EC:4.6.1.2 - FACTA Search

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Query: EC:4.6.1.2 (guanylate cyclase)
8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent evidence suggests that, like nitric oxide (NO), carbon monoxide (CO), another activator of soluble guanylyl cyclase, may serve as an intercellular messenger in the brain. Heme oxygenase, which converts heme to biliverdin and CO, is abundantly expressed in the brain and is localized to discrete neuronal populations. However, evidence for the actual generation of CO by neurons is lacking. Heme oxygenase-2 immunoreactivity is abundantly present in olfactory receptor neurons where it essentially colocalizes with immunoreactivity to soluble guanylyl cyclase, the target of CO action. To examine the generation of CO by neurons, we measured CO production directly and determined its relationship to cyclic GMP levels in cultured rat olfactory receptor neurons. This system has the advantage of not having measurable NO production, which could confound results since NO is a more potent activator of guanylyl cyclase than CO. Metabolic labeling experiments permitted the direct measurement of 14CO production by neurons in vitro. CO release parallels endogenous cyclic GMP concentrations with its peak at the immature stage of neuronal differentiation in culture. Cyclic GMP production is inhibited by zinc protoporphyrin-9 and zinc deuteroporphyrin IX 2,4-bis glycol, inhibitors of heme oxygenase, indicating that CO is an endogenous regulator of soluble guanylyl cyclase activities in these cells. Transforming growth factor-beta 2, an olfactory neurogenic factor, specifically shows a negative effect on CO release in olfactory receptor neurons. These results indicate that CO may serve as a gaseous neuronal messenger linked to cyclic GMP production and suggests its involvement in developmental processes of the olfactory receptor neuron.
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PMID:Direct demonstration of a physiological role for carbon monoxide in olfactory receptor neurons. 861 55

This study aimed to investigate whether carbon monoxide (CO), a product of heme oxygenase that degrades protoheme IX, serves as an endogenous modulator for biliary transport. To that end, effects of zinc protoporphyrin IX (ZnPP), a heme oxygenase inhibitor, on the biliary transport were tested in perfused rat liver. Perfusion of 1 microM ZnPP abolished detectable levels of CO in the venous perfusate and increased bile acid-dependent bile output accompanying an increased secretion of bile salts. The ZnPP-induced choleresis coincided with a reduction of tissue guanosine 3',5'-cyclic monophosphate (cGMP) levels and a decrease in vascular conductance. On administration of 2.5 microM CO, ZnPP-elicited choleresis, decreases in vascular conductance, and cGMP levels were all attenuated. Treatment with 1 microM 8-bromoguanosine 3',5'-cyclic monophosphate (8-BrcGMP) partly attenuated the ZnPP-induced choleresis in concert with repression of vascular conductance. Furthermore, treatment of the liver with methylene blue, a guanylate cyclase inhibitor, evoked a choleresis similar to that induced by ZnPP. Thus endogenous CO suppression stimulates the biliary transport in part through a cGMP-dependent mechanism.
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PMID:Endogenous carbon monoxide suppression stimulates bile acid-dependent biliary transport in perfused rat liver. 917 39

Recent studies indicate that vascular smooth muscle cells generate carbon monoxide (CO) via the action of heme oxygenase (HO). Because adenosine 3',5'-cyclic monophosphate (cAMP) is an important intracellular signaling molecule in the regulation of vascular cell function, we examined whether this second messenger modulates the expression of HO and the production of CO by rat aortic smooth muscle cells. Treatment of smooth muscle cells with the membrane-permeable cAMP derivative dibutyryl cAMP or with compounds that increase intracellular cAMP levels (isoproterenol and forskolin) resulted in a concentration- and time-dependent increase in the levels of HO-1 mRNA and protein, whereas the expression of HO-2 remained unchanged. Both actinomycin D and cycloheximide blocked the basal expression of HO-1 mRNA and protein and prevented the cAMP-mediated induction of HO-1. Incubation of platelets with cAMP-treated smooth muscle cells resulted in a significant increase in platelet cGMP concentration that was partially reversed by treatment of smooth muscle cells with the nitric oxide synthase inhibitor NG-monomethyl-L-arginine or the HO blocker zinc protoporphyrin-IX. However, the combined addition of these two inhibitors to cAMP-treated smooth muscle cells or the addition of the CO and NO scavenger hemoglobin to platelets completely blocked the stimulatory effect on platelet cGMP levels. These results demonstrate that cAMP induces the expression of the HO-1 gene and stimulates the formation of CO and NO in vascular smooth muscle cells. The capacity of cAMP to induce the synthesis of guanylate cyclase-stimulatory CO from smooth muscle cells may represent a novel mechanism by which this nucleotide regulates vascular tone.
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PMID:cAMP induces heme oxygenase-1 gene expression and carbon monoxide production in vascular smooth muscle. 924 6

Calcium-dependent guanylate cyclase activator protein (CD-GCAP) is a low-molecular-weight retinal calcium-binding protein which activates rod outer segment guanylate cyclase (ROS-GC) in a calcium-dependent manner. This investigation was undertaken to determine the protein's structure and identity. Partial amino acid sequencing (72% of the protein), mass spectral analysis, cloning, and immunological studies revealed that CD-GCAP is identical to S100beta, another low-molecular-weight calcium-binding protein whose structure was known. We had shown earlier that the latter protein, which is usually called S100b (S100betabeta or dimer of S100beta), also activates ROS-GC but that the Vmax of activated cyclase was about 50% lower than when stimulated by CD-GCAP. S100b also required about 15 times more calcium (3.2 x 10(-)5 vs 1.5 x 10(-)6 M) for half-maximal stimulation of cyclase. To investigate the possibility that CD-GCAP is a post-translationally modified form of S100b, both proteins were treated with 1 M hydroxylamine which is known to deacylate proteins. After the treatment, CD-GCAP did not activate cyclase while S100b activation remained unaffected suggesting that CD-GCAP could not be a modified form of S100b. Hydroxylamine also broke down CD-GCAP into smaller fragments while leaving S100b intact. It therefore appeared that in spite of identical primary structures, the conformations of the two proteins were different. We then investigated the possibility that the purification procedures of the two proteins, which were quite different, could have contributed to such conformational differences: CD-GCAP purification included a step of heating at 75 degrees C in 5 mM Ca, while S100b purification included zinc affinity chromatography. To test the influence of these treatments on the properties of the proteins, CD-GCAP was subjected to zinc affinity chromatography and purified as S100b (CD-GCAP-->S100b) and S100b was heated in Ca and purified as CD-GCAP (S100b-->CD-GCAP). Cyclase activation, calcium-sensitivity, and hydroxylamine-lability measurements revealed that CD-GCAP-->S100b is identical to S100b and that S100b-->CD-GCAP is identical to CD-GCAP. Taken together the results demonstrate that CD-GCAP and S100b are one and the same protein and that their functional differences are due to different interconvertible conformational states.
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PMID:Structural and functional characterization of retinal calcium-dependent guanylate cyclase activator protein (CD-GCAP): identity with S100beta protein. 936 88

Carbon monoxide (CO), an activator of soluble guanylate cyclase and generated enzymatically by heme oxygenase-2 (HO-2), is thought to function as an intra- and intercellular neurotransmitter in the central and peripheral nervous system. In the present study, the distribution of HO-2 in airway nerves from both humans and guinea pigs was assessed. HO-2 was found in all neuronal perikarya of the intrinsic ganglia of guinea-pig airways and in all ganglion nerve cell bodies localized to the trachea and bronchi of humans. By contrast, nerve fibers innervating the smooth muscle, lamina propria, and epithelium of the airways in both species were devoid of HO-2 immunoreactivity. HO-1, the inducible isoform of heme oxygenase, was not found in airway nerves. The pattern of distribution of HO-2 observed suggests that CO might serve as a modulator of synaptic neurotransmission in the lung and airways rather than as a bona fide neurotransmitter in the smooth muscle, vasculature, or glands. Consistent with this hypothesis, 8-bromo-cyclic guanosine monophosphate (cGMP) (30 microM), a stable, pharmacologically active analog of cGMP, markedly inhibited vagally-mediated cholinergic contractions of the isolated guinea-pig trachea. In subsequent studies, however, neither inhibiting heme oxygenase with zinc protoporphyrin-IX (30 microM) nor inhibiting the soluble isoform of guanylate cyclase with ODQ (3 microM) had measurable effects on vagally-mediated cholinergic contractions of the trachea. These results indicate that CO could play a modulatory role in efferent (parasympathetic) synaptic neurotransmission in the airways, but under normal conditions may not be activated to an appreciable extent during periods of elevated vagal activity.
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PMID:Localization of heme oxygenase-2 immunoreactivity to parasympathetic ganglia of human and guinea-pig airways. 947 16

This study was performed in the opossum lower esophageal sphincter (LES) smooth muscle strips to determine the action of the heme oxygenase inhibitor zinc protoporphyrin IX (ZnPP IX) on the relaxant effect of vasoactive intestinal polypeptide and isoproterenol, which are known to stimulate adenylate cyclase (AC) via G protein coupling, and of the direct activator of AC catalytic subunit forskolin. To investigate the cGMP pathway, we examined the effect of atrial natriuretic factor known to activate the receptor linked to the particulate guanylate cyclase via G protein coupling and that of sodium nitroprusside [nitric oxide (NO) donor], authentic NO and carbon monoxide, which stimulate the intracellular soluble fraction of GC. The smooth muscle relaxation caused by nonadrenergic noncholinergic (NANC) nerve stimulation also was investigated. ZnPP IX caused concentration-dependent attenuation of the relaxant effect of vasoactive intestinal polypeptide, isoproterenol and atrial natriuretic factor without any effect on that of forskolin, sodium nitroprusside, NO and CO. Interestingly, ZnPP IX had no significant effect on the LES relaxation caused by NANC nerve stimulation and the smooth muscle contraction by bethanechol. From these results, we conclude that ZnPP IX attenuates the LES smooth muscle relaxation caused by the stimulation of G protein-coupled receptors to particulate AC and guanylate cyclase. The lack of effect of ZnPP IX on the NANC nerve-mediated LES relaxation suggests either lack of a role of heme oxygenase pathway in the response or an upregulation of NOS leading to normal LES relaxation.
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PMID:Inhibitory effect of zinc protoporphyrin IX on lower esophageal sphincter smooth muscle relaxation by vasoactive intestinal polypeptide and other receptor agonists. 958 May 85

As observed with nitric oxide (NO), carbon monoxide (CO) binds and may activate soluble guanylate cyclase and increase cGMP levels in smooth muscle cells in vitro. Because inhaled NO (I(NO)) causes potent and sustained pulmonary vasodilation, we hypothesized that inhaled CO (I(CO)) may have similar effects on the perinatal lung. To determine whether I(CO) can lower pulmonary vascular resistance (PVR) during the perinatal period, we studied the effects of I(CO) on late-gestation fetal lambs. Catheters were placed in the main pulmonary artery, left pulmonary artery (LPA), aorta, and left atrium to measure pressure. An ultrasonic flow transducer was placed on the LPA to measure blood flow to the left lung. After baseline measurements, fetal lambs were mechanically ventilated with a hypoxic gas mixture (inspired O(2) fraction < 0.10) to maintain a constant fetal arterial PO(2). After 60 min (baseline), the lambs were treated with I(CO) [5-2,500 parts/million (ppm)]. Comparisons were made with I(NO) (5 and 20 ppm) and combined I(NO) (5 ppm) and I(CO) (100 and 2,500 ppm). We found that I(CO) did not alter left lung blood flow or PVR at any of the study doses. In contrast, low-dose I(NO) decreased PVR by 47% (P < 0.005). The combination of I(NO) and I(CO) did not enhance the vasodilator response to I(NO). To determine whether endogenous CO contributes to vascular tone in the fetal lung, zinc protoporphyrin IX, an inhibitor of heme oxygenase, was infused into the LPA in three lambs. Zinc protoporphyrin IX had no effect on baseline PVR, aortic pressure, or the pressure gradient across the ductus arteriosus. We conclude that I(CO) does not cause vasodilation in the near-term ovine transitional circulation, and endogenous CO does not contribute significantly to baseline pulmonary vascular tone or ductus arteriosus tone in the late-gestation ovine fetus.
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PMID:Inhaled carbon monoxide does not cause pulmonary vasodilation in the late-gestation fetal lamb. 1074 55

The endocrine function of the heart is to secrete Atrial and Brain natriuretic -peptides (ANP and BNP). These peptides are biologically active via particulate guanylate cyclases which generate cyclic GMP, the second intracellular messenger. A polysaccharide antagonist, HS-142-1 has been recently described by a Japanese Group. Cyclic GMP is partly secreted from the target cells into the extra cellular medium in which its accumulation is proportional to the concentration of the natriuretic peptide. Neutral Endopeptidase (NEP) is a zinc ectoenzyme involved in the catabolism of natriuretic peptides. NEP is absent in plasma but present on the surface of endothelial and smooth muscle cells. NEP is mainly expressed at the apical pole of the epithelial cells of the proximal tubule in the nephron. Chronic increase in volume and pressure within the cardiac cavities is associated with the oversecretion of natriuretic peptides. This chronic phenomenon involves the recruitment of all the cardiac myocytes to express natriuretic peptide genes. The clinical application of this hyperplasic phenomenon is congestive heart failure, in which the plasma levels of natriuretic peptides correlate with the level of the -hemodynamic stress. Therefore the plasma levels of natriuretic peptides are good pronostic markers in both experimental and human heart failure. The degree of congestive heart failure as well as the plasma levels of ANP and BNP are also -correlated with the plasma and urinary levels of cyclic GMP. The plasma level of -cyclic GMP is correlated with the endothelial concentration of cyclic GMP but not with the cyclic GMP concentration in smooth muscle cells. From these experimental data, we can conclude that plasma cyclic GMP originates from endothelial cells and is related to particulate guanylate cyclase activity. In contrast natriuretic peptides do not modulate vascular wall cyclic GMP content. The natriuretic action of ANP is probably due to the interaction of the filtered peptide with the particulate guanylate cyclase at the apical pole of the epithelial cells. The apparition of peptiduria associated with natriuresis during NEP inhibition provides evidence of the action of the peptide in the urinary compartment. It is also by a urinary pathway via the macula densa that ANP, and its potentiation by NEP inhibition, decreases renin secretion. The fact that plasma levels of ANP and plasma and urine levels of cyclic GMP correlate with the degree of salt retention in congestive heart failure, provides evidence for chronic desensitization of the system. An up-regulation of Na(+), K(+), 2Cl(-) expression associated with experimental congestive heart failure has recently been shown. Similarly, a modulation of the different sodium transporter systems along the nephron could be one of the counter-regulations leading to desensitization to natriuretic peptides. In conclusion, natriuretic peptides are true endocrine peptides, secreted by the heart, transported in the plasma, filtered by the glomeruli and active at the nephron level. The molecular effector of ANP and cyclic GMP in the epithelial cells is probably the G-kinase II, isoform phosphorylating the cystic fibrosis transmembrane conductance regulator (CFTR). The exact mechanism of desensitization remains to be elucidated.
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PMID:[Functional compartmentation of the endocrine action of cardiac natriuretic peptides]. 1079 May 90

The regulation of gene expression by nutrients plays an important role in the overall manifestations of nutritional deficiencies. Insufficient intakes of dietary micronutrients, such as zinc, produce profound effects in multiple organs and tissues. One of the major challenges, however, is to identify genes affected by changes in nutritional status. Differential display of mRNA has proved to be a valuable technique in meeting this challenge. In our ongoing search for genes responsive to dietary zinc, we compared small intestinal mRNA from rats that were fed zinc-deficient or -adequate diets using differential display to generate 3' anchored expressed sequence tags (EST). EST for intestinal mRNAs with altered expression due to zinc deficiency include two peptide hormones, intestinal fatty acid binding protein, intestinal alkaline phosphatase II, a proteasomal ATPase, cis-Golgi p28 and two subunits of the ubiquinone oxidoreductase. The EST for one of the hormones yielded the sequence for the 3' end of an mRNA encoding preprouroguanylin and was used to clone the remaining portion of the rat cDNA via 5' rapid amplification of cDNA ends. Northern blot analysis of RNA from rat intestine demonstrated that preprouroguanylin mRNA was 2.5-fold more abundant during zinc deficiency. Uroguanylin, a natriuretic peptide hormone, is an endogenous ligand for the same guanylate cyclase C that the Escherichia coli heat-stable enterotoxin (STa) binds when it causes secretory diarrhea by activating the cystic fibrosis transmembrane conductance regulator, thus altering fluid balance in the intestine. This suggests a mechanism whereby zinc deficiency could induce uroguanylin levels in the intestine and cause or potentiate diarrhea.
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PMID:Regulation of intestinal gene expression by dietary zinc: induction of uroguanylin mRNA by zinc deficiency. 1080 50

We have recently reported that the central heme oxygenase (HO) pathway has an important role in the genesis of lipopolysaccharide fever. However, the HO product involved, i.e., biliverdine, free iron, or carbon monoxide (CO), has not yet been identified with certainty. Therefore, in the present study, we tested the thermoregulatory effects of all HO products. Body core temperature (T(c)) and gross activity of awake, freely moving rats was measured by biotelemetry. Intracerebroventricular administration of heme-lysinate (152 nmol), which induces the HO pathway, evoked a marked increase in T(c), a response that was attenuated by intracerebroventricular pretreatment with the HO inhibitor zinc deuteroporphyrin 2,4-bis glycol (200 nmol), indicating that an HO product has a pyretic action in the central nervous system (CNS) of rats. Besides, heme-lysinate also increased gross activity, but no correlation was found between this effect and the increase in T(c). Moreover, intracerebroventricular biliverdine or iron salts at 152 nmol, a dose at which heme-lysinate was effective in increasing T(c), produced no change in T(c). Accordingly, intracerebroventricular treatment with the iron chelator deferoxamine elicited no change in basal T(c) and did not affect heme-induced pyresis. However, heme-induced pyresis was completely prevented by the soluble guanylate cyclase (sGC) inhibitor 1H-[1,2,4]oxadiazolo[4,3,-a]quinoxaline-1-one. Because biliverdine and iron had no thermoregulatory effects and CO produces most of its actions via sGC, these data strongly imply that CO is the only HO product with a pyretic action in the CNS.
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PMID:Carbon monoxide is the heme oxygenase product with a pyretic action: evidence for a cGMP signaling pathway. 1120 74

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