Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.2 (guanylate cyclase)
 8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A sequential mechanism for endothelium-dependent vasorelaxation is proposed. The following events appear to be involved: Endothelial cell: activation of a receptor----activation of membrane phospholipases----increase in intracellular free Ca2+----formation of endothelium-derived relaxing factor(s) (EDRF) via a cytochrome P450-dependent epoxygenase or non-enzymatic lipid peroxidation pathway----release of EDRF----diffusion of EDRF to the smooth muscle cell; Smooth muscle cell: activation of guanyl cyclase----activation of protein kinase----protein phosphorylation----dephosphorylation of myosin light chain----relaxation. Relationships between endothelium-dependent and endothelium-independent vasorelaxation are indicated. EDRF-candidates include aldehydes and epoxides.
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PMID:Mechanism of endothelium-dependent vasorelaxation. 286 27

To investigate the effect of cadmium on guanyl cyclase activity, urine levels of the nucleotide cGMP were measured in patients with bone and renal lesions resulting from chronic cadmium exposure, in patients with osteoarthritis and in a normal age-matched control population. The effects of cadmium, zinc and mercury salts on blood mononuclear cell cGMP production were also studied in vitro. The two patient groups exhibited clear differences in cGMP excretion. Lower urine cGMP (59%, P less than 0.01) and creatinine values (43%, P less than 0.01) were found in cadmium-exposed patients and higher cGMP values (56%, P less than 0.05) in patients with osteoarthritis, compared to the control group. Creatinine adjusted cGMP values were also lower in cadmium-exposed patients (28%, P less than 0.05) and higher in patients with osteoarthritis (130%, P less than 0.01). In vitro, a 10 h exposure of mononuclear cells to cadmium or mercury salts depressed guanyl cyclase activity in most experiments. At 10(-4) M, mercury was consistently more inhibitory in all cultures (95%, P less than 0.01). As cadmium has a potential for inhibiting guanyl cyclase activity in human tissue, the low urine cGMP values found in patients with cadmium disease may be attributable to chronic cadmium exposure. High guanyl cyclase activity in patients with osteoarthritis may be associated with inflammation.
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PMID:cGMP levels in chronic cadmium disease and osteoarthritis. 287 27

Insulin imprinting of Tetrahymena pyriformis in different growth phases had been investigated. Cells formed in the early logarithmic phase (18-hour culture) showed enhanced hormone binding at the second encounter with the hormone proving that imprinting had developed. This phenomenon was not observed in cells formed in the late logarithmic phase (42-hour culture) or in the stationary phase (66-hour culture). Lipid transformation processes, alteration of the guanyl cyclase activity and enhanced cell division may be responsible for this effect. Cell-growth phase G1 was especially favourable for development of imprinting.
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PMID:Age of the cell culture: a factor influencing hormonal imprinting of Tetrahymena. 288 56

The muscarinic agonist oxotremorine produced a linear dose-dependent increase in membrane fluidity of intact and viable human lymphocytes in vitro. This effect proved to be receptor-mediated because preincubation with 10(-5)M atropine shifted the dose-response curve one order of magnitude rightward. Pirenzepine preincubation did not affect membrane fluidity variation. A cGMP increase was also found after oxotremorine treatment. The results are discussed in terms of possible modulation of guanyl cyclase and adenyl cyclase through membrane fluidity variations.
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PMID:Intact human lymphocyte membranes respond to muscarinic receptor stimulation by oxotremorine with marked changes in microviscosity and an increase in cyclic GMP. 299 66

Recent studies on endothelium-dependent vasorelaxation have been briefly reviewed and analyzed. The following processes appear to subserve this mechanism: In the endothelial cell: receptor activation, activation of phospholipases, mobilization of intracellular Ca2+, synthesis and release of 'endothelium-derived relaxing factor(s) (EDRF); In the smooth muscle cell: activation of guanyl cyclase and protein kinase, protein phosphorylation/dephosphorylation, relaxation. Alterations of this mechanism could be involved in certain cardiovascular disorders.
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PMID:Endothelium-derived relaxing factor (EDRF). 300 57

Treatment of murine bone marrow cultures with the cholinergic agonist carbamylcholine enhanced megakaryocytic colony growth by as much as 65%. In contrast, adrenergic agonists had no such effect. Addition to cultures of dibutyryl cyclic GMP (db-cGMP) also enhanced megakaryocytic colonies up to 50%, whereas dibutyryl cyclic AMP (db-cAMP) had no effect. Sodium nitroprusside and sodium nitrite, putative guanyl cyclase activators, also enhanced colony numbers, as did imidazole, a postulated cGMP phosphodiesterase inhibitor. Preincubation of marrow for two hours with carbamylcholine resulted both an increase in colony numbers (58%) and percent of progenitors in DNA synthesis (48%, compared to 14% for controls) as determined by tritiated thymidine suicide studies. Treatment of mice with the acetylcholinesterase inhibitor neostigmine resulted in an increase in CFU-M/humerus (62%) and percent in DNA synthesis (45%). These data indicate that 1) cholinergic, but not adrenergic, agonists modulate megakaryocytopoiesis in culture; 2) this effect may be mediated by cyclic GMP; and 3) only a brief period of exposure of marrow cells to agonist results in enhancement of megakaryocytic colonies.
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PMID:Megakaryocytopoiesis in culture: modulation by cholinergic mechanisms. 610 28

The subcellular repartition and the distinctive properties of guanylate cyclase (EC 4.6.1.2) vary according to the lymphocyte population studied and according to the presence of detergent. Guanylate cyclase of non-adherent peripheral lymphocytes and of thymus lymphocytes is recovered by more than 90% in the soluble fraction of the homogenate. Kinetics according to the substrate (5'-GTP-Mn2+) is Michaelian, the Ca2+ ion acts as an activator, especially in the case of blood lymphocytes, and the detergent has no effect on the enzyme activity. On the other hand, the guanylate cyclase of tonsil lymphocytes reside in the particulate fraction. It has non-Michaelian kinetics for the substrate, a strong stimulating effect of detergent, and an inhibitory effect of Ca2+. A comparison of the enzymatic activities of unseparated and of non-adherent tonsil lymphocytes obtained from the same donor points to a correlation between their T and B properties: predominant soluble activity in the T population and particulate guanyl cyclase activity in the B subset.
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PMID:Guanylate cyclase activity of human lymphocytes from peripheral blood, thymus, and tonsils. A comparative study. 613 46

Addition of GM3 (10(-7) or 5.10(-5) M) did not affect the specific activity of adenyl and guanyl cyclase in confluent cultures of C6 glioma cells. Higher concentrations inhibit the cyclases.
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PMID:[Effect of GM3 ganglioside on the adenyl and guanyl cyclase activity of cultured cells]. 615 47

The effect of parathyroid hormone (PTH) on jejunal sodium, calcium, and water transport in situ was studied in thyroparathyroidectomized rats using the ligated loop instillation model. The acute administration of bovine PTH to the animals induced a significant increase in net sodium and water secretion when compared to animals receiving the vehicle only. This effect was due to an increase in unidirectional mucosa-to-lumen sodium flux. However, no change of calcium fluxes was observed. This acute in vivo effect on PTH could not be explained by an action via the adenyl or guanyl cyclase systems since bPTH failed to induce changes of cAMP or cGMP formation in isolated jejunal cells. Thus, other so far not elucidated mechanisms of action must be involved.
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PMID:Effect of parathyroid hormone on jejunal electrolyte and water transport and cyclic nucleotide formation in the rat. 625 5

Acute bacterial diarrheal disease is a worldwide problem of enormous magnitude. In recent years a number of bacteria have been added to the list of recognized etiologic agents causing acute diarrheal disease. This was made possible by our increased understanding of the mechanisms by which such bacteria cause diarrhea and by the development of methods to detect these bacterial enteropathogens. We are now able to define an etiologic agent in 50-80% of cases of acute diarrhea, depending on the particular population. The bacterial agents recently incriminated as important causes of diarrhea include E coli Y. enterocolitica, B. cereus, C. fetus, V. parahemolyticus, and many other coliform organisms. Establishment of an enteric infection depends upon a complex interplay between host defense mechanisms and bacterial virulence factors adapted to overcome these defenses. Bacterial enteropathogens cause diarrhea primarily by elaborating enterotoxins (which also requires the organisms to adhere to the surface of the intestinal cell) and by invading the intestinal mucosa. The number of known bacterial enterotoxins has rapidly increased. Enterotoxins cause intestinal secretion and diarrhea by stimulating the adenyl cyclase system or the guanyl cyclase system and by other mechanisms yet to be defined. The ability of enterotoxigenic bacteria to adhere to the intestine involves a specific binding interaction between bacterial structures called pili or fimbriae and specific receptors on the surface of intestinal cells. Both bacterial pili and the intestinal receptors are under genetic control. A variety of other bacteria, Salmonellae, Shigellae, Y. enterocolitica etc, must invade the mucosa to cause diarrheal disease. The ability to invade is essential to the pathogenesis of disease and requires particular surface characteristics of the bacterium as well as the active participation of both the bacterium and the host cell. The bacteria probably elaborate substances that signal the host cell to initiate the invasive process, i.e. endocytosis. The mechanism by which invasive bacteria evoke intestinal secretion is uncertain but is probably a multifactorial process involving products elaborated by the mucosal acute inflammatory reaction and enterotoxins elaborated by the bacteria.
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PMID:Pathogenesis of acute bacterial diarrheal disorders. 701 73


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