EC:1.14.13.39 - FACTA Search

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Query: EC:1.14.13.39 (NO synthase)
15,778 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric oxide (NO) is a vasodilator produced under normal physiologic conditions primarily by the vascular endothelium lining all blood vessels. The primary stimulus for the production of nitric oxide by the constitutive endothelial nitric oxide synthase (ECNOS, Type II) found in blood vessels is most likely the shear stress, the frictional force, caused by blood flowing through blood vessels. During exercise there is an increase in cardiac output and redistribution of blood flow to increase blood flow in skeletal muscle and in the coronary circulation. These adjustments provide increased oxygen delivery to support aerobic energy production and to sustain the exercise response. NO may be involved in the regulation of vascular tone in exercising skeletal and cardiac muscle by promoting, enhancing the metabolic vasodilation. In addition, the production of NO by capillary endothelium may regulate oxygen consumption by mitochondria through chemical interactions between NO and the iron-sulfur center of these enzymes. Finally, brief exercise training may alter the gene expression for the enzyme, the constitutive endothelial NO synthase, which forms NO and may be part of the vascular adaptation seen after aerobic exercise training. Furthermore, if there is a genetic predisposition to produce NO, as in world class athletes or animals bred to race, NO may contribute to spectacular exercise performance. These three potential roles of NO will be discussed and data presented to support each of these in our review.
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PMID:Nitric oxide production and NO synthase gene expression contribute to vascular regulation during exercise. 747 56

The three isoforms of nitric oxide synthase (NOS), neuronal (nNOS), endothelial (eNOS), and inducible (iNOS), can be visualized in cells and tissues by NADPH-diaphorase (NADPH-d) histochemistry, immunocytochemistry and in situ hybridization. Histochemical demonstration of NADPH-d shows the formazan final reaction product as a solid blue deposit. The ultrastructural localization of NADPH-d in the rat hippocampus showed an electron-dense deposit on membranes predominantly of the endoplasmic reticulum. The immunohistochemical demonstration of nNOS, using the nickel enhancement technique, shows positive reaction product over the dendrites and the soma of the nerve cell in the rat brain. Ultrastructural localization of nNOS in whole mount preparations of myenteric plexus and circular smooth muscle from guinea-pig ileum shows that NOS immunoreactivity was patchily distributed in myenteric neurones and was not specifically associated with any intracellular organelles or with plasma membranes. In situ hybridization, using radio-labelled probes, was used to study nNOS mRNA in lumbar dorsal root ganglia after peripheral transection of the sciatic nerve in rats. Labelling of the NOS mRNA-positive neurones is observed as a series of dense granules over the entire cell. NADPH-d histochemistry, immunocytochemistry and in situ hybridization each have a significant role to play in the localization of NOS. NADPH-d detects an enzyme associated with the NOS molecule, immunocytochemistry detects the NOS molecule, and in situ hybridization detects mRNA for NOS. Therefore, if each of these techniques is applied in carefully controlled experiments, consideration of the accumulated data should be valuable in revealing insights into the biology of NOS.
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PMID:Histochemical methods for detecting nitric oxide synthase. 857 39

NADPH-diaphorase (NADPH-D) activity and immunoreactivity for neural and endothelial nitric oxide synthase (nNOS and eNOS, respectively) were used to investigate nitric oxide (NO) regulation of penile vasculature. Both the histochemical and immunohistochemical techniques for NOS showed that all smooth muscles regions of the penis (dorsal penile artery and vein, deep penile vessels, and cavernosal muscles) were richly innervated. The endothelium of penile arteries, deep dorsal penile vein, and select veins in the crura and shaft were also stained for NADPH-D and eNOS. However, the endothelium of cavernous sinuses was unstained by both techniques. Fewer fibers were seen in the glans penis, those present being associated with small blood vessels and large nerve bundles near the trabecular walls. All penile neurons in the pelvic plexus, located by retrograde transport of a dye placed in the corpora cavernosa penis, were stained by the NADPH-D method. Essentially similar results were obtained with an antibody to nNOS. These data suggest that penile parasympathetic neurons comprise a uniform population, as all seem capable of forming nitric oxide. However, in contrast to the endothelium of penile vessels, the endothelium lining the cavernosal spaces may not be capable of nitric oxide synthesis.
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PMID:Neural and endothelial nitric oxide synthase activity in rat penile erectile tissue. 858 13

The trophoblast invasion of uteroplacental arteries in the guinea pig has been studied by means of electron microscopy and immunohistochemisty. To identify trophoblast cells, smooth muscle cells, and endothelial cells, antibodies against cytokeratins, smooth muscle myosin, desmin, and vimentin were employed. Furthermore, the immunohistochemical expression patterns of nitric oxide synthase isoforms (eNOS, mNOS and bNOS) were studied and were compared with the enzyme histochemical staining for NADPH-diaphorase. Dilation of uteroplacental arteries begins prior to day 30, when trophoblast cells that coexpress endothelial and macrophage nitric oxide synthase can be found in the vicinity of the vessels and replace the surrounding peritoneal mesothelium. Trophoblast invasion of the arterial walls and the subsequent wall destruction are only secondary effects. Starting around day 50, the final steps of pregnancy-dependent vessel modifications involve intraarterial trophoblast adhesion to the endothelium and subsequent replacement of the endothelium by the trophoblast cells. These may centrifugally invade the vessel media eventually forming intraluminal plugs. These findings led us to the conclusion that in the guinea pig pregnancy-induced physiological dilation of the uteroplacental arteries is due to the effect of nitric oxide rather than being caused by trophoblast-induced media destruction.
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PMID:Physiological dilation of uteroplacental arteries in the guinea pig depends on nitric oxide synthase activity of extravillous trophoblast. 858 35

Nitric oxide (NO) production is reduced in patients with essential hypertension and in some experimental models. We have investigated the effect of trichlormethiazide and captopril on NO synthase (NOS) activity and glomerular damage in the kidney of deoxycorticosterone acetate (DOCA)-salt hypertensive rats. DOCA-salt rats were induced with weekly injections of DOCA (30 mg/kg body weight (BW) and 1% saline in drinking water after right nephrectomy. As antihypertensive therapies, CAP (captopril, 40 mg/kg BW) and TCM (trichlormethiazide, 10 mg/kg BW) were given after induction of DOCA-salt hypertension. The increased blood pressure was significantly lowered by TCM, but not by CAP after 5 weeks. Nitrite production in kidney slices was suppressed in DOCA-salt rats, and immunoreactivity for both brain-type NOS (B-NOS) in macula densa and endothelial-type NOS (EC-NOS) in renal vessels was decreased. TCM significantly increased the nitrite production in the kidney slices and B-NOS immunoreactivity, whereas these changes were less in CAP. Glomerulosclerosis score was significantly higher in DOCA-salt rats, and TCM ameliorated renal damage more effectively than CAP. These results indicate that the reduced nitrite production in the kidney of DOCA-salt hypertensive rats was increased more effectively by trichlormethiazide than by captopril, via increased immunoreactivity for B-NOS in the macula densa, and prevented renal damage.
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PMID:Effect of trichlormethiazide and captopril on nitric oxide synthase activity in the kidney of deoxycorticosterone acetate-salt hypertensive rats. 867 52

We have characterized the ability of several cell types associated with the microvasculature of solid tumors to release nitric oxide (NO.) in response to increases in cytosolic Ca2+ concentration ([Ca2+]c). EA.hy926 immortalized human umbilical vein endothelial cells (EC), rat fibroblasts (RFL), and tumorigenic cells isolated from R3230Ac rat mammary adenocarcinoma (MaC) were treated with thapsigargin (TG), an inhibitor of Ca(2+)-ATPase. NO. output was measured via a chemiluminescence detection system. Baseline NO. output was detectable only for EC. TG caused a significant increase in EC NO. output that could be blocked with NG-monomethyl-L-arginine and restored with L-arginine. TG did not stimulate NO. release from RFL or MaC cells, despite elevating [Ca2+]c in all cells. A Ca(2+)-dependent isoform of NO synthase (eNOS) was detected by immunoblot only in EC. These data indicate that EC, but not RFL or MaC, are capable of Ca(2+)-dependent NO. release and suggest that any Ca(2+)-dependent NO. release within this tumor is primarily of endothelial (and not tumorigenic cell) origin.
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PMID:Ca(2+)-dependent nitric oxide release in endothelial but not R3230Ac rat mammary adenocarcinoma cells. 876 62

This study focused on two points concerning the histochemical and immunohistochemical detection of neurons that produce nitric oxide (NO): (a) the effect of fixation and other methodological parameters on the staining pattern of both NADPH-diaphorase (NADPH-d) histochemistry and nitric oxide synthase (NOS) immunohistochemistry, and (b) the possibility that neurons display immunoreactivity against NOS antisera obtained from non-neuronal sources. Frontal sections of rat brains, fixed with 4% paraformaldehyde according to different protocols, were processed for single and double labeling using NADPH-d histochemistry and neuronal (nNOS), macrophagic (macNOS), and endothelial (eNOS) NOS immunohistochemistry. Our results show that variations in the fixative schedule, even within standard parameters, produce qualitative and quantitative changes in NADPH-d labeling. The effect of fixative on weakly stained neurons is different from that on heavily stained neurons. In subfixed brains, a large number of NOS-positive neurons lose their NADPH-d activity, whereas NOS immunolabeling remains unaltered. This finding may be particularly interesting in morphological studies that compare NADPH-d activity under experimental conditions that can affect brain perfusion. On the other hand, many cortical and subcortical neurons show macNOS immunoreactivity, most of it colocalized with nNOS.
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PMID:Histochemical and immunohistochemical detection of neurons that produce nitric oxide: effect of different fixative parameters and immunoreactivity against non-neuronal NOS antisera. 898 32

Cardiac myocytes express the nitric-oxide synthase isoform originally identified in endothelial cells, termed eNOS or NOS3, where it plays a role in regulating myocyte responsiveness to both adrenergic and muscarinic cholinergic autonomic nervous system agonists. eNOS in endothelial cells has been shown to undergo extensive post-translational processing, and in cardiac myocytes as well as endothelial cells, eNOS has been shown to be targeted to plasmalemmal caveolae, a process that is dependent on myristoylation and palmitoylation. Other post-translational modifications essential for the correct subcellular targeting of eNOS have not been described previously. We demonstrate, using [35S]methionine pulse-chase experiments, that native eNOS in adult rat ventricular myocytes is initially translated as a nonpalmitoylated 150-kDa isoform, which is associated with cytosolic and intracellular membrane-enriched fractions. This is subsequently processed to a palmitoylated 135-kDa isoform, which is found only in a sarcolemma-enriched membrane fraction. Forskolin, an agent that elevates intracellular cAMP, rapidly inhibited processing of the 150-kDa isoform to the 135-kDa isoform and transport of eNOS to the sarcolemma, effects paralleled by protein kinase A-dependent phosphorylation of the larger eNOS isoform. Forskolin also decreased palmitoylation of the 135-kDa isoform, although it did not accelerate depalmitoylation of sarcolemmal eNOS, as determined by pulse-chase experiments with [3H]palmitate. Thus, post-translational processing of a 150-kDa isoform of myocyte eNOS appears to be necessary for intracellular trafficking of the enzyme to sarcolemmal caveolae. Both the post-translational processing and subcellular targeting of eNOS appear to be modified by changes in intracellular cAMP, an effect that may have important implications for cardiac myocyte responsiveness to autonomic agonists in vivo.
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PMID:Regulation by cAMP of post-translational processing and subcellular targeting of endothelial nitric-oxide synthase (type 3) in cardiac myocytes. 911 Oct 20

Nitric oxide (NO), produced by endothelial (e) NO synthase (NOS), is critically involved in the cardiopulmonary transition from fetal to neonatal life. We have previously shown that NO-dependent relaxation is attenuated in intrapulmonary arteries from fetal lambs with pulmonary hypertension (PHT) created by prenatal ligation of the ductus arteriosus. In the present study, we determined whether this is due to altered pulmonary eNOS expression. eNOS and neuronal NOS (nNOS) protein expression were assessed in lungs from near-term control lambs and PHT lambs that underwent ductal ligation 10 days earlier. eNOS protein expression was decreased 49% in PHT lung. In contrast, nNOS protein abundance was unchanged. NOS enzymatic activity was also diminished in PHT vs. control lung (60 +/- 3 vs. 110 +/- 7 fmol.mg protein-1.min-1, respectively). Paralleling the declines in eNOS protein and NOS enzymatic activity, eNOS mRNA abundance was decreased 64% in PHT lung. Thus pulmonary eNOS gene expression is attenuated in the lamb model of fetal PHT. Because NO modulates both vasodilation and vascular smooth muscle growth, diminished eNOS expression may contribute to both the abnormal vasoreactivity and the excessive muscularization of the pulmonary circulation in fetal PHT.
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PMID:Pulmonary endothelial NO synthase gene expression is decreased in fetal lambs with pulmonary hypertension. 917 67

1. Nitric oxide (NO) is generated by three different isoforms of NO synthase, two of which are expressed constitutively (in endothelium: eNOS, brain: nNOS), while one is induced by endotoxin (LPS) or cytokines (iNOS). 2. Expression of iNOS in many organs or tissues in septic shock (caused by Gram-negative or Gram-positive bacteria) results in an enhanced formation of NO that contribute to hypotension, vascular hyporeactivity to vasoconstrictors, organ injury, and dysfunction as well as host defense. 3. Inhibition of either the expression of iNOS protein (e.g., with dexamethasone) or of NOS activity (e.g., with selective inhibitors of iNOS activity) exerts beneficial effects in animal models of shock. In contrast, inhibition of eNOS activity may lead to excessive vasoconstriction (adverse effects). 4. There is limited evidence regarding the degree of iNOS induction in human cells or tissues with septic shock. Preliminary data from ongoing clinical trials indicate that nonselective inhibitors of NOS activity (e.g., NG-methyl-L-arginine [L-NMMA]) exert beneficial hemodynamic effects.
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PMID:Nitric oxide and septic shock. 925 94

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