonged elevation of renal cyclic AMP content. At the time of maximum response (2 minutes), log. dose-response curves were linear in the dose range 0.1-10 U. The responses to three different bovine PTH preparations were indistinguishable. Arginine vasopressin, arginine vasotocin, salmon calcitonin and prostaglandin E1 did not affect kidney cyclic AMP content within 2 minutes. Because of its specificity and precision, the method is of use for the in vivo bioassay of PTH. Injection of CaCl2 (20 mumoles) 1 minute before, or conjointly with, bovine PTH inhibited the subsequent increase in kidney cyclic AMP content. The synthetic bovine PTH peptide fragments BPTH (1-34) and BPTH (2-34) both increased chick kidney cyclic AMP content. The use of such fragments allows investigation of the structural requirements of PTH for interaction with the systems regulating cyclic AMP metabolism in the kidney in vivo.
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PMID:Studies in vivo on the effects of parathyroid hormone upon kidney cyclic adenosine 3',5'-monophosphate content using rapid tissue fixation by microwave irradiation. 18 35

Many hormones initiate their biologic actions by augmenting the intracellular concentrations of 3',5'-adenosine monophosphate (cyclic AMP). The nucleotide has been found in body fluids; its determination in plasma and urine can be performed by a rapid, simple and specific method: the cyclic AMP assay kit of the Radiochemical Centre (Amersham, England). The assay is based on the competition between unlabelled cAMP and a fixed quantity of the tritium labelled compound for binding to a bovine muscle protein which has a high specificity and affinity for cAMP. Different factors must be considered in evaluating the 24 h urinary content of the nucleotide: the renal or extrarenal origin of cAMP and the functional status of the kidneys. In basal conditions the urinary cAMP excretion is significantly correlated with creatinine excretion (n = 67; r = 0.47; p less than 0.001) thus confirming that the most part of cAMP excreted is derived from the plasma by glomerular filtration. Parathyroid hormone (PTH) stimulates adenylate cyclase predominantly in the renal cortex, whereas vasopressin (ADH) stimulated the enzyme in the medulla; thus PTH and ADH could increase the amount of cAMP in the urine from the renal source. In a case of diabetes insipidus and infusion of ADH caused a prompt rise in cAMP urinary excretion. In 5 normals an infusion of bovine synthetic parathyroid hormone caused an increased excretion of cAMP that preceded the phosphaturic response. An infusion of salmon synthetic calcitonin caused a rise in phosphate excretion and no increase in cAMP urinary content. As it concerns the two calciotopic hormones, PTH and CT, it is reasonable to assume that renal receptors are distinct. The 24 h urinary excretion of cAMP in 55 control subjects (3613 +/- 1460 D.S. n moles) was contrasted with the lower excretion in 25 elderly subjects (70-93 years: 1804 +/- 699 n moles), with the high cAMP excretion in a patient with hyperparathyroidism (that fell to normal values following removal of the parathyroid adenoma) and with the low cAMP excretion in patients with primary or surgical hypoparathyroidism. The mean 24 h cAMP excretion in patients with renal insufficiency was significantly decreased when compared to control subjects. These findings and recent reports confirm that the 24 h urinary output of cAMP may be considered an useful index of pharathyroid function in man.
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PMID:[The diagnostic value of the determination of cyclic 3',5'-adenosine monophosphate (cAMP) in urine]. 19 Jun 33

The present study evaluated the effect of 25(OH)vitamin D3[25(OH)vit D3] on the phosphaturic action of calcitonin in anesthetized parathyroidectomized rats. In group 1, calcitonin was given intravenously over six clearance periods. In group 2, after three periods of calcitonin given intravenously, 25(OH)vit D3 was added and given together with calcitonin for three additional periods. During calcitonin infusion, Cp/CIn 0.18 +/- 0.02 (mean +/- SE) in group 1 was not different from the corresponding Cp/CIn 0.18 +/- 0.03 in group 2; but when 25(OH)vit D3 was added, Cp/CIn 0.12 +/- 0.01 in group 2 was lower (P less than 0.001) than the corresponding Cp/CIn 0.26 +/- 0.02 in group 1. With intravenous calcitonin the urinary excretion of cycle AMP (UcAMP) 97 +/- 29 in group 1 did not differ from the corresponding UcAMP 86 +/- 27 pmol/min in group 2, but when 25(OH)vit D3 was added UcAMP 41 +/- 12 in group 2 was lower (P less than 0.001) than the corresponding UcAMP 131 +/- 14 pmol/min in group 1. This study demonstrated that 25(OH)vit D3 blocks the phosphaturic action of calcitonin. The associated fall in Uctamp suggests that25 (OV)vit D3 acts possibly by inhibiting the calcitonin-induced activation of adenylate cyclase in the kidney. However, other alternative mechanisms of action have not been excluded.
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PMID:Evidence for interference of 25 (OH) vitamin D3 with phosphaturic action of calcitonin. 19 7

A calcitonin-responsive adenylate cyclase has been found in a cell line of a poorly differentiated bronchial carcinoma (BEN cells). The cells have previously been shown to secrete an immunoreactive form of calcitonin in culture. Salmon calcitonin (SCT), porcine calcitonin (PCT) and human calcitonin (CT-M) all stimulated adenylate cyclase activity in particulate preparations. CT-M sulphoxide had little effect. The concentrations of the calcitonins required for half the maximum activation of adenylate cyclase were 6-8, 18 and 90 nm respectively. SCT (30pm) and CT-M (60 pm) increased the intracellular concentration of cyclic AMP from 11-2+/-0-2 (s.e.) to 18-2+/-0-2 and 16-7+/-0-2 respectively over a 2-5-min period. SCT (labelled with 125I) bound to particulate preparations of Ben cells, and competition for binding occurred with unlabelled SCT and CT-M. The concentration of SCT required for half the maximum inhibition of [125I]SCT binding was 11 nm. CT-M sulphoxide inhibited only at high concentration (3 micron). The characteristics of the adenylate cyclase response to SCT did not change over the period between cell adhesion (after subculture) and confluence. However, pre-incubation of cells for 4 h with SCT (150 nm) abolished the subsequent adenylate cyclase response of particulate preparations to further hormone. The practical difficulties encountered in purifying and quantifying the large-mol.-wt. form of CT-M secreted by BEN cells has precluded direct investigation of the potential relationship between hormone secretion and the occurrence of the calcitonin receptor. This relationship is discussed in terms of its possible biological significance.
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PMID:Calcitonin-responsive adenylate cyclase in a calcitonin-producing human cancer cell line. 19 16

An adenylate cyclase highly responsive to stimulation by parathyroid hormone (PTH) and calcitonin (CT) in vitro was observed at certain times during normal prenatal development of the maxillary-palatal process complex in the golden hamster. Responses of the enzyme to these hormones were barely detectible at the earliest stage examined (day 10/20). The enzyme became extremely sensitive to activation by either hormone during the time of rapid growth of the palatal processes (day 11/20) and during fusion between the palatal processes (day 12/20). Thereafter, responses were greatly diminished and little or no activation of adenylate cyclase was observed until birth. Adenylate cyclase from fetuses in which clefts of the secondary palate were induced by maternal treatment with hydrocortisone (50 mg) on day 11/3 also displayed an enhanced sensitivity to PTH and CT on day 11/20, but the sensitivity of the enzyme was greatly decreased from that in normal animals during the normal time of palatal fusion (day 12/20) and was barely detectible or absent at the remaining time periods studied (days 13/20 and 14/20). Addition of hydrocortisone to the incubation mixture, either separately or in combination with PTH or CT, did not remarkably affect the response of adenylate cyclase to these hormones. Moreover, the appearance of the adenylate cyclase sensitive to hormonal activation did not result from changes in phosphodiesterase activity during palatal maturation.
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PMID:In vitro activation of adenylate cyclase by parathyroid hormone and calcitonin during normal and hydrocortisone-induced cleft palate development in the golden hamster. 19 59

Tritiated salmon calcitonin was prepared by methylation of the free amino groups using tritiated sodium borohydride as precursor. Specific radioactivity was measured in competitive inhibition studies with specific anticalcitonin antibodies or tubular membranes as binding sites for calcitonin. The value observed, approx. 4 Ci/mmol, corresponded to methylation of one third of the available N-H bonds. Tritiated calcitonin prepared in this way retained full biological activity as assessed in vitro by stimulation of adenylate cyclase and in vivo by rat bioassay. Tritiated calcitonin specifically bound to isolated renal cells and nonspecific binding did not exceed 10% of total binding. Equilibrium was obtained after 15 min incubation. The hormone-receptor complex could be dissociated in the presence of an excess of unlabelled calcitonin. This data shows that tritiated calcitonin can be used in metabolic and receptor studies.
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PMID:Biological and immunological properties of tritiated salmon calcitonin. 20 May 9

The possibility of a relationship between cyclic AMP formation and metabolic processes in tumours has been investigated. Changes in basal activity and hormone-responsiveness of adenylate cyclase were demonstrated in plasma membranes and intact cells from pre-cancerous liver of rats fed a diet containing the carcinogen 3'-methyl-4-dimethylaminoazobenzene. Basal adenylate cyclase activity in hyperplastic parathyroid gland membranes was 200% higher than that in parathyroid adenoma membranes, corresponding with their relative rates of parathyroid hormone secretion in vitro. Membrane adenylate cyclase activity in hypernephromas was consistently 100--300% higher than in adjacent human renal cortex. Furthermore the adenylate cyclase activity of the tumour membranes was not influenced by a wide range of hormones which were effective stimulants in 'normal' renal cortex membranes. Conversion of 25-hydroxycholecalciferol to 1,25-dihydrocholecalciferol could not be demonstrated in either hypernephroma or adjacent renal cortical tissue. However, three of the four hypernephromas tested secreted a bone-resorbing factor. Cyclic AMP formation was increased by salmon, human and porcine calcitonins in both plasma membranes and intact cells from a poorly differentiated epidermoid cell carcinoma which was itself secreting calcitonin in culture. This phenomenon might be related to a feedback regulation of calcitonin production in this cell line. The observations are consistent with the concept of a relationship between cyclic AMP formation and certain metabolic functions (e.g. hormone production) in tumour cells.
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PMID:Hormone receptors and cyclic nucleotide metabolism in cancer cells. 21 31

The two first steps of the renal cellular action of parathyroid hormone and of calcitonin are the hormonal binding onto specific receptors and the stimulation of adenylate cyclase by the hormone-receptor complex producing an increase in the intra-cellular concentration of 3'-5' cyclic adenosine monophosphate (cyclic AMP). Specific glomerular and tubular receptors for parathyroid hormone have been demonstrated using either tritiated parathyroid hormone or an indirect technique with 125 I labelled specific antibodies. Tubular receptors are localized both in the proximal and distal segments of the nephron. Parathyroid hormone stimulates glomerular and tubular adenylate cyclase. The main unsolved problem is the difficulty for demonstrating high affinity binding sites and stimulation of adenylate cyclase at low physiological concentrations of parathyroid hormone. In man, administration of parathyroid hormone produces a marked increase in the urinary excretion of cyclic AMP chiefly concerning its nephrogenous fraction. The peak of excretion is early and precedes the decrease in phosphate tubular reabsorption. Tubular receptors for calcitonin have been demonstrated using 125 I labelled salmon calcitonin. Calcitonin stimulates renal adenylate cyclase in only some segments of the nephron allowing receptors for calcitonin to be localized in the wide ascending branch of Henle's loop and the initial part of the convoluted distal tubule. In the presence of guanylnucleotides, binding of calcitonin onto its receptors and activation of adenylate cyclase are observed in the range of physiological concentrations of calcitonin in the rat. In man, administration of calcitonin produces a moderate increase in the urinary excretion of cyclic AMP coming from a non renal tissue.
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PMID:[Renal receptors of parathyroid hormone and calcitonin (author's transl)]. 21 63


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