Nitric oxide synthase activity in human squamous cell carcinoma of the head and neck

A continuous fluorometric assay for tryptophan hydroxylase activity based on the different spectral characteristics of tryptophan and 5-hydroxytryptophan is presented. Hydroxylation of tryptophan at the 5-position results in a large increase in the fluorescence of the molecule. The assay selectively monitors the fluorescence yield of 5-hydroxytryptophan by exciting the reaction mix at 300 nm. The rate of increase of the emission signal was found to be directly proportional to the enzyme concentration. Inner filter effects due to quinonoid dihydropterin accumulation were eliminated by the inclusion of a thiol reductant. Activity measured using this assay method was found to be the same as that determined by established discontinuous HPLC assay methods. The application of the assay to routine activity measurements and to steady-state determinations with the substrates tryptophan and tetrahydropterin is described.     

Nitric oxide synthase activity and localization do not change in uterus and placenta during human parturition

Animal studies have suggested that nitric oxide, a smooth muscle relaxant, is a fundamental mediator in the initiation of parturition. The purpose of this study was to test the hypothesis that the onset of human labour is associated with a reduction in the activity of the enzyme nitric oxide synthase (NOS), within the uterus. Samples of myometrium, placenta, decidua and fetal membranes were collected during Caesarean section from 11 women before and 11 women after the onset of labour at term. Immunocytochemistry was used to localize each of the three isoforms of NOS (endothelial NOS, brain NOS, and inducible NOS) in each of these tissues and the intensity of staining was qualitatively assessed. NOS enzyme activity was determined in homogenates of frozen myometrium, placenta and fetal membranes (with attached decidua), by measuring conversion of radio-labelled L-arginine to L-citrulline. Each of the three isoforms of NOS was localized in each of the tissues. We found no difference in either the expression or enzyme activity of NOS in myometrium, placenta or fetal membranes before and during labour at term. These results suggest that, in contrast to animal studies, a decrease in NOS enzyme activity may not be involved in the onset of parturition at term in the human.     

Nitric oxide synthase in neuroepithelial brain tumors

Immunohistochemical investigation of NO-synthase in brain astrocytic tumors revealed intense reaction in many tumor cells as well as direct correlation in the intensity of reaction and the degree of tumor anaplasia. Grade I astrocytomas did not show immunoreactivity in contrast to high anaplastic tumors where many cells had positive reaction with a different degree of intensity. Positive immunoreaction was shown in many giant cells. Small cell glioblastomas and oligodendrogliomas were immunonegative. There was a direct correlation between NO-synthase expression and glial fibrillar acidic protein.     

Nitric oxide synthase in cardiac sarcoplasmic reticulum

NO. is a free radical that modulates heart function and metabolism. We report that a neuronal-type NO synthase (NOS) is located on cardiac sarcoplasmic reticulum (SR) membrane vesicles and that endogenous NO. produced by SR-associated NOS inhibits SR Ca2+ uptake. Ca2+-dependent biochemical conversion of L-arginine to L-citrulline was observed from isolated rabbit cardiac SR vesicles in the presence of NOS substrates and cofactors. Endogenous NO. was generated from the vesicles and detected by electron paramagnetic resonance spin-trapping measurements. Immunoelectron microscopy demonstrated labeling of cardiac SR vesicles by using anti-neuronal NOS (nNOS), but not anti-endothelial NOS (eNOS) or anti-inducible NOS (iNOS) antibodies, whereas skeletal muscle SR vesicles had no nNOS immunoreactivity. The nNOS immunoreactivity also displayed a pattern consistent with SR localization in confocal micrographs of sections of human myocardium. Western blotting demonstrated that cardiac SR NOS is larger than brain NOS (160 vs. 155 kDa). No immunodetection was observed in cardiac SR vesicles from nNOS knockout mice or with an anti-nNOS mu antibody, suggesting the possibility of a new nNOS-type isoform. 45Ca uptake by cardiac SR vesicles, catalyzed by Ca2+-ATPase, was inhibited by NO. produced endogenously from cardiac SR NOS, and 7-nitroindazole, a selective nNOS inhibitor, completely prevented this inhibition. These results suggest that a cardiac muscle nNOS isoform is located on SR of cardiac myocytes, where it may respond to intracellular Ca2+ concentration and modulate SR Ca2+ ion active transport in the heart.     

Nitric oxide synthase activities in human myometrium and villous trophoblast throughout pregnancy

OBJECTIVE: To study the changes in nitric oxide synthase activities in human myometrium and trophoblast throughout pregnancy and around delivery. METHODS: Samples of villous trophoblast were collected from women undergoing elective cesarean delivery at term (n = 12) or voluntary termination of pregnancy in the first (n = 27) or second (n = 11) trimesters of pregnancy. Myometrial samples were obtained from nonpregnant women undergoing hysterectomy (n = 5) and pregnant women both before (n = 7) and after (n = 7) the onset of spontaneous labor at term. Nitric oxide synthase activity was quantified for homogenized samples using the L-citrulline assay in the presence and absence of calcium. RESULTS: The highest levels of nitric oxide synthase activity were found in first-trimester villi (range 2-29 nmol L-citrulline/minute/g protein), with a significant fall in activity in the third trimester (range 2-10 nmol L-citrulline/minute/g protein; P < .001 for both calcium-dependent and calcium-independent activity). Myometrial activities were relatively low compared with those in the trophoblast (0-2 nmol L-citrulline/minute/g protein), with no significant differences in calcium-dependent activities between subgroups. Myometrial calcium-independent activities were lower in pregnant than in nonpregnant women (P = .007), with those in labor having levels higher than those not in labor (P = .048). CONCLUSION: Levels of nitric oxide synthase activity are relatively high in villous trophoblast, particularly during the first trimester. Although the contribution to total nitric oxide production in the uterus by myometrial nitric oxide synthase appears to be relatively small, nitric oxide produced by the trophoblast may play a role in maintaining uterine quiescence by a paracrine effect. Further work is needed to test this hypothesis and explore other possible roles for trophoblast-derived nitric oxide in early pregnancy.     

Nitric oxide synthase pathway may mediate human natural killer cell cytotoxicity

The present study provides evidence that the human natural killer (NK) cell effector mechanism causing target cytolysis has a requirement for L-arginine. In a deficient medium (DM) containing only salts, buffer system and glucose, NK cell-mediated cytotoxicity was found to decrease by 70% as compared to that obtained in a complete medium (CM). However, adding L-arginine to such DM could restore the activity of NK cells to the normal level. Many other components of CM, such as serum, glutamine and vitamins did not improve NK cell-mediated killing in DM. When all amino acids except L-arginine were added to DM only a partial recovery of NK cell functional cytolysis was seen. L-arginine enhanced the NK cell activity in a dose-dependent manner. Additionally, the inhibitor of both inducible and constitutive nitric oxide synthase, N-monomethyl-L-arginine (L-NMMA) inhibited NK cytolytic activity in DM supplemented with L-arginine indicating participation of nitric oxide (NO). The results also show that the stimulatory effect of L-arginine on human NK cell-mediated cytotoxicity was accompanied by an increase in NO formation as determined by accumulation of nitrite and citrulline. L-NMMA gave a dose-dependent reduction in NO generation as well. The nitrite and citrulline production dose-dependently correlated with not only the concentration of L-arginine in the cultivation medium, but also the enhanced NK cell-mediated cytolysis. Taken together, these findings could define a L-arginine/NO-linked effector mechanism in human NK cells. Nitrite and citrulline were not formed when NK cell-mediated target cell killing took place in a L-arginine-free DM supplemented with additives. Thus, it appears as if human NK cells may cause target cell killing via both NO-dependent and -independent processes.     

Nitric oxide enhances thyroid peroxidase activity in primary human thyrocytes

Recent studies have demonstrated the production of the multi-functional messenger molecule nitric oxide (NO) by the thyroid gland. To examine a possible role for NO in thyroid function, we studied the acute and chronic effect of NO donors on thyroid peroxidase (TPO) activity in monolayer cultures of primary human thyrocytes, using a colorimetric assay technique. The presence of either S-nitrosoglutathione (GS-NO) or sodium nitroprusside (SNP) (10(-6)-10(-4) M) at the time of the assay caused a significant increase in TPO activity. Pre-incubation of thyrocytes with 10(-5) M GS-NO for 3 days had no effect on the level of TPO activity when the assay was performed in the absence of NO donors. However, GS-NO pre-incubation significantly enhanced the acute stimulatory effect of GS-NO and SNP on TPO activity. These results suggest a possible role for NO in the regulation of TPO activity and thus thyroid hormone synthesis.     

Nitric oxide synthase levels in obese Zucker rats

Nitric oxide has been demonstrated to play a role in the modulation of food intake. The Zucker fatty rat is an autosomal recessive genetic model of obesity. We measured nitric oxide synthase (NOS) in the hypothalamus and fundus of the stomach in Zucker (fa/fa) rats and their lean littermate controls (fa/?). NOS activity was decreased in both the hypothalamus and the fundus of the Zucker (fa/fa) rats compared to the littermate controls.     

Nitric oxide synthase regulation during embryonic implantation

It has previously been demonstrated that uterine nitric oxide synthase (NOS) activity increases before embryonic implantation in rats. The aim of the present work was to investigate the regulation and the physiological relevance of the nitric oxide (NO) system in ovoimplantation. The increase in NOS activity in early pregnancy was found to be independent of the presence of embryos in the uterus. Whereas the Ca2+-dependent isoform of NOS increased gradually in the preimplantation days, the Ca2+-independent isoform increased just at the beginning of implantation (Day 5, 1800 hours); then the activity of both isoforms declined. Oestradiol, whose concentration peaks before implantation, might be regulating NOS activity in the uterus, since treatment of rats with tamoxifen, a receptor antagonist, reduces the activity of both isoforms to preimplantation levels. Intraluminal injections of L-NAME (0.5 mg kg[-1]), a competitive inhibitor of NOS, reduced by 50% the number of implanted embryos; this suggests that the NO system plays a role during implantation. The data suggest that oestradiol might be a modulator of NOS activity during nidation and that NO production is necessary to achieve a successful embryo implantation.     

Nitric oxide synthase immunoreactivity in rat pontine medullary neurons

Nitric oxide synthase immunoreactivity was detected in neurons and fibers of the rat pontine medulla. In the medulla, nitric oxide synthase-positive neurons and processes were observed in the gracile nucleus, spinal trigeminal nucleus, nucleus of the solitary tract, dorsal motor nucleus of the vagus, nucleus ambiguus, medial longitudinal fasciculus, reticular nuclei and lateral to the pyramidal tract. In the pons, intensely labeled neurons were observed in the pedunculopontine tegmental nucleus, paralemniscal nucleus, ventral tegmental nucleus, laterodorsal tegmental nucleus, and lateral and medial parabrachial nuclei. Labeled neurons and fibers were seen in the interpeduncular nuclei, dorsal and median raphe nuclei, central gray and dorsal central gray, and superior and inferior colliculi. Double-labeling techniques showed that a small population (< 5%) of nitric oxide synthase-positive neurons in the medulla also contained immunoreactivity to the aminergic neuron marker tyrosine hydroxylase. The majority of nitric oxide synthase-immunoreactive neurons in the dorsal and median raphe nuclei were 5-hydroxytryptamine-positive, whereas very few 5-hydroxytryptamine-positive cells in the caudal raphe nuclei were nitric oxide synthase-positive. Virtually all nitric oxide synthase-positive neurons in the pedunculopontine and laterodorsal tegmental nuclei were also choline acetyltransferase-positive, whereas nitric oxide synthase immunoreactivity was either low or not detected in choline acetyltransferase-positive neurons in the medulla. The results indicate a rostrocaudal gradient in the intensity of nitric oxide synthase immunoreactivity, i.e. it is highest in neurons of the tegmentum nuclei and neurons in the medulla are less intensely labeled. The majority of cholinergic and serotonergic neurons in the pons are nitric oxide synthase-positive, whereas the immunoreactivity was either too low to be detected or absent in the large majority of serotonergic, aminergic and cholinergic neurons in the medulla.     

Nitric oxide synthase in the vestibulocochlear system of mice

PURPOSE: To evaluate the use of helical computed tomography (CT) without contrast material enhancement for prediction of a favorable outcome in ureterolithiasis. MATERIALS AND METHODS: CT studies were reviewed in 69 patients with a single ureteral stone not located at the ureteropelvic junction. CT findings (tissue rim sign, hydronephrosis, perinephric fat stranding, perinephric fluid collections, and thickening of renal fascia) were graded on a scale of 0-3. Stone diameter and renal parenchymal enlargement were also measured. RESULTS: Twenty-two patients had spontaneous passage, 12 did not respond to conservative treatment, and 35 were lost to follow-up. When the latter 35 patients were excluded, perinephric fat stranding (P = .044) and perinephric fluid collections (P = .021) were graded significantly higher in patients with spontaneous stone passage. Mean stone diameter was significantly larger (P < .001) in patients in whom conservative treatment failed (mean, 7.8 mm) than in patients with spontaneous stone passage (mean, 2.9 mm). The presence of a tissue rim sign and the grade of hydronephrosis, renal fascial thickening, and renal parenchymal enlargement were not significantly different between the two groups. CONCLUSION: In addition to stone size, the degree of perinephric fat stranding and the presence of perinephric fluid collections are useful ancillary signs for help in predicting the likelihood of stone passage.     

Nitric oxide mediated inhibition of contractile activity in the human uterine cervix

Nitric oxide (NO) is an important modulator of contractile activity in various tissues. The aim of the present study was to investigate the possible existence of an NO system within the human uterine cervix and to study the effects of NO on the cervix in early pregnancy. Cervical tissue specimens were obtained from 24 women in connection with first trimester legal abortion. NADPH diaphorase staining was used to identify nitric oxide synthase activity within the cervical tissue. Cylindrical tissue specimens were mounted in organ bath chambers for isometric registration of contractile activity. The presence of a functional NO system in the cervix was investigated by adding either sodium nitroprusside or spermine NONOate, two different NO donors, or 8-bromo cGMP, an analogue of the second messenger cyclic guanosine monophosphate (cGMP), to the organ baths. Positive NADPH diaphorase staining was clearly observed in the walls of blood vessels, in cervical smooth muscle cells, and cells scattered in the connective tissue. The NO donating drugs sodium nitroprusside and spermine NONOate both caused a dose-dependent inhibition of spontaneous contractile activity with significant inhibition at concentrations of 10(-5) and 10(-7) M respectively. Furthermore, the participation of NO in the regulation of cervical contractility was indicated by a significant concentration-dependent inhibition of spontaneous contractions when 8-bromo cGMP (10(-5)-10(-3) M) was added to the organ baths. The study indicates the existence of an NO system within the human uterine cervix and a role of NO in control of cervical function.     

Nitric oxide synthase inhibitors alter ventilation in isoflurane anesthetized rats

BACKGROUND: Nitric oxide (NO) is present in medullary structures and can modulate respiratory rhythm. The authors determined if spontaneous ventilation at rest and in response to increased carbon dioxide is altered by selective neuronal NO synthase (NOS; 7-nitro-indazole, 7-NI) or nonselective (neuronal plus endothelial) NOS (NG-L-arginine methyl ester [L-NAME] and NG-monomethyl L-arginine [L-NMMA]) inhibitors in rats anesthetized with isoflurane. METHODS: Fifty-four rats received either L-NAME or L-NMMA (1, 10, and 30 mg/kg) or 7-NI (20, 80, and 400 mg/kg) and were compared with time controls (isoflurane = 1.4%), with isoflurane concentrations (1.6%, 1.8%, and 2%) increased consistent with the increased anesthetic depth caused by NOS inhibitors, or with L-arginine (300 mg/kg). Tidal volume (VT), respiratory frequency (f), minute ventilation (VE), and ventilatory responses to increasing carbon dioxide were determined. RESULTS: L-NAME and L-NMMA decreased resting VT and VE, whereas 7-NI had no effect. Increasing concentrations of isoflurane decreased resting f, VT, and VE. L-NAME and L-NMMA decreased VT and VE, whereas 7-NI had no effect at 8%, 9%, and 10% end-tidal carbon dioxide (ETCO2). Increasing concentrations of isoflurane decreased f, VT, and VE at 8%, 9%, and 10% ETCO2. The slope of VE versus ETCO2 was decreased by isoflurane but was unaffected by L-NAME, L-NMMA, or 7-NI. L-arginine alone had no effect on ventilation. CONCLUSIONS: Nonselective NOS inhibitors decreased VT and VE at rest and at increased carbon dioxide levels but did not alter the slope of the carbon dioxide response. Selective neuronal NOS inhibition had no effect, suggesting that endothelial NOS may be the isoform responsible for altering ventilation. Finally, the cause of the decreased ventilation is not a result of the enhanced anesthetic depth caused by NOS inhibitors.     

Nitric oxide synthase. Structural studies using anti-peptide antibodies

The amino acid sequence for the constitutive rat brain nitric oxide (NO) synthase was analysed by a set of computer programs that estimate and display physicochemical properties such as hydrophilicity, flexibility, accessibility, hydrophilic periodicity and conformation [Comerford, S. A., McCance, D. J., Dougan, G. & Tite, J. P. (1991) J. Virol. 65, 4681-4690]. Overall, they allow prediction of whether each peptide region will be an alpha-helix, a beta-strand or a less regular coil and also whether the region will be buried in the protein core or exposed to water at the surface of the protein molecule. Ten peptide regions were chosen; the majority were predicted to be exposed areas of the molecule and therefore likely to be immunogenic. The peptides were chemically synthesised, coupled to keyhole limpet haemocyanin carrier protein and injected into rabbits to raise antibodies. These antibodies have been used by us and others to locate the NO synthase in different tissues and species. Here we present the characterisation of the antibodies in relation to the possible conformation of the enzyme and an immunological comparison between two isoforms of NO synthase: constitutive (rat brain) and inducible (macrophage). Peptide regions predicted to be exposed, flexible or substantially in core, have produced antibodies that were able to recognise the native protein. Peptides of mixed characteristics possibly involved in the binding site tended to produce antibodies with low recognition for the tertiary structure of the native, purified NO synthase, although these peptides were all highly immunogenic. We postulate that either the peptides when conjugated to the carrier protein attain a different conformation to that in the native NO synthase, or alternatively the accessibility of the antibodies to substrate binding sites is highly restricted by steric hindrance. This latter seems to be more likely since a mixture of antibodies against this area of the protein molecule was able to achieve a similar neutralisation of the enzyme activity as the antibodies against the whole enzyme (approximately 50%). Most of the selected anti-peptide antibodies were not able to cross-react with the inducible macrophage enzyme; only two that have 60% sequence identity showed a weak reaction in Western blot. The polyclonal antibody against the complete brain enzyme showed cross-reaction in a Western blot with inducible enzyme. The macrophage enzyme was able to compete weakly with the binding of the brain enzyme to its own antibody, but 10 times more inducible protein was required.(ABSTRACT TRUNCATED AT 400 WORDS)