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

The etiology of keratoconus is still unclear. This study presents a new clinical sign, Thalasselis' syndrome, defined as: an association between keratoconus, magnesium deficiency, type-A behavior and allergy. Also, it introduces the hypothesis that magnesium deficiency could affect pathologically the osmotic mechanism of the cornea, specifically the Na-K and/or Ca-ATPase pumps; the collagen structure by alteration of the adenylate cyclase activity; and other mechanisms as well. Furthermore, we propose the Thalasselis' syndrome is compatible with previous theories on keratoconus. In addition to the other therapeutic measures, such as contact lenses and keratoplasty, this study suggests a clinical, nutritional, psychological, and immunological treatment for keratoconic patients.
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PMID:Thalasselis' syndrome and other theories on keratoconus. 258 91

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

Numerous reports have appeared in the literature indicating phenotypic heterogeneity among cells of the osteoblastic lineage. This diversity may be due to either certain stages of differentiation or a subspecialization of already terminally differentiated osteoblasts. To obtain answers to this question, we report on studies undertaken to clone bone cell populations from 1 day postnatal rat calvaria which express well defined differences in phenotype. To achieve this goal, we have used the soft agarose cloning technique which previously has almost exclusively been applied to clone cells of neoplastic origin. The reason for being able to employ this method is based on the fact that bone cells can be induced by transforming growth factor-beta to reversibly acquire the transformed phenotype, an event expressed by anchorage-dependent bone cells to form progressively growing colonies in soft agarose. Individual colonies, harvested from agarose, were expanded to clonal bone cell populations. Characterizing 48 cell clones by detection of osteoblastic cell markers such as alkaline phosphatase activity, PTH- and prostaglandin-E2-induced adenylate cyclase activity, osteocalcin mRNA synthesis, as well as collagen synthesis, 7 subsets of osteoblastic cell types were identified. Each subset was found to express a distinct phenotype, indicated by the absence or presence of osteoblastic cell markers. Some clones, previously found not to exhibit any osteoblastic traits, developed PTH responsiveness when treated with insulin-like growth factor-I/transforming growth factor-beta, suggesting that these clones may originate from the osteoprogenitor cell pool. While most clonal cell populations were characterized as fully functional osteoblastic cells, some clones expressed merely 1, 2, or 3 osteoblastic markers, which suggests that they may represent stages of differentiation along the osteogenic pathway. In addition, other subclones displayed the capacity to synthesize osteocalcin and showed PTH and prostaglandin-E2 responsiveness, but were found to be devoid of alkaline phosphatase activity. Others expressed all osteoblastic cell markers except PTH responsiveness. The phenotypic constellation of the latter suggests that these cell clones may represent mature osteoblast-like cells, which, perhaps due to environmental circumstances present at the time of isolation, have become altered in accordance with the physiological requirements of the tissue.
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PMID:Evidence for heterogeneity of the osteoblastic phenotype determined with clonal rat bone cells established from transforming growth factor-beta-induced cell colonies grown anchorage independently in semisolid medium. 267 79

Estradiol (E2) replacement therapy effectively prevents or delays postmenopausal bone loss, but the mode of E2 action on bone is still unknown. Recently, the presence of E2 receptors was described for bone-derived cells. In this study we examined the estrogen responsiveness of osteoblastic cells using the experimentally immortalized calvarial cell lines RCT-1 and RCT-3 as well as primary cultures of calvarial and trabecular bone cells. E2 treatment reduced PTH-stimulated adenylate cyclase activity by 20-30% in RCT cells; the maximum effect was observed after treatment with 1 nM E2 for 4 h or longer. In trabecular cells E2 decreased PTH-stimulated adenylate cyclase activity by 60-80%. After a lag period of at least 48 h, E2 treatment (0.01-10 nM) increased cell number and [3H]thymidine incorporation in both RCT-3 cells and primary cultures of trabecular cells to 20-60% above control values. Half-maximal effects were observed at about 1 nM E2. Antibodies against insulin-like growth factor-I (IGF-I) inhibited the E2-induced proliferation in a dose-dependent manner without affecting basal growth. Furthermore, E2 treatment increased the steady state levels of IGF-I mRNA 2- to 2.5-fold in calvarial and RCT-3 cells compared to control levels. In addition, E2 (10 nM) increased the level of collagen mRNA more than 2-fold and opposed the suppression of collagen mRNA produced by PTH treatment. The E2 effects were specific to 17 beta-E2, since they were not observed with the biologically less active stereoisomer 17 alpha-E2 and were blocked by the E2 antagonist tamoxifen (1 microM). Thus, for osteoblastic cells in culture, E2 can directly stimulate proliferation as well as collagen and IGF-I mRNA while decreasing PTH responsiveness; these effects could explain the anabolic and anticatabolic effects of E2 on bone.
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PMID:Estradiol effects on proliferation, messenger ribonucleic acid for collagen and insulin-like growth factor-I, and parathyroid hormone-stimulated adenylate cyclase activity in osteoblastic cells from calvariae and long bones. 275 78

The potent inhibitor of platelet cAMP phosphodiesterase (PDE) HL 725 (9,10-Dimethoxy-2-mesitylimino-3-methyl-3, 4,6,7-tetrahydro-2H-pyrimido(6,1-A)-isoquinoline-4-one-hydrochloride), was examined for its effects on human and rat platelet aggregation. Strong inhibitory effects are seen on collagen-induced platelet aggregation both in rat platelet-rich plasma (PRP) (IC50, 54 +/- 12 nM) and whole blood (IC50, 57 +/- 25 nM). Compared to the effects on rat platelets, HL 725 is about two-fold less inhibitory in human PRP (IC50, 94 +/- 29 nM) and whole blood (IC50, 126 +/- 50 nM). The inhibitory action of HL 725 can be reversed by washing and resuspension of the platelets, suggesting that HL 725 does not bind tightly to cAMP PDE. If human or rat PRP is pretreated with adenosine deaminase, an enzyme that degrades adenosine or 2',5'-dideoxyadenosine, an inhibitor of adenylate cyclase, the inhibitory effect of HL 725 is reversed. Similar blockade of the inhibitory actions of several other inhibitors of cAMP PDE such as RA 233, RX-RA 69 (analogs of dipyridamole) and oxagrelate is seen by adenosine deaminase pretreatment. The nucleoside transport inhibitors, dilazep and dipyridamole which are non-inhibitory alone to platelet aggregation, strongly potentiate (about 10-fold) the inhibitory action of HL 725 on collagen-induced platelet aggregation in human whole blood. However, if the whole blood is pretreated with adenosine deaminase, no inhibitory effect of dipyridamole plus HL 725 is seen on platelet aggregation. These studies demonstrate that plasma adenosine plays a crucial role in the antiaggregatory actions of HL 725 and several other inhibitors of cAMP PDE both in human and rat blood.
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PMID:Role of plasma adenosine in the antiplatelet action of HL 725, a potent inhibitor of cAMP phosphodiesterase: species differences. 282 50

Human platelet adenosine-3',5'-cyclic monophosphate (cAMP) levels were determined in platelet rich plasma (PRP) and in washed platelets by a modification of the protein binding assay; the validation of the method is described. Dihydroergotamine (DHE) inhibited epinephrine induced platelet aggregation (ID50 = 2.5 X 10(-7) mol/l), and increased cAMP levels in platelets by an alpha-adrenergic receptor blocking effect, since phentolamine but not propranolol, behaved similarly. The DHE induced cAMP accumulation was correlated to the inhibitory effect on aggregation and showed a characteristic alpha-adrenergic receptor pattern in the presence of alprostadil (PGE1) and epinephrine but not collagen or adenosine diphosphate (ADP). Thrombin induced aggregation was similarly affected by DHE but with 100 times higher concentration. Heparin was found to increase slightly ADP and epinephrine induced aggregation and to decrease cAMP. Also, heparin was found to inhibit thrombin induced platelet aggregation. In washed platelets, the inhibitory effect of thrombin on PGE1 induced cAMP accumulation was counteracted by heparin. This indicates that the binding site of thrombin on platelets is important in the control of adenyl cyclase. Evidence is presented that some of the beneficial synergistic effect of DHE and heparin may consist in the ability of those compounds to produce opposite effects on cAMP system in platelets.
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PMID:Effect of heparin and dihydroergotamine on platelet adenosine-3',5'-cyclic monophosphate. 282 55

We describe a family whose members have impaired platelet aggregation and secretion responses to epinephrine with normal responses to adenosine diphosphate and collagen. Platelet alpha 2-adrenergic receptors (measured using 3H methyl-yohimbine) were diminished in the propositus (78 sites per platelet), his two sisters (70 and 27 sites per platelet), and parents (37 and 63 sites per platelet), but not in two maternal aunts (12 normal subjects, 214 +/- 18 sites per platelet; mean +/- SE). However, the inhibition of cyclic adenosine monophosphate (cAMP) levels by epinephrine in platelets exposed to 400 nmol/L PGI2 was similar in the patients and five normal subjects (epinephrine concentration for 50% inhibition, 0.04 +/- 0.01 mumol/L v 0.03 +/- 0.01 mumol/L; P greater than .05). In normal platelets, the concentration of yohimbine (0.18 mumol/L) required for half maximal inhibition of aggregation induced by 2 mumol/L epinephrine was lower than that for inhibition of its effect on adenylate cyclase (1.6 mumol/L). In quin2 loaded platelets, thrombin (0.1 U/mL) stimulated rise in cytoplasmic Ca2+ concentration, [Ca2+]i, was normal in the two patients studied. The PGI2 analog ZK 36,374 completely inhibited thrombin-induced rise in [Ca2+]i; the reversal of this inhibition by epinephrine was normal in the two patients. Thus, despite the impaired aggregation response to epinephrine, platelets from these patients have normal ability to inhibit PGI2-stimulated cAMP levels. These patients with an inherited receptor defect provide evidence that fewer platelet alpha 2-adrenergic receptors are required for epinephrine-induced inhibition of adenylate cyclase than for aggregation.
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PMID:Differential requirements for platelet aggregation and inhibition of adenylate cyclase by epinephrine. Studies of a familial platelet alpha 2-adrenergic receptor defect. 282 17

Lidocaine and vadocaine hydrochloride (2',4'-dimethyl-6'-methoxy-3-(2-methylpiperidyl)propionanilide+ ++ hydrochloride, OR K-242-HCl; INN: vadocaine), which is structurally related to lidocaine, inhibited the second phases of human platelet aggregation induced by adenosine diphosphate (ADP, 10 mumol/l) or epinephrine (10 mumol/l) and partly aggregation induced by collagen (2.5 micrograms) at concentration relevant to local anesthetic action (0.1-1.0 mmol/l). Codeine was effective at slightly higher concentrations. The concomitant formation of thromboxane B2 (TXB2) was inhibited at similar concentrations. The aggregation induced by arachidonic acid (200 mumol/l) and the first phases of ADP (10 mumol/l)- or epinephrine (10 mumol/l)-induced aggregations were inhibited by all the compounds at the concentrations 1-10 mmol/l, codeine being the most potent inhibitor. The only exception was vadocaine, which inhibited the first phase of epinephrine-induced aggregation at concentrations greater than or equal to 0.25 mmol/l. Vadocaine may possess a2-adrenergic blocking activity. At low concentrations (less than or equal to 0.1 mmol/l), all the compounds stimulated/tended to stimulate the second phase of ADP-induced aggregation and concomitant formation of TXB2. They strongly stimulated TXB2 formation induced by exogenous arachidonic acid even at concentrations causing inhibition of aggregation. Codeine was the most and vadocaine the least potent in this respect. Lidocaine as well as vadocaine (0.1 mmol/l) and codeine (1.0 mmol/l) potentiated the antiaggregatory effect of dibutyryl-cyclic AMP (dB-cAMP) on the ADP-induced aggregation. Lidocaine (0.1 mmol/l) and codeine (1.0 mmol/l) similarly potentiated the effect of the adenylate cyclase stimulator prostaglandin E1 (PGE1).
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PMID:Effects of lidocaine, codeine and vadocaine hydrochloride on platelet aggregation in human platelet-rich plasma. 284 87

In a prospective study, platelet aggregation in platelet-rich plasma after ADP stimulation (0.5, 1.0 and 10 mumol/l) and collagen (1 and 5 micrograms/ml) was measured in 36 patients with coronary heart disease, 18 with angina at rest during the eight hours preceding the time of blood sampling, and 18 patients with stable, exercise-dependent angina, matched for age and sex. In addition, c-AMP was determined, before and (as a measure of platelet adenylate cyclase activity) after stimulation of this enzyme by prostaglandin E1 (10 mumol/l for 30 sec). There were no differences between all the tested ADP and collagen concentrations with regard to platelet aggregation. c-AMP levels were also similar. Thus, in patients with unstable angina there was no evidence for generalized hyperaggregation of platelets in comparison with control subjects who had stable exercise-dependent angina.
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PMID:[Thrombocyte function in unstable angina pectoris]. 284 Feb 54


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