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)

1. The vasoactive properties of platelet-activating factor (PAF) were studied in the arterial and venous vasculature of the rat double-perfused mesenteric bed. Although PAF (0.01-0.3 pmol) induced a dose-dependent vasodilatation of the arterial mesenteric vasculature, it triggered only vasoconstrictions on the venous side, with an intact endothelium as bradykinin induced a significant venodilatation. 2. NG-nitro-L-arginine methyl ester (L-NAME, 100 microM), a nitric oxide synthase inhibitor, markedly reduced the vasodilatation induced by PAF in the arterial mesenteric vasculature and potentiated the contractile responses of the venous side to the same agent. 3. The PAF antagonist, WEB-2170, markedly reduced the response to PAF on both sides of the mesenteric vasculature. However, the IC50 of WEB-2170 against PAF was reached at a much higher concentration (1 x 10(-8) M) on the arterial side than on the venous side (5.3 x 10(-11) M). Furthermore, a second antagonist of PAF receptors, SRI-63441, although being less potent on the venous vasculature than WEB-2170, was equipotent in antagonizing the venoconstriction and the arterial dilatation induced by PAF (IC50 of SRI-63441, arterial side: 2.9 x 10(-9) M; venous side: 3.1 x 10(-9) M). 4. The dual L- and R-calcium channel blocker, isradipine (PN 200-110), but not the L-type calcium channel blocker, nifedipine, markedly reduced the PAF-induced vasoactive properties on both sides of the mesenteric vasculature. 5. Our results illustrate the differential vasoactive properties of PAF in the mesenteric vasculature of the rat. These vasoactive responses occur following activation of specific receptors for PAF or,alternatively, through activation of R-type calcium channels.
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PMID:Role of R-type calcium channels in the response of the perfused arterial and venous mesenteric vasculature of the rat to platelet-activating factor. 795 82

Responses to cumulative addition of Ca2+ (0.2-2.5 mM) after precontraction with potassium chloride (KCl) and noradrenaline in Ca(2+)-free medium were studied in isolated mesenteric arterial rings from spontaneously hypertensive rats (SHR) and Wistar-Kyoto rats (WKY). The Ca2+ contractions in 125 mM KCl-stimulated endothelium-denuded rings in the presence of atenolol (10 microM) and phentolamine (10 microM) were less marked in SHR than WKY, although the contractions to high concentrations of KCl in normal organ bath Ca2+ (1.6 mM) were similar in these strains. The difference in Ca2+ contractions between SHR and WKY during KCl stimulation was also present after 10-min pretreatment with 1 mM ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA) in Ca(2+)-free medium. However, when noradrenaline (1 microM) was used as the agonist the Ca2+ contractions of endothelium-denuded rings in the two strains were comparable, while exposure to EGTA reduced these responses more effectively in SHR than WKY. Nifedipine (0.5 nM and 10 nM in KCl- and noradrenaline-stimulated rings, respectively) more efficiently inhibited the Ca2+ contractions in hypertensive than in normotensive rats. The presence of intact vascular endothelium attenuated the contractions to Ca2+ addition comparably (during KCl stimulation) or even more (during noradrenaline) in SHR when compared with WKY. NG-nitro-L-arginine methyl ester (L-NAME, 0.1 mM) counteracted this attenuation correspondingly in WKY and SHR, and L-arginine (1 mM) restored it in both strains, whereas indomethacin (10 mM) was without effect on the response. However, mesenteric arterial relaxations induced by the endothelium-dependent agonists acetylcholine and ADP in noradrenaline-precontracted (1 microM) rings were clearly impaired in SHR, and also L-NAME (0.1 mM) reduced the responses to acetylcholine more efficiently in SHR. In contrast, the relaxations to acetylcholine and ADP in KCl-precontracted (60 mM) rings in the absence and presence of L-NAME were comparable between the two strains. In conclusion, attenuated contractile response to cumulative Ca2+ addition during stimulation with KCl clearly differentiated arterial smooth muscle of hypertensive and normotensive rats, suggesting altered function of cell membrane in SHR. The more pronounced effect of nifedipine on the response indicates abnormal function of voltage-dependent Ca2+ channels, and higher diminishing effect of EGTA on the contraction during noradrenaline suggests exaggerated action of the chelator on membrane-bound Ca2+ in SHR. Interestingly, the depressant effect of intact endothelium on the Ca2+ contraction response, mediated largely via nitric oxide, was not attenuated in SHR.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Arterial contractions induced by cumulative addition of calcium in hypertensive and normotensive rats: influence of endothelium. 796 14

Coronary artery disease (CAD) has been documented to be usually associated with endothelial dysfunction. Thus, the present experiments were performed to investigate whether non-hypotensive doses of calcium antagonists can compensate for the effects of deficient endogenous formation of nitric oxide (NO) in the coronary vascular bed in vivo. In chronically instrumented conscious dogs (n = 6) which were prepared for the measurement of coronary blood flow (CBF), coronary diameter of the left circumflex artery (LCX), mean arterial blood pressure (MAP) and heart rate (HR), continuous intravenous infusions of 0.2 micrograms/kg/min nisoldipine (NI) or 2.0 micrograms/kg/min diltiazem (DT) were performed after intracoronary pretreatment with either vehicle or the inhibitor of NO synthesis NG-nitro-L-arginine methyl ester (L-NAME, 6 mg/kg). NI dose-dependently increased CBF up to a maximum of +74 +/- 7.5% from control, while LCX diameter and HR were not significantly affected. MAP fell slightly (-5 +/- 3 mmHg). The maximum CBF increase in response to diltiazem at 10-fold higher doses was +39 +/- 13% while MAP fell -12 +/- 2 mmHg at the highest cumulative dose (100 micrograms/kg). HR and LCX diameter remained unaltered. Pretreatment with L-NAME caused marked hypertension and bradycardia, associated with reduction in CBF (-34 +/- 16%) and LCX diameter (-9.5 +/- 0.8%). Subsequent infusion of NI or DT increased CBF up to the control values obtained before L-NAME. In contrast, both calcium antagonists failed to reverse the effects on MAP or HR.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Low dose calcium-antagonism compensates for impaired myocardial blood supply resulting from deficient nitric oxide synthesis. 799 Sep 75

Previous results have shown that the contractile response to norepinephrine (NE) was enhanced in isolated aortae from SHR and normotensive Wistar parathyroidectomized rats. In this work we sought to characterize the contribution of endothelium-derived relaxing factor (EDRF) release to this effect which is not linked to hypertension. Parathyroidectomy (PTX) was performed by surgery on 5 week-old male Wistar rats. Five weeks later intact (E+) and rubbed (E-) aortic rings were mounted in an organ chamber for isometric tension recording. KCl-induced contractions were potentiated in PTX E+ aortae compared to sham operated (SO), (P < 0.05), but not in denuded E- aortae. Similarly NE (1 nM- 10 microM) induced a potentiated contractile response in PTX E+ (P < 0.01), but not in PTX E- rings; nevertheless the sensitivity did not change. After removal of endothelium, the expected enhanced contraction and sensitivity observed in SO rats was not present in PTX. The NO synthase inhibitor L-NAME (20 microM), enhanced sensitivity to NE in SO but not in PTX E+ aortic rings. In addition, hemoglobin (Hb, 10 microM) enhanced NE contraction in SO (P < 0.01) aortic rings, but to a lesser extent in PTX rat aortae. Moreover, in the presence of L-NAME or Hb, SO and PTX aortae displayed a similar contraction. Superoxide dismutase (SOD, 150 U/ml) diminished the NE contraction since NO was protected from degradation but the difference was still present between SO and PTX rat aortae, ruling out the possible implication of superoxide anions in the hyperreactivity of PTX aortae. On the other hand, A23187, which induces EDRF release, reduced the level of NE contraction as expected, but suppressed the PTX enhancing effect and in calcium-free solution the enhancement of contraction after PTX was not observed. These experiments extend to the rat the observations previously obtained in rabbit aorta: extracellular calcium is a major determining factor in NO production. Acetylcholine and A23187 (cumulative doses) produced an endothelium-dependent relaxation which was not significantly modified in NE-pre-contracted PTX aortae compared to SO aortae. L-arginine (100 microM), reversed the L-NAME inhibitory effect and induced an attenuated endothelium-dependent relaxation in PTX vessels (P < 0.01). In conclusion, in rat isolated aortae the enhancing effect of parathyroidectomy on norepinephrine and KCl contractions is due to a diminished endothelial nitric oxide production. This might arise via a decrease of the constitutive NO synthase activity in an extracellular calcium-dependent manner.
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PMID:Characterization of endothelium-derived relaxing factor involvement in the potentiating effect of parathyroidectomy on norepinephrine-induced rat aortic contraction. 818 95

Nonlinear mathematical techniques now make it possible to quantify the complexity of an irregular time series through calculation of a parameter known as fractal dimension. In the present study, we use such an analysis to provide evidence that histamine-induced pressure oscillations in an isolated rabbit ear resistance artery are generated by deterministic rather than stochastic mechanisms, and that a minimum of 3 independent control variables is necessary to account for the complexity of the dynamics of these oscillations. The fractal dimension of the responses was independent both of the concentration of histamine used to induce rhythmic behavior, and the level of activity of the endogenous nitrovasodilator, EDRF. While both superficially influenced the form of the oscillations, it follows that neither are key control variables involved in their genesis. Nonlinear analysis of data obtained in the presence of NG-nitro-L-arginine methyl ester (L-NAME), which blocks EDRF synthesis, provided insights into the intrinsic smooth muscle control mechanisms responsible for generating rhythmic activity. The oscillations exhibited distinct "fast" and "slow" components (periods of 5-20 secs and 1-5 min. respectively). The former involved ion movements at the cell membrane and was inhibited by low [Ca2+]o, verapamil (which blocks voltage-dependent Ca2+ influx) and tetraethylammonium (which blocks Ca(2+)-activated outward K+ channels), whereas the latter involved Ca(2+)-induced Ca2+ release from intracellular stores and was inhibited by ryanodine. All such interventions decreased the overall fractal dimension of the responses to a value < 2, thus removing one degree of complexity (and hence control variable) from the dynamics. We conclude that the nonlinear interaction between a fast membrane oscillator and a slow intracellular oscillator generates chaos in vascular smooth muscle and that exogenous constrictor agonists and EDRF may be regarded as permissive and modulatory influences, respectively.
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PMID:Mechanisms underlying chaotic vasomotion in isolated resistance arteries: roles of calcium and EDRF. 818

To identify and localize the protein products of genes encoding distinct L-type calcium channels in central neurons, anti-peptide antibodies specific for the class C and class D alpha 1 subunits were produced. Anti-CNC1 directed against class C immunoprecipitated 75% of the L-type channels solubilized from rat cerebral cortex and hippocampus. Anti-CND1 directed against class D immunoprecipitated only 20% of the L-type calcium channels. Immunoblotting revealed two size forms of the class C L-type alpha 1 subunit, LC1 and LC2, and two size forms of the class D L-type alpha 1 subunit, LD1 and LD2. The larger isoforms had apparent molecular masses of approximately 200-210 kD while the smaller isoforms were 180-190 kD, as estimated from electrophoresis in gels polymerized from 5% acrylamide. Immunocytochemical studies using CNC1 and CND1 antibodies revealed that the alpha 1 subunits of both L-type calcium channel subtypes are localized mainly in neuronal cell bodies and proximal dendrites. Relatively dense labeling was observed at the base of major dendrites in many neurons. Staining in more distal dendritic regions was faint or undetectable with CND1, while a more significant level of staining of distal dendrites was observed with CNC1, particularly in the dentate gyrus and the CA2 and CA3 areas of the hippocampus. Class C calcium channels were concentrated in clusters, while class D calcium channels were generally distributed in the cell surface membrane of cell bodies and proximal dendrites. Our results demonstrate multiple size forms and differential localization of two subtypes of L-type calcium channels in the cell bodies and proximal dendrites of central neurons. The differential localization and multiple size forms may allow these two channel subtypes to participate in distinct aspects of electrical signal integration and intracellular calcium signaling in neuronal cell bodies. The preferential localization of these calcium channels in cell bodies and proximal dendrites implies their involvement in regulation of calcium-dependent functions occurring in those cellular compartments such as protein phosphorylation, enzyme activity, and gene expression.
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PMID:Identification and differential subcellular localization of the neuronal class C and class D L-type calcium channel alpha 1 subunits. 822 51

By using non-linear techniques to analyse irregular histamine-induced pressure oscillations in an isolated rabbit ear resistance artery, we have shown that the pressure oscillations are generated by deterministic rather than stochastic mechanisms. The average fractal dimension of the oscillations was between 2 and 3, thus implying that three (or more) independent control variables were necessary to account for the complexity of the dynamics. EDRF suppressed the pressure oscillations, but their fractal dimension was not altered by graded stimulation of EDRF activity by acetylcholine, or by inhibition of EDRF activity with NG-nitro-L-arginine methyl ester (L-NAME) or haemoglobin. This implies that EDRF is not one of the primary control variables involved in the genesis of their dynamics. The oscillations exhibited distinct 'fast' and 'slow' components, with periods of 5-20 s and 1-5 min respectively. The fast subsystem involved ion movements at the cell membrane level, and was inhibited by low [Ca2+]o, by verapamil (which inhibits voltage-dependent Ca2+ influx) and by tetraethylammonium (TEA) and apamin (which block Ca(2+)-activated outward K+ channels). In contrast, the slow subsystem was selectively inhibited by ryanodine, and therefore involved intracellular Ca(2+)-induced Ca2+ release. Each of these interventions decreased the fractal dimension to < 2 and thus removed one degree of freedom from the dynamics. We conclude that the interaction of a fast membrane oscillator and a slow intracellular oscillator generates chaotic pressure oscillations which are modulated by EDRF.
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PMID:Modulation of chaotic pressure oscillations in isolated resistance arteries by EDRF. 829 81

This study examined the role of nitric oxide (NO) in tonic inhibition of motor activity in isolated, perfused canine ileal segments. Brief addition of N omega-nitro-L-arginine methyl ester (L-NAME) to the perfusate caused, after a delay, a concentration-dependent persistent increase in tonic and phasic activity of circular muscle. This increased motor activity was prevented or reversed by addition of L- but not D-arginine to the perfusate. Removal of Ca2+ or addition of 10(-7) M omega-conotoxin (GVIA) to the perfusate markedly reduced this response. The motor activity induced by L-NAME was accompanied by loss of distal inhibition and enhanced excitation to low-frequency field stimulation. L-NAME infusion significantly reduced tonic vasoactive intestinal polypeptide (VIP) output, sodium nitroprusside increased VIP output, but L-arginine infusion did not restore VIP output. Atropine (10(-7) M) and/or hexamethonium (10(-4) M) reduced the motor response to L-NAME by 75%. Atropine reduced and hexamethonium nearly abolished VIP output. We conclude that there is tonic Ca(2+)-dependent NO output from perfused intestinal segments dependent on nerves with N-Ca channels, that NO acts to inhibit muscle directly and by inhibiting release of excitatory mediators, and that this output is the primary inhibitory determinant of contractile activity.
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PMID:Role of nitric oxide-related inhibition in intestinal function: relation to vasoactive intestinal polypeptide. 830 56

1. Parathyroidectomy (PTX) lessens the development of hypertension in young spontaneously hypertensive rats (SHR) and the involved mechanisms remain to be elucidated. We have studied here the aortic vascular reactivity to both norepinephrine (NE) and acetylcholine in 10 week old male PTX SHR and Wistar-Kyoto (WKY) rats. 2. Depolarized (KCl 100 mmol/L) and NE (1 mumol/L or cumulative 10(-9)-10(-5) mol/L) precontracted intact aortic rings from PTX rats show a significant and unexpected increase of maximal contractile responses in normotensive and hypertensive animals. These results are also obtained with low extracellular ionized calcium levels (0.625 and 0.9 mmol/L) similar to PTX ionized plasma calcium. N omega-Nitro-L-arginine methyl ester (L-NAME, 20 mumol/L) potentiates the NE response in SHR and WKY rats, more significantly in control than in PTX animals. 3. In the presence of indomethacin (10 mumol/L) in SHR the potentiating effect of PTX on NE contraction is still observed, ruling out a specific production of vasoconstrictors from the arachidonic cascade by the PTX rat aortic endothelium. 4. After PTX a moderate impairment of acetylcholine relaxant responses is observed in SHR and WKY rat aortas and basal aortic cyclic guanosine 3'-5' monophosphate (cGMP) content is also decreased; nevertheless sodium nitroprusside causes a similar relaxation. Furthermore in L-NAME-treated aortas and in the presence of L-arginine (100 mumol/L), acetylcholine (1 mumol/L) produces a significantly less pronounced relaxation in PTX rats. 5. In conclusion, the enhancement of NE contractile response in PTX rat aortas is not linked to the strain but probably related to a decrease in endothelial nitric oxide (NO) release or activity. Enhancement of force generation that we describe does not directly participate in the attenuated hypertension observed in SHR after parathyroidectomy.
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PMID:Endothelium-derived relaxing factor, hypertension and chronic parathyroidectomy in spontaneously hypertensive and Wistar-Kyoto rats. 830 20

The cavernous carotid artery, that portion of the internal carotid artery that lies within the intracranial cavernous sinus, is covered by arterial (luminal surface) and venous (external surface) endothelium. The reactivity of the isolated canine, cavernous carotid artery, precontracted with 10(-5) M 5-hydroxytryptamine, was studied by using in vitro perfusion and superfusion to evaluate the effects of vasoactive stimuli applied to the internal or external surface. Acetylcholine (10(-8)-10(-4) M), thrombin (0.01-1 U/ml) or calcium ionophore A23187 (10(-8) - 10(-6) M) on the luminal side produced concentration-dependent relaxations which were reduced by the NO synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME, 10(-4) M) or by removing either the internal or both endothelia. Thrombin or ionophore A23187 on the external side produced concentration-dependent contractions which were reduced by removing either the external or both endothelia, and by meclofenamate (10(-5) M). Acetylcholine on the external side, produced a concentration-dependent contraction that was unaffected by meclofenamate or by removing the external or both endothelia. Sodium nitroprusside (10(-7) - 10(-5) M) induced similar relaxation on both sides and regardless of whether the arteries were with or without endothelium. These results suggest firstly, that the cavernous carotid artery responds to acetylcholine, thrombin or calcium ionophore A23187 by relaxing or contracting when these agents act on the luminal or the external surface respectively. Secondly, the arterial endothelium mediates relaxation to these three substances by releasing NO, whereas the venous endothelium mediates contraction to thrombin and ionophore A23187 by releasing a cyclooxygenase product.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reactivity of the dog cavernous carotid artery. The role of the arterial and venous endothelium. 830 86

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