Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0406810 (NAME)
 13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this study, rutaecarpine was tested for its antiplatelet activities in human platelet-rich plasma. In human platelet-rich plasma, rutaecarpine (40-200 microM) inhibited aggregation stimulated by a variety of agonists (i.e., collagen, ADP, adrenaline and arachidonic acid). The antiplatelet activity of rutaecarpine (120 microM) was not significantly attenuated by pretreatment with the nitric oxide synthase inhibitor N(G)-mono-methyl-L-arginine (L-NMMA) (100 microM) or N(G)-nitro-L-arginine methyl ester (L-NAME) (200 microM) and with the guanylyl cyclase inhibitor methylene blue (100 microM). In addition, rutaecarpine (40-200 microM) did not significantly affect cyclic AMP and cyclic GMP levels in human washed platelets, whereas it significantly inhibited thromboxane B2 formation stimulated by collagen (10 microg/ml) and thrombin (0.1 U/ml). Furthermore, rutaecarpine (40-200 microM) inhibited [3H]inositol monophosphate formation stimulated by collagen and thrombin in [3H]myoinositol-loaded platelets. It is concluded that the antiplatelet effects of rutaecarpine are due to inhibition of thromboxane formation and phosphoinositide breakdown.
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PMID:Mechanism of inhibition of platelet aggregation by rutaecarpine, an alkaloid isolated from Evodia rutaecarpa. 901 40

Basal vasomotor tone in coronary vessels is, in part, maintained by nitric oxide (NO) production by endothelial constitutive NO synthase (ecNOS). Alteration of coronary circulation observed in left ventricular hypertrophy secondary to hypertension could be associated with a decrease in NO production. The aim of this study was to measure: (1) coronary flow in the Langendorff-perfused heart model at baseline, after maximum vasodilation in response to adenosine (10(-5) M), after endothelium-dependent vasodilation in response to bradykinin (10(-8) M) and after ecNOS inhibition by nitro-L-arginine methyl ester (L-NAME) (10(-4) M); (2) medial thickening of coronary microvessels and perivascular collagen on histological heart sections; and (3) ecNOS expression by immunohistochemical staining in these vessels using 20-week-old spontaneously hypertensive (SHR) and Wistar-Kyoto control rats (WKY). These measurements were determined by computer-directed color analysis. When SHR were compared with WKY rats, we found: (1) a decrease in basal flow (10.1+/-0.6 v 15.3+/-1.2 ml/min/g, n=10, P<0.0001), in maximum flow (15.4+/-0.7 v 24.3+/-1.3 ml/min/g, n=10, P<0.001), in bradykinin-induced flow increment (1.5+/-0.3 v 2.6+/-0.3 ml/min/g, n=5, P<0.05) and in L-NAME-sensitive flow (3.3+/-0.6 v 6.3+/-0.9 ml/min/g, n=7, P<0.05); (2) an increase in medial thickness (9.4+/-0.6 v 5.4+/-0.3 microm, n=8, P<0.001) and in perivascular collagen area (1509+/-311 v 462+/-120 microm2, n=8, P<0.01) of coronary arterioles; and (3) a decrease in ecNOS expression in the endothelium (ecNOS-stained cross-sectional area in arterioles: 40.0+/-9.1 v 84.6+/-9.0 microm2, n=7, P<O.005). These results suggest that in SHR the decrease in basal coronary flow can be related to a structural alteration of the microvessels with an increase of perivascular collagen but also to a decrease in ecNOS expression which might be associated with reduced NO production.
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PMID:Reduced basal NO-mediated dilation and decreased endothelial NO-synthase expression in coronary vessels of spontaneously hypertensive rats. 904 21

Cardiac gene expressions of collagen and contractile proteins were examined in rats treated with a nitric oxide (NO) synthase inhibitor, NG-nitro-L-arginine methyl ester (L-NAME), for 3 weeks. The rats became hypertensive, which caused left ventricular hypertrophy. Among the mRNAs examined, beta-myosin heavy chain was increased and alpha-myosin heavy chain was decreased in both left and right ventricles, whereas skeletal alpha-actin and atrial natriuretic polypeptide were increased in the left ventricle only. Furthermore, coadministration of losartan with L-NAME lowered blood pressure and caused regression of left ventricular hypertrophy, but did not affect beta- and alpha-myosin heavy chain mRNA levels, indicating that L-NAME directly regulates beta- and alpha-myosin heavy chain mRNA.
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PMID:Inhibition of nitric oxide synthase causes cardiac phenotypic modulation in rat. 908 71

Angiogenesis is a complex process involving endothelial cell (EC) proliferation, migration, differentiation, and organization into patent capillary networks. Nitric oxide (NO), an EC mediator, has been reported to be antigenic as well as proangiogenic in different models of in vivo angiogenesis. Our aim was to investigate the role of NO in capillary organization using rat microvascular ECs (RFCs) grown in three-dimensional (3D) collagen gels. RFCs placed in 3D cultures exhibited extensive tube formation in the presence of transforming growth factor-beta 1. Addition of the NO synthase (NOS) inhibitors L-nitro-arginine methylester (L-NAME, 1 mmol/L) or L-monomethyl-nitro-l-arginine (1 mmol/L) inhibited tube formation and the accumulation of nitrite in the media by approximately 50%. Incubation of the 3D cultures with excess L-arginine reversed the inhibitory effect of L-NAME on tube formation. In contrast to the results obtained in 3D cultures, inhibition of NO synthesis by L-NAME did not influence RFC proliferation in two-dimensional (2D) cultures or antagonize the ability of transforming growth factor-beta 1 to suppress EC proliferation in 2D cultures. Reverse transcriptase-polymerase chain reaction revealed the constitutive expression of all three NOS isoforms, neuronal, inducible, and endothelial NOSs, in 2D and 3D cultures. Moreover, Western blot analysis demonstrated the presence of immunoreactive protein for all NOS isoforms in 3D cultures of RFCs. In addition, in the face of NOS blockade, co-treatment with the NO donor sodium nitroprusside or the stable analog of cGMP, 8-bromo-cGMP, restored capillary tube formation. Thus, the autocrine production of NO and the activation of soluble guanylate cyclase are necessary events in the process of differentiation and in vitro capillary tube organization of RFCs.
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PMID:Nitric oxide synthase inhibitors attenuate transforming-growth-factor-beta 1-stimulated capillary organization in vitro. 913 6

The present study was aimed at clarifying the interaction between red blood cell trauma and bleeding observed in some clinical conditions. Acute hemolysis provoked by distilled water injection was followed by a significant prolongation of the "template" bleeding time in rats. Comparable effects were observed after injection of an isotonic lysate of washed red blood cells. N omega-nitro-L-arginine methyl ester (L-NAME), an inhibitor of nitric oxide (NO) formation from L-arginine, normalized bleeding time when given to rats before hemolysis induction. The occurrence of hemolysis decreased ex vivo platelet adhesion to collagen without affecting platelet aggregation and induced a transient drop in blood pressure, the latter occurring during the first minute after injection. L-NAME pretreatment increased ex vivo platelet adhesion but did not affect either platelet aggregation or fall in blood pressure. All the effects of L-NAME were blunted by treating the animals with the NO precursor L-arginine but not D-arginine. Incubation of the erythrocyte lysate with apyrase prevented the prolongation of bleeding time induced by the hemolysate. Moreover, ADP administration, at doses that did not increase hemoglobin levels, induced effects similar to those observed after hemolysis (on template bleeding time and ex vivo platelet adhesion), which were also reversed by L-NAME and restored by L-arginine. ADP is abundantly released from (hemo)lysed red blood cells and is known to stimulate release of NO, a potent vasodilator and inhibitor of platelet adhesion. ADP-dependent NO release could be responsible for bleeding time prolongation, due to abnormalities in platelet-vessel wall interaction, during acute hemolysis. Lysis of white blood cells may also contribute to prolongation of bleeding time. Because ADP could not be detected in these cells, we postulate that other mechanisms also can be involved in bleeding time prolongation after blood cell activation in vivo.
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PMID:Prolongation of bleeding time by acute hemolysis in rats: a role for nitric oxide. 922 68

The present investigation was undertaken to study the alterations in free radical generation and release of nitric oxide (NO) from polymorphonuclear leukocytes (PMNLs) following thrombosis. Thrombosis was induced in rats by intravenous injection of collagen and adrenaline. PMNLs were separated from rat blood by using dextran sedimentation and Ficoll-Hypaque. Arachidonic acid (AA), formyl methionine leucine phenylalanine (FMLP) and opsonized zymosan (OZ) induced free radical generation was estimated as luminol (LCL) and Lucigenin (LUCDCL) dependent chemiluminescence. PMNLs nitric oxide synthase (NOS) activity and NO release were measured by using [14C] L-Arginine (L-Arg) and oxy-hemoglobin respectively. LCL and LUCDCL responses in rat PMNLs were significantly attenuated following thrombosis. There was no change in the release of myeloperoxidase enzyme (MPO) from PMNLs obtained following thrombosis. PMNLs NOS activity and NO release were also found to be increased after thrombosis. Pretreatment of rat PMNLs with 10 mM L-NAME (NO precursor) or 100 microM sodium nitroprusside (NO donor), resulted in significant reduction of AA induced LCL response. Results obtained indicate that NO release form PMNLs was augmented while free radical generation response was attenuated after the induction of thrombosis.
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PMID:Alterations in the free radical generation and nitric oxide release from rat peripheral polymorphonuclear leukocytes following thrombosis. 926 95

Integrin-mediated tumor cell adhesion to type IV collagen is believed to play a role in the invasion of basement membrane proteins and the subsequent metastatic process. The cellular protein CAR (cell adhesion regulator) has been proposed to influence integrin-mediated binding to extracellular matrix proteins, including basement membrane (type IV) collagen. Three analogs of the CAR138-142 have been tested for activity. The first contains the 138-142 sequence (CAR138-142, Val-Glu-Ile-Leu-Tyr-NH2), the second contains the 138-142 sequence with a phosphorylated Tyr [pCAR138-142, Val-Glu-Ile-Leu-Tyr(PO3H2)-NH2], and the third contains the reversed 138-142 sequence (rCAR138-142, Tyr-Leu-Ile-Glu-Val-NH2). When added extracellularly, none of the analogs had a significant affect on cell adhesion to type IV collagen. Using a novel reversible cell permeabilization method, we found that intracellular incorporation of both CAR138-142 and pCAR138-142 resulted in inhibition of cell adhesion in a dose-dependent fashion. The IC50 values were approximately 90 and approximately 10 microM for CAR138-142 and pCAR138-142, respectively. Intracellular incorporation of the rCAR138-142 peptide had no affect on cell adhesion. Fluorescence microscopy of a fluorescein-labeled CAR138-142 peptide revealed that the reversible permeabilization procedure resulted in the peptides crossing the cell membrane. Affinity chromatography of melanoma cell lysates with pCAR138-142 or rCAR138-142 attached to a solid support of magnetic beads suggested that one protein was bound uniquely by pCAR138-142. Immunoprecipitation analysis identified vinculin, a protein associated with the actin cytoskeleton, as the protein specifically bound by pCAR138-142. Immunoprecipitation with pp125FAK- or beta 1-integrin-derived mAbs gave negative results. Our study suggests that a possible therapeutic approach for inhibition of melanoma cell adhesion adhesion to extracellular matrix proteins is the use of CAR peptide analogs intracellularly.
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PMID:Inhibition of melanoma cell binding to type IV collagen by analogs of cell adhesion regulator. 930 71

As we have previously reported, intraperitoneal injections of NG-nitro-L-arginine methyl ester [L-NAME; a competitive inhibitor of nitric oxide (NO) synthase] before and after the injection of B16 melanoma cells through a tail vein increased experimental pulmonary metastasis, while simultaneous injections of L-arginine (a substrate of NO synthase) at a 20-fold higher dose synergistically increased pulmonary metastasis. Our present study was intended to elucidate the mechanisms by which L-NAME alone or together with L-arginine increases metastasis. Injections of L-NAME decreased the serum concentration of nitrite plus nitrate (metabolites of NO) by about 50%, which was not reversed by simultaneous injections of L-arginine. Injections of L-NAME also decreased the diameter of arterioles and venules by 20-30%, while simultaneous injections of L-arginine did not show any significant effect. When collagen- or ADP-induced platelet aggregation was examined using platelet-rich plasma, injections of L-NAME showed little effects on platelet aggregation, while simultaneous injections of L-arginine rather suppressed platelet aggregation. B16 melanoma cells produced NO in culture, and L-NAME (0.2 mM) decreased NO production without effects on viability. Our results suggest that the increased experimental pulmonary metastasis induced by L-NAME can be ascribed partly to the contraction of arterioles and venules, which is induced by the inhibition of endogenous NO production by L-NAME, and that the synergistic effect of L-arginine on metastasis is related to the inhibition of endogenous NO production through unknown mechanisms.
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PMID:Increase in experimental pulmonary metastasis in mice by L-arginine under inhibition of nitric oxide production by NG-nitro-L-arginine methyl ester. 942 2

Long-term administration of NG-nitro-L-arginine methyl ester (L-NAME) induces development of NO-deficient hypertension. The aim of the present study was to determine whether treatment with the angiotensin-converting enzyme (ACE) inhibitor captopril can prevent hypertension, left ventricular (LV) hypertrophy, changes in nucleic acid concentration, protein synthesis and protein profile of the left ventricle. Four groups of rats were investigated: control, L-NAME 40 mg/kg/day, captopril 100 mg/kg/day, L-NAME 40 mg/kg/day along with captopril 100 mg/kg/day. NO-synthase activity in the left ventricle was found to be decreased by 69% in the L-NAME group. Captopril did not influence this inhibition of NO-synthase activity. However, it completely prevented hypertension and left ventricular hypertrophy development. The increase in left ventricular RNA and DNA concentration and -14C-leucine incorporation observed in the L-NAME group was completely prevented by simultaneous captopril treatment. The protein profile of the left ventricle in the L-NAME group was characterized by higher concentration of metabolic proteins (MP), soluble collagenous proteins (SCP) and of hydroxyproline in insoluble collagenous proteins (ICP). The concentration of hydroxyproline in ICP was significantly decreased by simultaneous captopril treatment. We conclude that captopril prevented the development of hypertension, left ventricular hypertrophy, increase in nucleic acid concentration and diminished collagen concentration by mechanisms different from affecting NO-synthase activity.
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PMID:Protein remodelling of the heart in NO-deficient hypertension: the effect of captopril. 944 42

To assess the vascular and cardiac response to NO (nitric oxide) synthase (NOS) blockade in vivo, Wistar-Kyoto rats (WKY) were treated for 3 wk with NG-nitro-L-arginine methyl ester (L-NAME; 10 mg.kg-1.day-1). L-NAME treatment induced hypertension that was associated with increased plasma renin activity. Flow cytometry cell cycle DNA analysis showed that aortic vascular smooth muscle cells (VSMC) from L-NAME-treated WKY had a significantly higher polyploid population compared with WKY controls. Using organ bath experiments, we have shown that aortic rings from L-NAME-treated WKY have an increased contractile response to phenylephrine and impaired relaxation to carbachol compared with control rings. NOS blockade in vivo caused a significant increase in cardiac and left ventricular hypertrophy. Northern mRNA analysis of the myocardium showed that L-NAME treatment caused reexpression of the fetal skeletal alpha-actin isoform without alterations in collagen type I expression, a pattern indicating true hypertrophy of the cardiomyocytes. These studies provide further insight to confirm that NO deficiency in vivo results in the development of vascular and cardiac hypertrophy.
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PMID:Vascular smooth muscle cell polyploidy and cardiomyocyte hypertrophy due to chronic NOS inhibition in vivo. 945 51


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