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Query: EC:1.5.1.19 (
NOS
)
7,285
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Osteosarcomas are malignant tumours producing osteoid and/or bone. It is difficult to distinguish tumour bone formation from reactive, based on their morphological features alone. The objective of this study was two-fold: to clarify the origins of bone-forming cells in human osteosarcoma transplanted into nude mice; and to examine the role of bone morphogenetic proteins (BMPs) in the tumour-induced osteogenesis. DNA in situ hybridization was carried out with digoxigenin (DIG) polymerase chain reaction (PCR) labelled DNA probes for human-specific 'Alu' and mouse-specific 'mouse L1 (m-L1)' genes. Human osteosarcoma cells, established cell lines of
NOS-1
,
NOS
-2, and HuO9, were transplanted separately into nude mice. Bone-forming cells of the bone in the
NOS-1
or
NOS
-2 tumours were positive for Alu, while they were negative for m-L1. The cells lining the surface of trabeculae in the HuO9 tumour were positive for Alu, but a few of them were also positive for m-L1. The m-L1-positive cells expressed mouse osteocalcin and type 1 collagen mRNAs. These facts suggest that the mouse cells were involved in osteoid synthesis of the HuO9 tumour. The
NOS-1
or
NOS
-2 tumours expressed human BMP 2-7 mRNAs, whereas the HuO9 tumour expressed human BMPs 2, 4, 5, and 7. The osteogenetic potential of the tumours may depend on the expression patterns of BMPs. These results demonstrate two distinct types of bone formation, by tumour cells and by an admixture of tumour and non-tumour cells. The present study showed that the HuO9 tumour produces chimeric bone formation. This is the first report to demonstrate the relationships between tumour cells and non-tumour cells in bone formation, using genetic markers.
...
PMID:Origin of bone-forming cells in human osteosarcomas transplanted into nude mice--which cells produce bone, human or mouse? 971 49
The expression of nitric oxide synthase type I (NOS-I), the key enzyme for the synthesis of the gaseous neurotransmitter nitric oxide, was investigated by means of immunohistochemistry in the vomeronasal organ (VNO) of mice from postnatal day 1 for 2 months. The results show that
NOS
is expressed in extrinsic nerve supplying the developing erectile tissue of VNO (the so-called VNO pump) as well as blood vessels in the connective tissue laying under the receptor epithelium at postnatal day 1. At 8, 15 and 21 postnatal days, and at 2 months the density of
NOS-1
-immunoreactive nerves goes along with the development of the erectile tissue. From postnatal day 8 onwards,
NOS-1
-immunoreactive fibers are found also in the vicinity of the VNO glands. These data suggest that nitric oxide (NO) modulates VNO activity early after birth in the mouse.
...
PMID:Immunohistochemical investigation of the vomeronasal organ. Nitric oxide synthase expression in the mouse during postnatal development. 1082 31
Recent evidence suggests that nitric oxide (NO) within the inner medullary collecting duct (IMCD) functions to regulate sodium and water reabsorption. Because fluid shear stress has been shown to increase NO production in endothelial and vascular smooth muscle cells, experiments were designed to determine whether a similar mechanism exists in IMCD cells. Cultured IMCD-3 cells derived from murine IMCD were subjected to 60 min of pulsatile shear stress. Nitrite production (2,3-diaminonaphthalene fluorometric assay) increased 12-, 16-, and 23-fold at 3.3, 10, and 30 dyn/cm(2), respectively, compared with static control cultures. Preincubation with the non-isoform-specific NO synthase inhibitor nitro-L-arginine methyl ester reduced nitrite production by 83% in response to 30 dyn/cm(2). Western blotting and immunofluorescence analysis of static IMCD-3 cell cultures revealed the expression of all three NO synthase isoforms (
NOS-1
or neuronal
NOS
,
NOS
-2 or inducible
NOS
, and
NOS
-3 or endothelial
NOS
) in IMCD-3 cultures. These results indicate that NO production is modulated by shear stress in IMCD-3 cells and that fluid shear stress within the renal tubular system may play a role in the regulation of sodium and water excretion by control of NO production in the IMCD.
...
PMID:Shear stress-mediated NO production in inner medullary collecting duct cells. 1091 45
The role of constitutive nitric oxide synthases (cNOS) in sepsis remains controversial. Part of the problem is that many of the studies have been performed in rats, which respond differently than larger animals. Our objective, therefore, was to determine whether cNOS, i.e. ecNOS (NOS-3) and nNOS (
NOS-1
) are still active in vessels of pigs treated with lipopolysaccharide (LPS) from Escherichia coli. We also characterized the dose-response relationship of the
NOS
inhibitor N(G)-nitro-L-arginine-methyl-ester (L-NAME) in the arterial, venous, and pulmonary circuits as a reflection of NO production. We anesthetized and ventilated 14 pigs, which were instrumented for hemodynamic measurements. We measured mean circulatory filling pressure and resistance to venous return by transiently arresting the circulation with a balloon in the right atrium. Animals were given 20 microg/kg of LPS (n = 8) or saline (n = 6) over 2 h. They were then given progressively increasing doses of L-NAME (0.5 to 16 microg/kg). We injected 20 microg boluses of norepinephrine at baseline, after 2 h, and after 0.5, 4, and 16 microg of L-NAME to test the pressor response. Tissue was obtained from six control animals followed for 2 h, eight animals treated with LPS for 2 h and then sacrificed, and four animals treated for 2 h and sacrificed after 2 more h. Cardiac output did not change, and the systemic vascular resistance fell in LPS animals. By Western analysis, ecNOS was increased in LPS animals at 2 and 4 h in the aorta and vena cava, and this was paralleled by changes in nNOS in the vena cava. In contrast, ecNOS decreased in the pulmonary artery and nNOS did not change. Calcium-dependent
NOS
activity increased with LPS in the aorta and vena cava but decreased in pulmonary artery at 4 h. The dose-response relationships to L-NAME for systemic vascular resistance, resistance to venous return, and cardiac output were shifted to the left after LPS in support of increased sensitivity supporting increased NO. The pressor response to norepinephrine was depressed after LPS and was partially restored with 4 mg/kg of L-NAME, but this dose produced 90% of the fall in cardiac output. In conclusion, in contrast to rats, cNOS activity is present in the systemic vessels of LPS-treated pigs and could play a role in the pathophysiology of sepsis.
...
PMID:Regional changes in constitutive nitric oxide synthase and the hemodynamic consequences of its inhibition in lipopolysaccharide-treated pigs. 1153 Oct 27
The role of reactive oxygen species and its effects on aging has received considerable attention in the past 47 years since Dr. Denham Harman first proposed the "free radical theory of aging." Though not completely understood due to the incalculable number of pathways involved, the number of manuscripts that facilitate the understanding of the underlying effects of reactive radical species on the oxidative stress on lipids, proteins, and DNA and its contribution to the aging process increases nearly exponentially each year. More recently, the role of reactive nitrogen species, such as nitric oxide and its by-products--nitrate (NO3-), nitrite (NO2-), peroxynitrite (ONOO-), and 3-nitrotyrosine--have been shown to have a direct role in cellular signaling, vasodilation, and immune response. Nitric oxide is produced within cells by the actions of a group of enzymes called nitric oxide synthases. Presently, there are three distinct isoforms of nitric oxide synthase: neuronal (nNOS or
NOS-1
), inducible (iNOS or
NOS
-2), and endothelial (eNOS or
NOS
-3), and several subtypes. While nitric oxide (NO*) is a relative unreactive radical, it is able to form other reactive intermediates, which could have an effect on protein function and on the function of the entire organism. These reactive intermediates can trigger nitrosative damage on biomolecules, which in turn may lead to age-related diseases due to structural alteration of proteins, inhibition of enzymatic activity, and interferences of the regulatory function. This paper will critically review the evidence of nitration and the important role it plays with aging. Furthermore, it will summarize the physiological role of nitration as well as the mechanisms leading to proteolytic degradation of nitrated proteins within biological tissues.
...
PMID:Aging and the role of reactive nitrogen species. 1197 87
Nitric oxide (NO) generated from neuronal nitric oxide synthase (
NOS-1
) in intrinsic cardiac ganglia has been implicated in parasympathetic-induced bradycardia. We provide direct evidence that
NOS-1
acts in a site-specific manner to promote cardiac vagal neurotransmission and bradycardia.
NOS-1
gene transfer to the guinea pig right atrium increased protein expression and
NOS-1
immunolocalization in cholinergic ganglia. It also increased the release of acetylcholine and enhanced the heart rate (HR) response to vagal nerve stimulation (VNS) in vitro and in vivo.
NOS
inhibition normalized the HR response to VNS in the
NOS-1
-treated group compared with the control groups (enhanced green fluorescent protein and sham) in vitro. In contrast, an acetylcholine analogue reduced HR to the same extent in all groups before and during
NOS
inhibition. These results demonstrate that
NOS-1
-derived NO acts presynaptically to facilitate vagally induced bradycardia and that upregulation of
NOS-1
via gene transfer may provide a novel method for increasing cardiac vagal function.
...
PMID:Neuronal nitric oxide synthase gene transfer promotes cardiac vagal gain of function. 1248 Aug 8
Cellular localization patterns of
NOS
isoforms 1 and 3 (nNOS and eNOS, respectively) in the mammalian heart under basal (non-stimulated) working conditions are still a matter of discussion. Therefore, this issue was reinvestigated in rats using RT-PCR, Western blotting, catalytic histochemistry, immunohistochemistry and image analysis. Tongue and extensor digitorum longus muscles served as positive controls for
NOS-1
and
NOS
-3. RT-PCR revealed
NOS-1
mRNA and
NOS
-3 mRNA in atria and ventricles. Western blotting showed
NOS-1
protein in atria and
NOS
-3 protein in the walls of both heart chambers. Localization of the activity of urea-resistant (and therefore specific) NADPH diaphorase (NADPH-D) and
NOS-1
immunohistochemistry showed that
NOS-1
is present in the sarcolemma region of a subpopulation of atrial cardiomyocytes but not in working and impulse-conducting cardiomyocytes of atria and ventricles. Atrial natriuretic peptide (ANP) immunohistochemistry revealed that a minority of the
NOS-1
-expressing atrial cardiomyocytes are myoendocrine cells. eNOS immunostaining was present in endothelial cells of capillaries of the conducting and working myocardium and endocardial cells. Image analysis of the activity of urea-resistant
NOS
diaphorase showed that
NOS-1
activity is lower in the sarcolemma region of atrial cardiomyocytes than in that of tongue and extensor digitorum longus myofibers. These data suggest that, in the non-stimulated rat heart.
NOS-1
is expressed in a subpopulation of atrial cardiomyocytes including myoendocrine cells, and that
NOS
-3 is expressed in the vascular and endocardial endothelium.
...
PMID:Localization of NOS-1 in the sarcolemma region of a subpopulation of atrial cardiomyocytes including myoendocrine cells and NOS-3 in vascular and endocardial endothelial cells of the rat heart. 1266 87
Nitric oxide (NO) performs multiple physiological roles as a biological signaling molecule. The role of NO and cGMP signaling in embryonic stem (ES) cell-derived cardiomyocytes (CM) has been investigated but many questions remain. In this study, we examined the expression of the NO signaling pathway components nitric oxide synthase (
NOS-1
, 2, 3), soluble guanylyl cyclase (sGCalpha(1) and beta(1)) and protein kinase G (PKG) genes and sGC activity in murine ES cells subjected to differentiation by embryoid body (EB) formation. We found that in undifferentiated ES cells,
NOS-1
,
NOS
-3, and sGCbeta(1) were detected while
NOS
-2, sGCalpha(1), and PKG were very low or undetectable. When ES cells were subjected to differentiation,
NOS-1
abruptly decreased within one day,
NOS
-2 mRNA became detectable after several days, and
NOS
-3 increased after 7-10 days. Levels of sGCalpha(1), sGCbeta(1), and PKG all increased gradually over a several day time course of differentiation in EB outgrowths. Analysis of sGC activity in cell lysates derived from undifferentiated ES cells revealed that NO could not stimulate cGMP. However, lysates from differentiated EB outgrowths produced abundant cGMP levels after NO stimulation. Purification of ES-cell derived CM revealed that mRNA expression of all the
NOS
isoforms was very low to absent while sGCalpha(1) and beta(1) subunit mRNAs were abundant and sGC-mediated cGMP production was apparent in this population of cells. These data suggest that cGMP-mediated NO signaling may play a minor role, if any, in undifferentiated ES cells but could be involved in the early differentiation events or physiological processes of ES cells or ES cell-derived lineages.
...
PMID:Differential expression of genes involved in cGMP-dependent nitric oxide signaling in murine embryonic stem (ES) cells and ES cell-derived cardiomyocytes. 1618 70
Cationic amino acid (CAA) transport is brought about by two families of proteins that are found in various tissues: Cat (CAA transporter), referred to as system y+, and Bat [broad-scope amino acid (AA) transporter], which comprises systems b0,+, B0,+, and y+L. CAA traverse the blood-brain barrier (BBB), but experiments done in vivo have only been able to examine the BBB from the luminal (blood-facing) side. In the present study, plasma membranes isolated from bovine brain microvessels were used to identify and characterize the CAA transporter(s) on both sides of the BBB. From these studies, it was concluded that system y+ was the only transporter present, with a prevalence of activity on the abluminal membrane. System y+ was voltage dependent and had a Km of 470 +/- 106 microM (SE) for lysine, a Ki of 34 microM for arginine, and a Ki of 290 microM for ornithine. In the presence of Na+, system y+ was inhibited by several essential neutral AAs. The Ki values were 3-10 times the plasma concentrations, suggesting that system y+ was not as important a point of access for these AAs as system L1. Several small nonessential AAs (serine, glutamine, alanine,and glycine) inhibited system y+ with Ki values similar to their plasma concentrations, suggesting that system y+ may account for the permeability of the BBB to these AAs. System y+ may be important in the provision of arginine for NO synthesis. Real-time PCR and Western blotting techniques established the presence of the three known nitric oxide synthases in cerebral endothelial cells:
NOS-1
(neuronal),
NOS
-2 (inducible), and
NOS
-3 (endothelial). These results confirm that system y+ is the only CAA transporter in the BBB and suggest that NO can be produced in brain endothelial cells.
...
PMID:Cationic amino acid transport across the blood-brain barrier is mediated exclusively by system y+. 1656 60
Altered activity of retinal endothelin-1 (ET-1) and nitric oxide may play a causal role in the hemodynamic and histopathological changes of diabetic retinopathy. This study evaluated the therapeutic potential of long-term selective blockade of the ET-1(A) receptor (ETRA) to prevent the development of retinopathy in a genetic mouse model of nonobese type 1 diabetes (NOD). Mice with NOD that received subcutaneous implantation of insulin pellets and wild-type control mice were treated for 4 months with the selective ETRA antagonist LU208075 (30 mg/kg/day) via drinking water. At the end of the study, blood glucose levels were evaluated, and animals were anesthetized and perfused intracardially with FITC-labeled dextran. Retinas were removed and either fixed in formalin for confocal microscope evaluation of retinal vascular filling or transferred to RNALater for quantitative reverse transcriptase-polymerase chain reaction to evaluate expression of
NOS
-3,
NOS-1
, ET-1, ETRA, ETRB, and the angiogenic factor adrenomedullin. Compared with wild-type controls, expression of ET-1, ETRA, ETRB, and adrenomedullin in mice with NOD were markedly upregulated in the retinas of nontreated mice (cycle time values relative to GAPDH [deltaCt], 14.8 vs. 13.7, 18.57 vs. 17.5, 10.76 vs. 9.9, and 11.7 vs. 9.1, respectively). Mean integral fluorescence intensity (MIFI) of retinal vascular filling was reduced from normal values of 24 to 12.5 in nontreated animals. LU208075 treatment normalized the upregulated expression of ET-1 and adrenomedullin, as well as the deficit in MIFI, but did not affect the increased ETRA and ETRB expression or the elevated plasma glucose levels found in nontreated animals.
NOS
isoform expression was essentially unchanged. ETRA antagonists may provide a novel therapeutic strategy to slow or prevent progression of retinal microvascular damage and proliferation in patients for whom there is clear evidence of activation of the ET-1 system.
...
PMID:Endothelin antagonism prevents diabetic retinopathy in NOD mice: a potential role of the angiogenic factor adrenomedullin. 1674 Oct 57
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