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)

The sequence of events within the ovary during the process of ovulation discussed in this review is schematically represented in Fig. 1. It is obvious that LH, perhaps with some contribution from FSH, is the normal physiological trigger for the ovulatory sequence of events, and it appears from the available information that the effects of LH are mainly mediated via adenylate cyclase and increased cAMP levels. The cAMP in turn, via cAMP-dependent protein kinase, influences at least three distinct steps in the ovulatory process which seem to be of crucial importance, namely 1) the stimulation of steroidogenesis; 2) the stimulation of cyclooxygenase/lipooxygenase leading to increased prostaglandin/leukotriene synthesis; and 3) the stimulation of plasminogen activator which catalyzes the conversion of plasminogen to plasmin. A fourth crucial step in the ovulatory mechanism is the LH-induced increase in latent collagenase, but it remains to be determined if this step is mediated via cAMP. Concomitant with the increase in latent collagenase, there also appears to be an LH-dependent increase in collagenase inhibitors. The latent collagenase is then activated, and it appears that leukotrienes and prostaglandins, as well as plasmin, may be involved in this process. The active collagenase causes a digestion of the collagen in the follicle wall, and plasmin, as well as possibly other proteolytic enzymes such as proteoglycanases, may cause a further dissociation of the follicular wall. These processes of digestion of collagen and dissociation of the collagen fibers result in an opening in the follicular wall with the formation of the stigma and rupture. While the weakening of the follicular wall takes place throughout the entire wall, rupture remains for the most part a localized process at the apex of the follicle. This localization of the rupture may be explained on the basis of mechanical factors operating when the follicle wall thins and weakens. While it is clear that prostaglandins and leukotrienes can influence smooth muscle by causing contractions and that these compounds can cause vascular changes such as increased permeability, vasodilation, and vasoconstriction, it is not clear what the exact role of these latter processes are in ovulation. It appears that progesterone and not estrogen play an important role in the mechanism of LH-induced follicular rupture, but the locus of action of progesterone and its mechanism of action remains to be determined.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanism of mammalian ovulation. 255 97

In the present study the possible dual effects of adenosine as substrate and adenosine receptor agonist in rat granulosa cells, cumulus-oocyte complexes, luteal cells and ovarian membranes are discussed. Adenosine is an indispensable compound in cell energy metabolism, as precursor to cofactors, second messenger and nucleic acids. Adenosine is also an agonist to adenosine receptors. The adenosine receptor can either inhibit (A1) or stimulate (A2) adenylate cyclase. Alternatively, in some cells adenosine receptor activation is linked to other cellular events like inhibition of Ca2+ fluxes. Adenosine is taken up by isolated preovulatory granulosa and luteal cells from pregnant mare serum gonadotropin-treated immature rats, but follicle stimulating hormone (FSH) decreases the uptake by granulosa cells. Adenosine, but not the non-metabolizable adenosine analogs 5'-(N-ethyl)carboxamide-adenosine (NECA), 2-chloro-adenosine (2-Clado), N6-(R-phenyl-isopropyl)-adenosine (R-PLA) and N6-(S-phenyl-isopropyl)-adenosine (S-PLA), increase granulosa cell ATP levels. FSH and luteinizing hormone (LH) decrease granulosa cell ATP levels in the presence or absence of adenosine. It has previously been shown that FSH and LH decrease oxygen consumption by cumulus-oocyte complexes and increase their lactate production. These effects have been suggested to be due to a competition of cofactors (e.g. ADP) common to glycolysis and the respiratory chain. The fact that adenosine reverse the gonadotropin-induced effects on oxygen consumption and lactate production support this theory. Adenosine and its analogs increase cAMP accumulation in luteal and granulosa cells only in the presence of gonadotropins, and this effect is antagonized by the adenosine receptor antagonist 8-phenyl-theophylline (8-PHT). Furthermore, adenylate cyclase is stimulated by adenosine analogs in membranes from non-luteinized and luteinized ovarian membranes and in luteal cell homogenates. The effect of NECA is antagonized by 8-PHT. In the membranes, the rank order of potency was NECA greater than 2-Clado greater than R-PLA greater than S-PLA, suggesting adenosine A2 receptors. In summary, it is suggested that adenosine can act both as a substrate to intracellular metabolism and as an adenosine A2 receptor agonist in granulosa and luteal cells. A paracrine short loop positive feedback model is proposed where extracellular adenosine, derived from a gonadotropin-induced extracellular increase in cAMP and a decrease in cellular ATP, enhances gonadotropin stimulation in granulosa and luteal cells.
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PMID:Adenosine as substrate and receptor agonist in the ovary. 255

The sequence of ovarian events during the process of ovulation discussed in this review is schematically represented in Figure 1. It is obvious that LH, perhaps with some contribution from FSH, is the normal physiological trigger for the ovulatory sequence of events and it appears from the available information that LH's effects are mainly mediated via adenylate cyclase and increased cAMP. The cAMP in turn, via cAMP-dependent protein kinase, influences at least three distinct steps in the ovulatory process which seem to be of crucial importance, namely 1) the stimulation of steroidogenesis; 2) the stimulation of cyclooxygenase/lipooxygenase leading to increased prostaglandin/leukotriene synthesis; and 3) the stimulation of plasminogen activator which catalyzes the conversion of plasminogen to plasmin. A fourth crucial step in the ovulatory mechanism is the LH-induced increase in latent collagenase, but it remains to be determined if this step is mediated via cAMP. Concomitant with the increase in latent collagenase, there also appears to be an LH-dependent increase in collagenase inhibitors. The latent collagenase is then activated and it appears that leukotrienes and prostaglandins as well as plasmin may be involved in this process. The active collagenase causes a digestion of the collagen in the follicle wall. Plasmin as well as possibly other proteolytic enzymes such as proteoglycanases (Too et al., 1984) may cause a further dissociation of the follicular wall. These processes of digestion of collagen and dissociation of the collagen fibers result in an opening in the follicular wall with the formation of the stigma and rupture. While the weakening of the follicular wall takes place throughout the entire wall, rupture remains for the most part a localized process at the apex of the follicle. This localization of the rupture may be explained on the basis of mechanical factors operating when the follicle wall thins and weakens (Rodbard, 1984). While it is clear that prostaglandins and leukotrienes can influence smooth muscle by causing contractions and that these compounds can cause vascular changes such as increased permeability, vasodilatation and vasoconstriction, it is not clear what the exact role of these latter processes are in ovulation. It appears that progesterone and not estrogen play an important role in the mechanism of LH induced follicular rupture, but the locus of action of progesterone and its mechanism of action remains to be determined.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanism of mammalian ovulation. 265 83

Pre-incubation of rat Sertoli cells with concentrations of follicle-stimulating hormone (FSH) too low to stimulate plasminogen activator (PA) secretion, provoked an inhibition of its subsequent stimulation by an effective dose of the hormone. A kinetic study of this desensitization was performed using equine FSH (which exhibits prolonged stimulation of PA secretion) and porcine FSH (which like all other FSH tested, provokes a transient response). Low non-stimulating concentrations of both hormones were shown to inhibit the subsequent PA response to each of them. Desensitization of rat Sertoli cells by low (non-stimulating) concentrations of FSH did not modify the typical time course (transient or prolonged) of PA secretion under subsequent stimulation by porcine or equine FSH, respectively. Only the intensity of the response to each hormone was dramatically reduced. Besides, the induction of desensitization by these non-stimulating concentrations of FSH was shown to be very rapid (10-15 min). The precise mechanism of this desensitization is not yet clear but its abolishment by the cyclic nucleotide phosphodiesterase (PDE) inhibitor MIX is consistent with the hypothesis that activation of PDE occurs at lower FSH concentration than adenylate cyclase activation.
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PMID:Homologous desensitization of rat Sertoli cells by non-stimulating concentrations of follicle-stimulating hormone. 295 41

Calcitonin and calcitonin gene-related peptide stimulate adenylate cyclase activity and plasminogen activator production in cultured renal tubular LLC-PK1 cells. Salmon [125I]calcitonin and human [125I]calcitonin gene-related peptide bound specifically to the cells. Salmon [125I]calcitonin binding was reduced at lower concentrations of non-radioactive salmon calcitonin than of human calcitonin gene-related peptide. For the stimulation of adenylate cyclase activity and plasminogen activator production, the potency of salmon calcitonin was higher than that of human calcitonin and calcitonin gene-related peptide. In a subclone of LLC-PK cells lacking salmon calcitonin binding sites, no specific binding of [125I]CGRP occurred, and adenylate cyclase activity and plasminogen activator production was not increased by the peptides. Thus, in LLC-PK1 cells the stimulation of adenylate cyclase activity and plasminogen activator production by calcitonin gene-related peptide is probably mediated by the calcitonin receptor.
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PMID:Calcitonin and calcitonin gene-related peptide interact with the same receptor in cultured LLC-PK1 kidney cells. 299 13

We have previously shown that equine follicle-stimulating hormone (FSH) stimulates plasminogen activator secretion in Sertoli cells at much lower concentrations than would be expected from its relative binding activity. We have introduced the term 'superactivity' to designate this particular behavior. In the present study, we show that equine FSH triggers a long-lasting (20 h) plasminogen activator secretion, whereas rat, porcine and ovine FSH as well as equine LH and equine choriogonadotropin (CG) provoke a short-term response (2.5 h). Moreover, equine FSH was also shown to be superactive in the stimulation of estradiol secretion and cyclic AMP production. This indicates that the step responsible for the long-term stimulation by equine FSH is not located beyond cAMP accumulation. Equine and porcine FSH were found to be equally stable during incubation with the cells demonstrating that equine FSH superactivity was not due to higher stability. Besides, phosphodiesterase inhibition led to a similar increase in the responses to both hormones. This rules out the possibility that equine FSH superactivity is due to less stimulation of phosphodiesterase activity. All these data strongly suggest that equine FSH exhibits superactivity in rat Sertoli cells by stimulating adenylate cyclase activity for a much longer period of time than do all other gonadotropins. The molecular mechanism of this outstanding behavior remains to be elucidated.
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PMID:Study of the superactivity of equine follicle-stimulating hormone in in vitro stimulation of rat Sertoli cells. 301 21

The plasminogen activator (PA) in clonal osteogenic sarcoma cells of rat origin (UMR 106-01 and UMR 106-06) and in osteoblast-rich rat calvarial cells has been characterized using specific antibodies to be tissue-type PA (tPA). An Mr value of 75,000 by SDS-polyacrylamide gel electrophoresis and fibrin autoradiography supports this characterization. There was also evidence for an Mr 105,000 component, which could be due to a proteinase-inhibitor complex. The mechanism of regulation of this tPA activity has been studied in the clonal osteogenic sarcoma cells. Parathyroid hormone (PTH) and prostaglandin E2, which increase cyclic AMP production in the sarcoma cells, also increased tPA activity. The sensitivity and magnitude of the tPA response to PTH and prostaglandin E2 were increased by simultaneous treatment with isobutylmethylxanthine (IBMX) at drug concentrations which had little effect themselves on tPA activity. In UMR 106-06 cells, which unlike UMR 106-01 cells show a cyclic AMP response to calcitonin, tPA activity was also increased in response to calcitonin, and the effect was enhanced by IBMX. 1,25-Dihydroxyvitamin D-3 also increased tPA activity in the cells, but this response was not modified by IBMX. Synthetic peptide antagonists of PTH-responsive adenylate cyclase, [34Tyr]-hPTH (3-34) amide and [34Tyr]-hPTH (5-34) amide, inhibited the PTH-induced increase in tPA activity over the same concentration range at which they inhibited cyclic AMP production, but the antagonist peptides had no effect on the tPA responses to prostaglandin E2, calcitonin or 1,25-dihydroxyvitamin D-3. These data indicate that cyclic AMP mediates the actions of PTH, prostaglandin E2 and calcitonin in increasing tPA activity in the clonal osteogenic sarcoma cells. 1,25-Dihydroxyvitamin D-3, on the other hand, increases tPA activity through a mechanism independent of cyclic AMP.
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PMID:Cyclic AMP-dependent and -independent effects on tissue-type plasminogen activator activity in osteogenic sarcoma cells; evidence from phosphodiesterase inhibition and parathyroid hormone antagonists. 301 47

Addition of the cyclooxygenase inhibitor indomethacin to human synovial cells in culture, at concentrations which completely block prostaglandin E2 (PGE2) synthesis, reversibly inhibited the interleukin-1 (IL-1) stimulation of cell-associated and extracellular plasminogen activator (PA) production. Results of mixing experiments suggested that the inhibition by indomethacin was not due to stimulation of production and/or activation of a PA inhibitor, but reflected inhibition of PA synthesis. Simultaneous addition of PGE2 or dibutyryl cAMP prevented the inhibition by indomethacin. Addition of the phosphodiesterase inhibitor, theophylline, the adenylate cyclase stimulator, forskolin, or dibutyryl cAMP caused an enhancement of the IL-1 induction of synovial cell PA. These results suggest that the IL-1 induction of synovial cell PA occurs via generation of endogenous PGE2 and cAMP.
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PMID:Evidence that interleukin-1 induction of synovial cell plasminogen activator is mediated via prostaglandin E2 and cAMP. 301 58

Adenosine and its synthetic analogues are known to affect many leukocyte functions, in some cases by binding to specific cell surface receptors coupled to adenylate cyclase. In this study, adenosine receptors were demonstrated on normal rabbit alveolar macrophages by examining specific binding of tritiated 5-N-ethylcarboxamide adenosine (NECA) to intact cells. Scatchard analysis suggested a single class of approximately 33,000 binding sites per cell and an estimated Kd of 0.46 mumol/L. Competitive inhibition of tritiated NECA binding was demonstrated for 2-chloroadenosine (2-CA; Ki = 3.68 mumol/L) and L-phenylisopropyl adenosine (L-PIA; Ki greater than 100 mumol/L), a rank order of binding affinities indicative of an A2 receptor. Theophylline and isobutyl methylxanthine had Kis of 368 and 27.6 mumol/L, respectively. For functional correlation, NECA was found to be 10-fold more potent than L-PIA in stimulating an increase in intracellular cyclic adenosine monophosphate. In addition, macrophages were cultured for 24 hours with NECA, 2-CA, or L-PIA to determine whether these analogues modulated expression of either cell-associated procoagulant activity or elaboration of plasminogen activator. Procoagulant activity was suppressed by as much as 62% (P less than 0.05); the rank order of potency and blockade of the effect with theophylline suggest that suppression of procoagulant activity occurred primarily by stimulation of A2 receptors. By contrast, these analogues stimulated production and release of plasminogen activator by 30% (P less than 0.05), but this effect had none of the features of an A2-mediated mechanism. Macrophages were cotreated with nitrobenzylthioinosine (10 mumol/L) and adenosine deaminase (2 U/ml) to allow adenosine accumulation exclusively within the cell.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adenosine receptors on rabbit alveolar macrophages: binding characteristics and effects on cellular function. 303 32

We have determined that the primary reason for the frequently encountered poor survival of human scirrhous breast carcinomas in short-term (4 days) organ culture is mechanical injury to the tumor tissue during explant preparation. It was possible to minimize this injury by preparing 0.5-mm-thick slices using very sharp blades. This resulted in much improved preservation of tissue structure and function, as assessed by histology, DNA content, and enzyme synthesis and secretion. With the exception of insulin, which was always present in the culture medium, exogenous hormones, including estrogen, or serum did not further improve explant preservation. In rodent mammary tumors, growth in vivo and production of the serine protease plasminogen activator (PA) in organ culture are coordinately regulated by hormones, suggesting that PA may be a valuable indicator of tumor hormone responsiveness. We have now tested the effect of estrogen and other hormones on PA secretion in organ cultures of primary human breast carcinomas. We found that: modulation of PA by 17-beta-estradiol (10-8) M) occurred only in carcinomas which were positive for both estrogen and progesterone receptors; of 21 such tumors, 11 (52%) were responsive. Plasminogen activator was not modulated by estradiol in any of the 22 tumors which were negative for one or both receptors; hydrocortisone (10(-7) M) effectively inhibited, and 3,5,3'-L-triiodothyronine (10(-8) M) and adenylate cyclase activators effectively stimulated PA in most breast tumors, regardless of their estrogen and progesterone receptor status. Prolactin (5 micrograms/ml) had no effect when tested alone; urokinase-type PA was found to be the principal PA produced by human breast tumors. Changes in its rate of synthesis and secretion and not in the content of PA inhibitors appeared to be the prevailing mechanism of enzyme regulation by hormones. In summary, short-term organ culture coupled with the use of PA as an index of response appears to be a promising approach to the study of hormone sensitivity of primary human breast carcinomas.
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PMID:Hormonal modulation of plasminogen activator: an approach to prediction of human breast tumor responsiveness. 310 11


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