UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Aortas removed from rats treated with bacterial endotoxin displayed a reduced sensitivity to calcium (CaCl2, 10 microM-10 mM) in depolarizing medium (100 mM K+). Sensitivity was reduced further in the presence of L-arginine (1 mM) but restored to control by N omega-nitroarginine methyl ester (L-NAME, 300 microM) or NG-monomethyl-L-arginine (L-NMMA, 300 microM), inhibitors of nitric oxide synthesis from L-arginine. Furthermore, addition of methylene blue (10 microM), an inhibitor of soluble guanylate cyclase, restored the contractile response to 10 mM CaCl2. The results suggest that vascular hyposensitivity to calcium involves stimulation of guanylate cyclase subsequent to activation of the L-arginine pathway by endotoxin.
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PMID:An L-arginine-derived factor mediates endotoxin-induced vascular hyposensitivity to calcium. 209 1

1. A study has been made of the modulation of calcium-activated potassium channels in cultured neurones of avian ciliary ganglia by sodium nitroprusside and L-arginine. 2. Sodium nitroprusside (100 microM) reduced the net outward current by 22 +/- 1% at 4.8 ms (mean +/- s.e. mean) and 25 +/- 1% at 350 ms during a test depolarization to +40 mV from a holding potential of -40 mV. The outward current remained reduced for the duration of the recording following a single application of sodium nitroprusside. These effects did not occur if the influx of calcium ions was first blocked with Cd2+ (500 microM). Application of ferrocyanide (100 microM) reduced the net outward current by only 6 +/- 3% at 350 ms during a test depolarization to +40 mV. 3. L-Arginine (270 microM) reduced the net outward current on average by 19 +/- 2% at 4.8 ms and 22 +/- 2% at 350 ms during a test depolarization to +40 mV. The current remained in this reduced state for the duration of the recording following a single application of L-arginine. These effects were reduced to 11 +/- 1% at 4.8 ms and 11 +/- 2% at 350 ms in the presence of N omega-nitro-L-arginine methyl ester (L-NAME, 100 microM). 4. In order to alleviate the dependence of calcium-activated potassium channels (Ik(Ca)) on the inward flux of calcium ions, the patch-clamp pipettes were filled with a solution containing 100 microM CaCl2, and the Ca2+ in the bathing solution was replaced with EGTA. Under these conditions sodium nitroprusside reduced the total outward current during a depolarizing pulse of + 40 mV by 9 +/_ 1% at 4.8 ms and by 36 +/- 3% at 350 ms. L-Arginine (270 microM) reduced this current under the same conditions by 9 +/- 1% at 4.8 ms and by 35 +/- 2% at 350 ms.5. Calcium-activated potassium currents were sensitive to apamin (50 nM), as this reduced the outward current by 23 +/- 3% at 350 ms when a high calcium-containing pipette was used during a depolarizing command to + 40 mV. L-Arginine still decreased the outward current in the presence of apamin(50 nM), by 5 +/- 1% at 4.8 ms and by 19 +/- 2% at 350 ms, indicating that L-arginine could reduce an apamin-insensitive Ik(Ca)6. Calcium-activated potassium currents were also sensitive to charybdotoxin (10 nM), as this reduced the outward current by 34 +/- 4% at 350 ms when a high calcium-containing pipette was used during a depolarizing command to + 40 mV. L-Arginine still decreased the outward current in the presence of charybdotoxin, by 6 +/- 1% at 4.8 ms and 12 +/- 4% at 350 ms, showing that L-arginine could reduce a charybdotoxin-insensitive Ik(Ca).7. The present results indicate that NO-synthase in ciliary ganglia can modulate Ik(Ca) by a method which is independent of the action of NO on the calcium channels. The Ik(ca) is decreased significantly at 4.8 ms into a depolarizing pulse, at a time that would decrease the rate of repolarization of the action potential. Ik(Ca) is also reduced at longer times (350 ms), indicating an affect on the inactivating process.
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PMID:Nitric oxide modulation of calcium-activated potassium channels in postganglionic neurones of avian cultured ciliary ganglia. 790 46

1. In the rat, intracerebroventricular (i.c.v.) injection of cadmium, a pollutant with long biological half-life, causes a sustained increase in blood pressure at doses that are ineffective by peripheral route. Since cadmium inhibits calcium-calmodulin constitutive nitric oxide (NO) synthase in cytosolic preparations of rat brain, this mechanism may be responsible for the acute pressor action of this heavy metal. 2. To test this possibility, we evaluated the effect of i.c.v. injection of 88 nmol cadmium in normotensive unanaesthetized Wistar rats, which were i.c.v. pre-treated with: (1) saline (control), (2) L-arginine (L-Arg), to increase the availability of substrate for NO biosynthesis, (3) D-arginine (D-Arg), (4) 3-[4-morpholinyl]-sydnonimine-hydrochloride (SIN-1), an NO donor, or (5) CaCl2, a cofactor of brain calcium-calmodulin-dependent cNOS(I). In additional experiments, the levels of L-citrulline (the stable equimolar product derived from enzymatic cleavage of L-Arg by NO synthase) were determined in the brain of vehicle- or cadmium-treated rats. 3. The pressor response to cadmium reached its nadir at 5 min (43+/-4 mmHg) and lasted over 20 min in controls. L-Citrulline/protein content was reduced from 35 up to 50% in the cerebral cortex, pons, hippocampus, striatus, hypothalamus (P<0.01) of cadmium-treated rats compared with controls. Central injection of N(G) nitro-L-arginine-methylester (L-NAME) also reduced the levels of L-citrulline in the brain. 4. Both the magnitude and duration of the response were attenuated by 1.21 and 2.42 micromol SIN-1 (32+/-3 and 15+/-4 mmHg, P<0.05), or 1 micromol CaCl2 (6+/-4 mmHg, P<0.05). Selectivity of action exerted by SIN-1 was confirmed by the use of another NO donor, S-nitroso-N-acetyl-penicillamine (SNAP). Both L-Arg and D-Arg caused a mild but significant attenuation in the main phase of the pressor response evoked by cadmium. However, only L-Arg reduced the magnitude of the delayed, pressor response. Despite their similarity in ability to attenuate the cadmium-induced pressure effect, L-Arg and its isomer exerted differential biochemical changes in brain L-citrulline, as L-Arg normalized cadmium-induced reduction in L-citrulline levels, whereas i.c.v. D-Arg did not. 5. We conclude that the pressor effect of i.c.v. cadmium is due, at least in part, to reduced NO formation, consequent to inhibition of brain NO synthase. Accumulation of cadmium in the central nervous system could interfere with central mechanisms (including NO synthase) implicated in the regulation of cardiovascular function.
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PMID:Role of nitric oxide synthase inhibition in the acute hypertensive response to intracerebroventricular cadmium. 948 63

We investigated the role of luminal Ca2+ in the regulation of nitric oxide (NO) release and acid secretion in the rat stomach following damage by sodium taurocholate (TC). Under urethane anesthesia, a rat stomach was mounted in an ex vivo chamber, perfused with saline, and transmucosal potential difference (PD), luminal pH, acid secretion, and luminal contents of Ca2+ and NO were measured before and after exposure to 20 mM TC for 30 min, with or without coapplication of EGTA (5 mM) and/or CaCl2 (10 mM). Mucosal exposure to TC caused a reduction in PD and a decrease of acid secretion, with a concomitant increase of NO as well as Ca2+ content in the gastric lumen. The increase of NO release as well as the reduced acid response were attenuated by pretreatment with L-NAME or coapplication of EGTA, and the latter inhibited the luminal increase of Ca2+. The changes caused by L-NAME were antagonized by coadministration of L-arginine, while those induced by EGTA were partially antagonized by coinstillation of CaCl2. Neither treatment tested had any effect on gastric PD responses to TC. These results suggest that: (1) damage in the stomach increases the release of Ca2+ as well as NO in the lumen; (2) acid secretion decreases in response to damage by both an NO- and Ca2+-dependent mechanism; and (3) the increase of luminal Ca2+ is an adaptive response of the stomach to damage and may play an important role in increasing NO production and hence in regulating acid secretion.
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PMID:Luminal calcium in regulation of nitric oxide release and acid secretion in rat stomachs after damage. 1008 Jan 43

Homocyst(e)ine injured vascular endothelium and modulated endothelial-dependent vascular function. Endothelium plays an analogous role in both the vessel and the endocardium. Therefore, we hypothesized that homocyst(e)ine modulated endocardial endothelium (EE) dependent cardiac function. The ex vivo cardiac rings from normal male Wistar-Kyoto rats were prepared. The contractile responses of left and right ventricular rings were measured in an isometric myobath, using different concentrations of CaCl2. The response was higher in the left ventricle than right ventricle and was elevated in endocardium without endothelium. The half effective concentration (EC50) and maximum tension generated by homocyst(e)ine were 10(6) and 5-fold lower than endothelin (ET) and angiotensin II (AII), respectively. However, in endothelial-denuded endocardium, homocyst(e)ine response was significantly increased (p<0.005, compared with intact endothelium) and equal to the response to ET and AII. To determine the physiological significance of ET, AII, homocyst(e)ine, and endothelial nitric oxide in EE function, cardiac rings were pretreated with AII (10(-10) M) or ET (10(-13) M) and then treated with homocyst(e)ine (10(-8) M). Results suggested that at these concentrations AII, ET, or homocyst(e)ine alone had no effect on cardiac contraction. However, in the presence of 10(-10) M AII or 10(-13) M ET, the cardiac contraction to homocyst(e)ine (10(-8) M) was significantly enhanced (p<0.01, compared with without pretreatment) and further increased in the endocardium without endothelium. The pretreatment of cardiac ring with the inhibitor of nitric oxide, Nomega-nitro-L-arginine methyl ester (L-NAME), increased contractile response to homocyst(e)ine. These results suggested that homocyst(e)ine impaired EE-dependent cardiac function and acted synergistically with AII and ET in enhancing the cardiac contraction.
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PMID:Homocyst(e)ine impairs endocardial endothelial function. 1060 41

Xanthorrhizol, a bisabolene isolated from the medicinal plant Iostephane heterophylla, was assayed on rat thoracic aorta rings to elucidate its effect and likely mechanism of action, by measuring changes of isometric tension. Xanthorrhizol (1, 3, 10, 30 and 100 microg/mL) significantly inhibited precontractions induced by KCI-; (60mM), noradrenaline (10(-6) M) or CaCl2 (1.0 mM). Increasing concentrations of external calcium antagonized the inhibitory effect on KCl-induced contractions. The vasorelaxing effect of xanthorrhizol was not affected by indomethacin (10 microM) or L-NAME (100 microM) in intact rat thoracic aorta rings precontracted by noradrenaline, which suggested that the effect was not mediated through either endothelium-derived prostacyclin (PGI2) or nitric oxide release from endothelial cells. Endothelium removal did not affect the relaxation induced by xanthorrhizol on rat thoracic aorta rings, discarding the participation of any substance released by the endothelium. Xanthorrhizol inhibitory effect was greater on KCI- and CaCl2-induced contractions than on those induced by noradrenaline. Xanthorrhizol inhibitory effect in rat thoracic aorta is likely explained for interference with calcium availability by inhibiting calcium influx through both voltage- and receptor-operated channels.
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PMID:Xanthorrhizol induces endothelium-independent relaxation of rat thoracic aorta. 1098 76

The effect of agmatine (Agm) on vascular tension and the underlying receptor mechanism were investigated in the isolated aortic artery of rats. The results are as follows. (1) Agm (10(-7)-10(-2) mol/L) relaxed aortic rings in a concentration-dependent manner under the condition of precontraction induced by phenylephrine (PE) at a concentration of 10(-6) mol/L. (2) Either in the intact or the endothelium-denuded rings, pretreatment with NOS inhibitor NG-nitro-L-arginine methyl ester (L-NAME, 0.5 mmol/L) did not affect the vascular relaxant action of Agm, implying that the concentration-dependent vasorelaxation caused by Agm is not endothelium-dependent and NO is not involved. (3) Agm also relaxed aortic rings in a concentration-dependent manner under the condition of precontraction induced by CaCl2 at a concentration of 3 mmol/L. (4) Idazoxan (10(-4) mol/L), an alpha 2-adrenergic receptor (alpha 2-AR) and imidazoline receptor (IR) antagonist, abolished the Agm-induced vasorelaxation completely under the condition of CaCl2-induced precontraction. (5) Yohimbine (10(-4) mol/L), a selective alpha 2-AR antagonist, could partially block the vascular relaxant action of Agm. It is suggested that the vascular relaxant effect of Agm on the rat aortic artery may be mediated by alpha 2-AR and IR.
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PMID:[Action of agmatine on tension of isolated aortic artery and its receptor mechanism in rats]. 1147 Dec 13

The muscle relaxing activity of the essential oil of Hyssopus officinalis L. (Lamiaceae) and some of its main components (isopinocamphone, limonene and beta-pinene) was studied on isolated preparations of guinea-pig and rabbit intestine. The essential oil and isopinocamphone inhibited the acetylcholine- and BaCl2-induced contractions in guinea-pig ileum in a concentration-dependent manner (IC50 42.4 microg/ml and 61.9 microg/ml to acetylcholine; 48.3 microg/ml and 70.4 microg/ml to BaCl2) whereas limonene or beta-pinene left tissue contraction unchanged. In guinea-pig ileum H. officinalis essential oil also blocked the contractions induced by CaCl2. In isolated rabbit jejunum the essential oil reduced the amplitude of spontaneous movements and decreased the basal tone; neither haemoglobin, methylene blue, N(omega)-nitro-L-arginine methyl ester (L-NAME) or propranolol blocked the myorelaxant effect.
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PMID:Muscle relaxing activity of Hyssopus officinalis essential oil on isolated intestinal preparations. 1191 56

The present study describes the role of endothelium in the vascular response to purified acteoside from Ligustrum purpurascens in rat mesenteric arteries. In endothelium-intact rings, acteoside (3-50 micromol/L) enhanced phenylephrine-induced contraction without affecting the maximum response. This enhancement was absent in endothelium-denuded rings. Pretreatment with nitric oxide synthase (NOS) inhibitors, N(G)-nitro-L-arginine (L-NNA, 100 micromol/L) and N(G)-nitro-L-arginine methyl ester (L-NAME, 100 micromol/L), or a selective guanylyl cyclase inhibitor, 1H-[1,2,4]oxadiazolo[4,2-alpha]quinoxalin-1-one (ODQ, 10 micromol/L), increased both the sensitivity of vasoconstriction to phenylephrine and the maximal response. The enhancing effect of acteoside (30 micromol/L) was abolished in the presence of L-NAME, L-NNA, or ODQ. Tetraethylammonium (TEA(+), 3 mmol/L), a putative K(+) channel blocker, also abolished the effect of acteoside. CaCl2 (0.01-10 mmol/L) induced contractions in 50 mmol/L K(+)-containing Krebs solution. Neither acteoside nor TEA(+) affected CaCl2-induced contraction in elevated K(+) solution. Acteoside (30 micromol/L) attenuated acetylcholine-induced endothelium-dependent relaxation. Acteoside did not influence relaxation induced by exogenous NO donors, hydroxylamine or sodium nitroprusside, in endothelium-denuded rings. Acteoside did not alter endothelium-independent relaxation induced by forskolin or NS 1619. The present results indicate that acteoside enhanced the evoked vasoconstriction, mainly through inhibition of endothelial NO production/release and inhibition of NO-mediated TEA(+)-sensitive activation of K(+) channels.
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PMID:Enhancement of contraction of rat mesenteric artery by acteoside: role of endothelial nitric oxide. 1214 58

During terminal differentiation of keratinocytes the expression of various proteins, which are required for the formation of the epidermal water barrier in the skin of land dwelling animals, is upregulated. Using a cell culture model for the differentiation of human keratinocytes and real-time PCR, we quantified the mRNA levels of several proteins involved in differentiation and ceramide metabolism. A calcium shift (1.1 mM CaCl2, 10 microM linoleic acid) for 8 days triggered an increase in mRNA levels of keratin 10 (75-fold), profilaggrin (55-fold), glucosylceramide synthase (40-fold), beta-glucocerebrosidase (30-fold), prosaposin (15-fold), acid sphingomyelinase (5-fold), and serine palmitoyltransferase (SPTLC2, 4-fold). However, mRNA levels of keratin 14 and acid ceramidase did not change significantly. On the other hand nitric oxide added at concentrations lower than 0.25mM stimulates proliferation of keratinocytes (Krischel et al., J. Invest. Dermatol. 111, 286-291, 1998). Accordingly, the NO donor S-nitroso-N-acetyl-D,L-penicillamine (SNAP, 0.2 mM) had no effect on the morphology of cultured keratinocytes, whereas in cultured human fibroblasts apoptosis was induced. The expression patterns obtained suggest that keratinocytes remain in a basal proliferative state, with a 3-fold increase in keratin 14 expression, a marked decrease in mRNA levels of differentiation markers and of most ceramide-metabolizing enzymes to negligible levels. The inhibitor of the NO synthase, N(G)-nitro-L-arginine-methyl ester (L-NAME, 10 mM), induced a transient increase in ceramide formation, followed by apoptosis in keratinocytes but not in fibroblasts. Both, SNAP and L-NAME, decreased the mRNA levels of all proteins involved in ceramide metabolism.
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PMID:Nitric oxide regulates synthesis of gene products involved in keratinocyte differentiation and ceramide metabolism. 1567 11

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