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)

The aim of this study was to clarify the role of Gram-positive organisms in the genesis of sepsis. In the present study, we investigated the effect of lipoteichoic acid (LTA) from the cell wall of Staphylococcus aureus on contractions elicited by norepinephrine (NE) in rings cut from human gastroepiploic arteries. LTA diminished the contractile response to NE. This attenuation began after several hours of exposure, whether or not endothelium was present. The cyclic guanosine monophosphate content of LTA-treated rings was higher than that of control rings, whether there was a functional endothelium. These LTA-mediated responses were reduced significantly by inhibitors of nitric oxide (NO) synthase and guanylate cyclase. All of this indicates that the main underlying cause of the vascular hyporeactivity to NE was a massive generation of No. In addition, cycloheximide, an inhibitor of inducible NO synthase, prevented the attenuation of NE-induced contractions caused by LTA. Thus, our results offer strong supporting evidence that the important factor in the genesis by Gram-positive organisms of a diminished contractile response to pressor drugs is their induction of inducible NO synthase in smooth muscle.
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PMID:Lipoteichoic acid from Staphylococcus aureus depresses contractile function of human arteries in vitro due to the induction of nitric oxide synthase. 861 Sep 4

1. Induction of nitric oxide synthase (iNOS) results in overproduction of nitric oxide (NO), which may be a principal cause of the massive vasodilatation and hypotension observed in septic shock. Since NO-induced vasorelaxation is mediated via the soluble isoform of guanylate cyclase (sGC), the regulation of sGC activity during shock is of obvious importance, but yet poorly understood. The aim of the present study was to investigate the activation of sGC by sodium nitroprusside (SNP) before and after exposure of rat aortic smooth muscle cells to endotoxin (LPS) or interleukin-1 beta (IL-1 beta). 2. Exposure of rat aortic smooth muscle cells to SNP (10 microM) elicited up to 200 fold increases in cyclic GMP. This effect was attenuated by 30-70% in IL-1 beta- or LPS-pretreated cells, in a pretreatment time-and IL-1 beta- or LPS-concentration-dependent manner. When, however, cells were exposed to IL-1 beta or LPS and then stimulated with the particulate guanylate cyclase activator, atriopeptin II, no reduction in cyclic GMP accumulation was observed. 3. Pretreatment of rats with LPS (5 mg kg-1, i.v.) for 6 h led to a decrease in aortic ring SNP-induced cyclic GMP accumulation. 4. The IL-1 beta-induced reduction in SNP-stimulated cyclic GMP accumulation in cultured cells was dependent on NO production, as arginine depletion abolished the downregulation of cyclic GMP accumulation in response to SNP. 5. Reverse-transcriptase-polymerase chain reaction analysis revealed that the ratio of steady state mRNA for the alpha, subunit of sGC to glyceraldehyde phosphate dehydrogenase was decreased in LPS- or IL-1 beta-treated cells, as compared to vehicle-treated cells. 6. Protein levels of the alpha 1 sGC subunit remained unaltered upon exposure to LPS or IL-1 beta, suggesting that the early decreased cyclic GMP accumulation in IL-1 beta- or LPS-pretreated cells was probably due to reduced sGC activation. Thus, the observed decreased responsiveness of sGC to NO stimulation following cytokine or LPS challenge may represent an important homeostatic mechanism to offset the extensive vasodilatation seen in sepsis.
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PMID:Downregulation of nitrovasodilator-induced cyclic GMP accumulation in cells exposed to endotoxin or interleukin-1 beta. 883 57

Nitric oxide has been determined to be a potential mediator of the haemodynamic changes associated with sepsis. The haemodynamic eects of nitric oxide can be partially antagonised by methylene blue, through inhibition of the enzyme, guanylate cyclase. The case report presented here demonstrates a beneficial haemodynamic eect of continuous infusion of methylene blue during sepsis. These findings could be extrapolated to other patients or prompt additional research.
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PMID:Continuous infusion of methylene blue for septic shock. 897 44

Inhaled nitric oxide (iNO) causes selective pulmonary vasodilation and improves oxygenation in patients with the adult respiratory distress syndrome (ARDS). Approximately 30% of ARDS patients fail to respond to iNO. Because sepsis syndrome often accompanies a decreased response to iNO, we investigated NO responsiveness in isolated, perfused lungs from rats exposed to lipopolysaccharide (LPS). Eighteen hours after intraperitoneal injection of 0.5 mg/kg LPS, rat lungs were isolated, perfused, and preconstricted with U-46619. Ventilation with 0.4, 4, and 40 parts per million by volume NO vasodilated LPS-pretreated lungs 75, 47, and 42% less than control lungs (P < 0.01 value differs at each concentration). The diminished vasodilatory response to iNO was associated with decreased NO-stimulated guanosine 3',5'-cyclic monophosphate (cGMP) release into the perfusate. Soluble guanylate cyclase activity did not differ in lung extracts from LPS-pretreated and control rats. LPS increased pulmonary cGMP-phosphodiesterase (PDE) activity by 40%. The PDE-sensitive cGMP analogue 8-bromoguanosine 3',5'-cyclic monophosphate vasodilated lungs from LPS-pretreated rats less than lungs from control rats. In contrast, the PDE-insensitive 8-para-chlorophenylthioguanosine 3',5'-cyclic monophosphate vasodilated lungs equally from both groups. After LPS challenge, the rat pulmonary vasculature becomes hyporesponsive to iNO. Hyporesponsiveness to iNO appears partly attributable to increased pulmonary cGMP-PDE activity.
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PMID:Hyporesponsiveness to inhaled nitric oxide in isolated, perfused lungs from endotoxin-challenged rats. 899 69

Excess NO generation plays a major role in the hypotension and systemic vasodilatation characteristic of sepsis. Yet the kidney response to sepsis is characterized by vasoconstriction resulting in renal dysfunction. We have examined the roles of inducible nitric oxide synthase (iNOS) and endothelial NOS (eNOS) on the renal effects of lipopolysaccharide administration by comparing the effects of specific iNOS inhibition, -N6-(1-iminoethyl)lysine (L-NIL), and 2,4-diamino6-hydroxy-pyrimidine vs. nonspecific NOS inhibitors (nitro- -arginine-methylester). cGMP responses to carbamylcholine (CCh) (stimulated, basal) and sodium nitroprusside in isolated glomeruli were used as indices of eNOS and guanylate cyclase (GC) activity, respectively. LPS significantly decreased blood pressure and GFR (112+/-4 vs. 83+/-4 mmHg; 2.66+/-0.29 vs. 0. 96+/-0.22 ml/min, P < 0.05) and inhibited the cGMP response to CCh. GC activity was reciprocally increased. L-NIL and 2, 4-diamino-6-hydroxy-pyrimidine administration prevented the decrease in GFR (2.71+/-0.28 and 3.16+/-0.18 ml/min, respectively), restored the normal response to CCh, and GC activity was normalized. In vitro application of L-NIL also restored CCh responses in LPS glomeruli. Neuronal NOS inhibitors verified that CCh responses reflected eNOS activity. L-NAME, a nonspecific inhibitor, worsened GFR (0.41+/-0.15 ml/min), a reduction that was functional and not related to glomerular thrombosis, and eliminated the CCh response. No differences were observed in eNOS mRNA expression among the experimental groups. Selective iNOS inhibition prevents reductions in GFR, whereas nonselective inhibition of NOS further decreases GFR. These findings suggest that the decrease in GFR after LPS is due to local inhibition of eNOS by iNOS, possibly via NO autoinhibition.
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PMID:Inhibition of constitutive nitric oxide synthase (NOS) by nitric oxide generated by inducible NOS after lipopolysaccharide administration provokes renal dysfunction in rats. 921 22

The hemodynamic effects of sepsis have been attributed in part to increased nitric oxide (NO) production and activation of guanylate cyclase, resulting in increased cGMP and relaxation of vascular smooth muscle. Heme oxygenase-1 (HO-1), a heat shock protein, has been shown to increase intracellular cGMP levels by formation of carbon monoxide (CO). We hypothesized that HO may be an important mediator of the hepatic response to infection. Male Swiss Webster mice underwent standard cecal ligation and puncture (CLP, 18 gauge 2X) or sham operation, and received either normal saline (NS) or Zn protoporphyrin IX (ZN PP IX), a competitive HO inhibitor (n = 6-8/group). Hepatic tissue samples were collected at 3, 6, 12, and 24 hr from separate mice. Serum was collected at 3 and 24 hr. A semiquantitative reverse transcriptase polymerase chain reaction method was used to measure HO-1 mRNA levels. Hepatic cGMP levels were measured by ELISA. Groups were repeated (n = 10/group) to assess mortality. Serum was collected at 3 and 24 hr to measure serum aspartate aminotransferase (AST) levels. HO-1 mRNA expression increased significantly by 3 hr after CLP and with HO inhibition alone (P < 0.05 vs sham + NS). HO-1 mRNA remained elevated through 24 hr. CLP animals with HO inhibition showed a significant reduction of hepatic cGMP following CLP compared with CLP + saline at 24 hr (P < 0.05). Mortality was significantly increased in the CLP + ZN PP group at 24 hr (P < 0.05 CLP NS vs CLP ZN PP). CLP caused a marked increase in AST activity, which was increased further with HO inhibition. HO-1 mRNA expression was induced by CLP. AST levels following CLP were markedly increased with HO inhibition. HO-1 function appeared to contribute to elevation of hepatic cGMP during peritonitis and may be an important hepatic adaptive response to infection.
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PMID:Heme oxygenase-dependent carbon monoxide production is a hepatic adaptive response to sepsis. 927 Dec 71

Nitric oxide (NO) is a mediator that modulates vessel wall tone and hemostatic-thrombotic balance. Platelet function is regulated by NO generated from platelets, endothelial cells and leukocytes. Nitric oxide has been shown to inhibit platelet adhesion, aggregation, and stimulate disaggregation of preformed platelet aggregates. Many of the effects of NO are mediated by its stimulation of guanylate cyclase and the formation of cyclic GMP and its subsequent transduction mechanism. In vivo, NO is likely to interact with prostacyclin, metabolites of ecto-nucleotidase, and lipoxygenase to modulate platelet function in a synergistic manner. An imbalance of NO production (deficiency or overproduction) has been implicated in the pathogenesis of various vascular disorders including thrombosis, atherosclerosis, septicemia, and ischemia-reperfusion injury. It is likely that some of detrimental effects of NO are mediated through its reaction with superoxide anion to form the potent oxidant, peroxynitrite. Nitric oxide gas and NO donors are used for the pharmacological treatment of various vascular disorders. Because inhaled NO has been documented to improve systemic oxygenation and reduce the need for extracorporeal membrane oxygenation, it has been widely used in neonates with severe hypoxemia. An inhibition of platelet function, resulting in a prolonged bleeding time, has been shown in adults receiving inhaled NO. Because bleeding complications may occur in high-risk infants, it is important to evaluate the effect of inhaled NO on platelet function and its correlation with clinical consequences such as intracranial hemorrhage. For these reasons, hemostasis should be carefully monitored during the administration of inhaled NO to critically ill neonates.
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PMID:Nitric oxide and platelet function: implications for neonatology. 935 13

It is now just 10 years since it was first appreciated that NO is endogenously synthesized in mammals. In this period, two constitutive and one inducible isoform of NOS have been isolated, sequenced, and characterized with respect to their protein chemistry and catalytic mechanism. A wide variety of NOS inhibitors, most targeted to the arginine binding site in the oxygenase domain, have been synthesized and used to elucidate the physiological and pathophysiological roles of NO. It is now clear that NO is involved in signal transduction (e.g., in neurotransmission and blood pressure homeostasis), and that these roles are mediated by low concentrations of NO synthesized by nNOS or eNOS. The NO receptor is the heme cofactor of soluble isoform of guanylyl cyclase. Higher amounts of NO, typically but not always synthesized by iNOS, are often cytotoxic. At a minimum, high concentrations of NO derange the signal transduction pathways normally served by nNOS or eNOS. In addition, NO or its nitrosative products (RSNO, N2O3, or ONOO-) inhibit or damage cellular constituents, interfering with DNA synthesis, energy metabolism, and the structural integrity of the cell. Such cytotoxicity can be beneficial to the host if pathogens or tumor cells are destroyed, but is detrimental to the host if it results in inappropriate inflammation, hypotension, or immunosuppression. Therapeutic utility of NOS inhibitors has been demonstrated in sepsis and cytokine-induced hypotension; additional applications are being identified in a treatment of inflammatory and autoimmune disorders.
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PMID:Design of nitric oxide synthase inhibitors and their use to reverse hypotension associated with cancer immunotherapy. 938 71

The mechanism underlying smooth muscle relaxations of cerebral arteries in response to nitric oxide is still not completely understood. The present study was designed to determine the role of soluble guanylate cyclase in the relaxations to a nitric oxide/nucleophile complex, diethylaminodiazen-1-ium-1,2-dioate (DEA-NONOate). Rings of canine middle cerebral arteries without endothelium were suspended in Krebs-Ringer bicarbonate solution for isometric tension recording. The levels of guanosine 3',5'-cyclic monophosphate (cyclic GMP) were measured by radioimmunoassay technique. During contractions to uridine 5'-triphosphate (UTP), DEA-NONOate (10(-10) to 10(-5) M) caused concentration-dependent relaxations. Measurements of cyclic GMP levels in cerebral arterial wall demonstrated that DEA-NONOate is a potent stimulator of guanylate cyclase and subsequent formation of cyclic GMP. Increasing concentrations of a selective soluble guanylate cyclase inhibitor, 1H-[1,2,4]-oxadiazolo[4,3-a]quinoxalin-1-one (ODQ), caused concentration-dependent reduction of both cyclic GMP production and relaxations to DEA-NONOate. Interestingly, in the presence of the highest concentration (3 x 10(-6) M) of ODQ, production of cyclic GMP in response to 10(-6) M of DEA-NONOate was abolished, whereas the same concentration of DEA-NONOate caused almost complete relaxation, suggesting that mechanisms independent of cyclic GMP production may mediate relaxing effect of high concentration of a nitric oxide donor. A selective Ca2+-activated potassium channel blocker charybdotoxin (CTX) significantly reduced relaxations to DEA-NONOate resistant to ODQ, supporting the idea that in cerebral arteries nitric oxide may activate potassium channels independently of cyclic GMP. The results of our study suggest that under physiological conditions, guanylate cyclase is a key mediator of cerebral arterial relaxations to nitric oxide. However, under pathological conditions associated with induction of nitric oxide synthase and increased biosynthesis of nitric oxide (e.g., cerebral ischemia, inflammation, sepsis), mechanisms other than formation of cyclic GMP may be activated.
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PMID:The effect of 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (ODQ) and charybdotoxin (CTX) on relaxations of isolated cerebral arteries to nitric oxide. 952 59

To investigate the role of nitric oxide in human sepsis, ten patients with severe septic shock requiring vasoactive drug therapy and mechanical ventilation were enrolled in a prospective, open, non-randomized clinical trial to study the acute effects of methylene blue, an inhibitor of guanylate cyclase. Hemodynamic and metabolic variables were measured before and 20, 40, 60, and 120 min after the start of a 1-h intravenous infusion of 4 mg/kg of methylene blue. Methylene blue administration caused a progressive increase in mean arterial pressure (60 [55-70] to 70 [65-100] mmHg, median [25-75th percentiles]; P<0.05), systemic vascular resistance index (649 [479-1084] to 1066 [585-1356] dyne s-1 cm-5 m-2; P<0.05) and the left ventricular stroke work index (35 [27-47] to 38 [32-56] g m-1 m-2; P<0.05) from baseline to 60 min. The pulmonary vascular resistance index increased from 150 [83-207] to 186 [121-367] dyne s-1 cm-5 m-2 after 20 min (P<0.05). Mixed venous saturation decreased from 65 [56-76] to 63 [55-69]% (P<0.05) after 60 min. The PaO2/FiO2 ratio decreased from 168 [131-215] to 132 [109-156] mmHg (P<0.05) after 40 min. Arterial lactate concentration decreased from 5.1 +/- 2.9 to 4.5 +/- 2.1 mmol/l, mean +/- SD (P<0.05) after 60 min. Heart rate, cardiac filling pressures, cardiac output, oxygen delivery and consumption did not change. Methylene blue administration was safe and no adverse effect was observed. In severe human septic shock, a short infusion of methylene blue increases systemic vascular resistance and may improve myocardial function. Although there was a reduction in blood lactate concentration, this was not explained by an improvement in tissue oxygenation, since overall oxygen availability did not change. However, there was a significant increase in pulmonary vascular tone and a deterioration in gas exchange. Further studies are needed to demonstrate if nitric oxide blockade with methylene blue can be safe for patients with septic shock and, particularly, if it has an effect on pulmonary function.
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PMID:Blockade of the action of nitric oxide in human septic shock increases systemic vascular resistance and has detrimental effects on pulmonary function after a short infusion of methylene blue. 1058 32


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