UNIPROT:P20366 - FACTA Search

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Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study demonstrated the time-dependent changes in postmortem responses of isolated human middle cerebral artery strips to vasodilators. The relaxation induced by prostaglandin (PG) I2 or nitroglycerin remained stable for 24 h postmortem. In arterial strips precontracted with PGF2 alpha, substance P and bradykinin both elicited relaxation that was almost completely abolished by removal of the endothelium. The endothelium-dependent response to both peptides was significantly degraded in strips obtained > 12 h postmortem. These results indicate a selective functional or anatomical vulnerability of the vascular endothelium compared with that of the vasodilator mechanisms of the smooth muscle in the postmortem period. However, cerebral arteries isolated from human cadavers within 12 h postmortem should be adequate for studies of both smooth muscle and endothelial reactivity to vasodilators.
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PMID:Investigation of postmortem functional changes in human cerebral arteries. 767 81

To determine whether neurogenic inflammation can be inhibited by cyclic AMP, which is suggested to have an inhibitory effect on neuropeptide release from airway sensory nerves, we examined plasma extravasation in the airways of anesthetized rats in vivo with Evans blue dye as a marker. Neurogenic inflammation was produced by antidromic electrical stimulation of the right vagus nerve (4 Hz, 1 ms, 4 V for 1 min). Electrical stimulation significantly increased leakage of dye in the trachea and right bronchus. Forskolin (from 0.01 to 100 pM/kg), dibutyryl cyclic AMP (db cyclic AMP; from 10 pM/kg to 100 nM/kg) and fenoterol (from 100 to 1 nM/kg) dose dependently inhibited the leakage of dye induced by electrical stimulation in the trachea and right bronchus. Substance P (1 microgram/kg) increased Evans blue dye extravasation in the same way as the leakage induced by electrical stimulation. Forskolin (from 0.1 to 1 pM/kg), db cyclic AMP (1 nM/kg) and fenoterol (10 nM/kg) failed to inhibit substance P-induced leakage, but showed significant inhibitory effects on the leakage induced by electrical stimulation in the trachea and right bronchus. However, further increases in the concentrations of forskolin, db cyclic AMP and fenoterol significantly inhibited substance P-induced leakage of dye in both tissues. These results suggest that cyclic AMP inhibits neurogenic plasma leakage by presynaptic inhibition of the release of neuropeptides from sensory nerves as well as by postsynaptic effects on the vascular endothelium.
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PMID:Inhibitory actions of cyclic AMP on neurogenic plasma extravasation in rat airways. 769 94

The vascular endothelium is the site of formation of several powerful mediators. One of these is NO, a chemically unstable radical formed by enzymatic conversion of L-arginine in the presence of molecular oxygen. NO elicits relaxation of VSMC by activating cytosolic guanylate cyclase. NO also counteracts platelet adhesion and aggregation. The biological actions of NO make it a key substance in the endogenous defense against vascular occlusion and thrombosis. The basal formation of NO maintains a moderate but significant vasodilation in the systemic resistance vessels and counteracts platelet activity. When blood flow in conduit arteries is increased there is an augmented endothelial formation of NO, eliciting flow-dependent vasodilation. Beside this, several vasodilators (acetylcholine, bradykinin, histamine, substance P) operate by stimulating endothelial NO formation. On the other hand, drugs like nitroglycerin and papaverine operate independently of the vascular endothelium. Vasodilator mechanisms, physiological as well as pharmacological, may therefore be characterized as endothelium-dependent (i.e. NO-mediated), or endothelium-independent (i.e. not mediated by NO). Physiologically, mixed mechanisms occur. Failure of the vascular endothelium to elicit NO-mediated vasodilatation may be due to decreased formation, increased degradation, decreased sensitivity to the NO formed, or a mixture of these factors. Irrespective of the mechanism behind, this is referred to as endothelial dysfunction. Endothelial dysfunction occurs in several cardiovascular settings, like atherosclerosis, hypercholesterolaemia, diabetes, and essential hypertension. Endothelial dysfunction leads to an impaired tissue perfusion, increased local vascular resistance, decreased defense against thrombus formation, and possibly also decreased defense against hypertrophy of the VSMC in the vessel wall media. In patients with CHD, endothelial dysfunction leads to an impaired coronary flow response to physical and mental stress, and to promotion of platelet adherence and aggregability. Endothelial dysfunction is thereby a probable aggravating factor in the atherosclerotic process, adding a functional component on top of the structural lesions characterizing this disease. A particular form of endothelial dysfunction, limited to the arterial resistance vessels, may explain the symptoms and clinical characteristics of microvascular angina. In patients with essential hypertension, endothelial dysfunction prevails, adding a functional component to the structural factors also in this disease. Hitherto, the only therapeutic tools available to restore endothelial dysfunction appear to be restriction of the dietary intake of lipids, possibly reinforced with intake of antioxidants like fish oil and vitamin E. However, large clinical trials to confirm the efficacy of such therapy in reversing endothelial dysfunction have not been conducted. In the future, more directly acting therapeutic regimens, aimed at supporting or substituting the endogenous formation of NO, are likely to appear as well.
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PMID:Endothelial nitric oxide and cardiovascular disease. 815 Dec 63

Chronic rather than acute changes in the autonomic innervation of the vasculature are a feature of ageing and several cardiovascular disorders. To investigate the long-term influence of perivascular innervation on the vascular endothelium, the release of vasoactive substances which have been localized in endothelial cells, namely ATP, endothelin, substance P and vasopressin, was monitored from cells isolated from adult rat thoracic aorta following neonatal guanethidine sympathectomy. The endothelial cells were initially perfused at 0.5 ml/min and exposed to two periods of increased flow at 3.0 ml/min. Cells isolated from control rats released significantly more ATP on both occasions of switching from the lower to higher flow rate and significantly more endothelin on the second exposure to the higher flow rate. In contrast, endothelial cells isolated from sympathectomised rats showed no increased release of either ATP or endothelin with increase flow, although the release of endothelin at the initial flow rate of 0.5 ml/min was higher than in the controls. Substance P and vasopressin levels in the perfusate were the same in controls and after sympathectomy. In summary, long-term sympathectomy suppresses increased flow-induced release of selected vasoactive substances from the endothelium, thus shear-stress-induced changes in local blood flow may be impaired when there are chronic disturbances in the autonomic innervation.
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PMID:Long-term guanethidine sympathectomy suppresses flow-induced release of ATP and endothelin from endothelial cells isolated from adult rat aorta. 863 Mar 47

Neutral endopeptidase 24.11 (NEP), widely distributed in the body, hydrolyzes and inactivates a number of endogenous vasoactive peptides, some of which could alter various functions of cells present in the arterial wall. Recently NEP has been found to exist in the vascular endothelium. The aim of this study was to assess the influence of chronic NEP inhibition by daily administration of UK79300 (candoxatril), an orally active NEP inhibitor (NEPI), on the development of atherosclerotic changes in high-cholesterol-fed rabbits. Male New Zealand White rabbits were fed for 8 weeks as follows: normal rabbit diet (Normal, n = 15), 1.5% cholesterol diet (Cholesterol, n = 15), or 1.5% cholesterol diet containing NEPI (20 mg.kg-1.d-1) (Cholesterol+NEPI, n = 15). At the end of the dietary period, NEPI treatment was found to suppress the surface area of the aorta covered by plaques (% surface area: Cholesterol, 59 +/- 6 versus Cholesterol+NEPI, 36 +/- 7, P < .01) and decreased contents of cholesterol and cholesterol esters in the aortas. NEPI also reduced plasma total cholesterol by 27% of Cholesterol rabbits (1781 +/- 130 mg/dL). The endothelial function, estimated by the endothelium-dependent relaxation of the isolated aortas in response to acetylcholine, was preserved in Cholesterol+NEPI rabbits compared with that in Cholesterol rabbits. NEP enzymatic activities in plasma and the particulate fraction of the homogenates from the aortas in Cholesterol rabbits were both increased, 3.1- and 3.9-fold, respectively, above those in Normal rabbits, but the activities in Cholesterol+NEPI rabbits were significantly lower than those in Cholesterol rabbits. UK73967, an active form of UK79300, or phosphoramidon partly reversed the atherosclerotic impairment of relaxation of the isolated thoracic aortic rings from Cholesterol rabbits in response to exogenous additions of C-type natriuretic peptide (CNP) and substance P, which are NEP substrates known to exist endogenously in the vascular endothelium. The results suggest that the increased NEP activity plays a significant role in atherogenesis, and NEPIs might be therapeutically useful in the prevention of atherosclerosis. Reduction of plasma cholesterol and suppression of degradations in the arteries of endogenously released CNP, substance P, or possibly other kinins known to have anti-atherosclerotic actions may at least partially contribute to the inhibitory effects of NEPIs on atherosclerotic changes.
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PMID:Suppression of atherosclerotic changes in cholesterol-fed rabbits treated with an oral inhibitor of neutral endopeptidase 24.11 (EC 3.4.24.11). 869 50

1. In neural tissue, leukaemia inhibitory factor (LIF) is an important trophic cytokine. In this investigation, we determined if LIF was present in human and guinea-pig airways and examined the role of this cytokine in modulating airway responses to endogenous and exogenous tachykinins as well as muscarinic receptor and beta-adrenoceptor stimulation. 2. The presence of LIF in both human and guinea-pig airways was determined by immunohistochemistry. Guinea-pig tracheal explants were incubated in CRML-1066 media containing LIF (0.5, 5 or 50 ng ml-1) for periods of 3, 6, 24 and 48 h. Tracheal rings were then transferred to organ baths for measurement of isometric force in response to carbachol, capsaicin, the neurokinin1 (NK1) receptor agonist [Sar9,Met(O2)11]-substance P (SP), the NK2 receptor agonist neurokinin A (NKA) and isoprenaline. 3. LIF immunoreactivity was observed primarily in basally situated cells in the airway epithelium of both large and small airways. Less intense immunoreactivity was observed in vascular endothelium and glandular epithelium. 4. Treatment with LIF (0.5 ng ml-1) for 3 and 6 h significantly increased contractile responses to capsaicin by 42% and 43%, respectively, compared to time controls, whereas higher concentrations of LIF (5 and 50 ng ml-1) enhanced capsaicin-induced contractions only after 6 h. After 24 h, responses to capsaicin were not significantly different from 0 h control. Contractile responses to capsaicin following exposure to LIF at any concentration for 24 h were not significantly different from relative time control values. 5. Responses to [Sar9,Met(O2)11]-SP, carbachol and isoprenaline were not influenced by time in culture or by exposure to LIF for up to 48 h. Contractile responses induced by NKA were not influenced by 3 or 6 h exposure to LIF, but at 24 and 48 h the mean maximum contractile responses to NKA were significantly increased by 33% and 35%, respectively, compared to control. 6. These results demonstrate that LIF is present in guinea-pig and human airway epithelium, and modulates airway responses to tachykinins. In the acute setting LIF augments the capsaicin-induced release of endogenous tachykinins, whilst in the longer term (> 24 h), LIF increases airway smooth muscle responses to tachykinins via an NK2 receptor selective mechanism. We conclude that LIF may be an important effector molecule in the response of airways to injury or inflammation.
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PMID:Localization of leukaemia inhibitory factor to airway epithelium and its amplification of contractile responses to tachykinins. 913 95

Nitric oxide (NO) may regulate hepatic metabolism directly by causing alterations in hepatocellular (hepatocyte and Kupffer cell) metabolism and function or indirectly as a result of its vasodilator properties. Its release from the endothelium can be elicited by numerous autacoids such as histamine, vasoactive intestinal peptide, adenosine, ATP, 5-HT, substance P, bradykinin, and calcitonin gene-related peptide. In addition, NO may be released from the hepatic vascular endothelium, platelets, nerve endings, mast cells, and Kupffer cells as a response to various stimuli such as endotoxemia, ischemia-reperfusion injury, and circulatory shock. It is synthesized by nitric oxide synthase (NOS), which has three distinguishable isoforms: NOS-1 (ncNOS), a constitutive isoform originally isolated from neuronal sources; NOS-2 (iNOS), an inducible isoform that may generate large quantities of NO and may be induced in a variety of cell types throughout the body by the action of inflammatory stimuli such as tumor necrosis factor and interleukin (IL)-1 and -6; and NOS-3 (ecNOS), a constitutive isoform originally located in endothelial cells. Another basis for differentiation between the constitutive and inducible enzymes is the requirement for calcium binding to calmodulin in the former. NO is vulnerable to a plethora of biologic reactions, the most important being those involving higher nitrogen oxides (NO2-), nitrosothiol, and nitrosyl iron-cysteine complexes, the products of which (for example, peroxynitrite), are believed to be highly cytotoxic. The ability of NO to react with iron complexes renders the cytochrome P450 series of microsomal enzymes natural targets for inhibition by NO. It is believed that this mechanism provides negative feedback control of NO synthesis. In addition, NO may regulate prostaglandin synthesis because the cyclooxygenases are other hem-containing enzymes. It may also be possible that NO-induced release of IL-1 inhibits cytochrome P450 production, which ultimately renders the liver less resistant to trauma. It is believed that Kupffer cells are the main source of NO during endotoxemic shock and that selective inhibition of this stimulation may have future beneficial therapeutic implications. NO release in small quantities may be beneficial because it has been shown to decrease tumor cell growth and levels of prostaglandin E2 and F2 alpha (proinflammatory products) and to increase protein synthesis and DNA-repair enzymes in isolated hepatocytes. NO may possess both cytoprotective and cytotoxic properties depending on the amount and the isoform of NOS by which it is produced. The mechanisms by which these properties are regulated are important in the maintenance of whole body homeostasis and remain to be elucidated.
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PMID:The role of nitric oxide in hepatic metabolism. 959 11

1. Vasomotor function of the vascular endothelium was examined in human subcutaneous arteries excised from 8 hypercholesterolaemic and 7 normolipidaemic subjects. 2. Left gluteal skin biopsies were performed under local anaesthesia. Subcutaneous arteries were isolated and two vessels from each subject mounted in separate myographs. A 20 ml fasting blood sample was taken at the time of the biopsy. 3. Hypercholesterolaemic subjects had either never been treated with lipid lowering therapy or therapy had been stopped at least two weeks before the study (n = 2). At the time of the study total plasma cholesterol levels (control: 4.6+/-0.3 vs hypercholesterolaemic: 8.3+/-0.6 mmol l(-1): P < 0.01) were significantly elevated in hypercholesterolaemic subjects when compared with controls. 4. Full concentration-response curves to the vasoconstrictor noradrenaline and the vasodilators acetylcholine and substance P were constructed. A single point concentration-response to sodium nitroprusside (10 microM) was also obtained. Dilator responses were obtained in vessels pre-constricted with a submaximal concentration of noradrenaline. Vessels were then incubated for 30 min with either L- or D-arginine (10 microM) and the concentration-response curves to the three dilator agonists repeated in the presence of the amino acid. 5. Maximum relaxation responses to acetylcholine (control vs hypercholesterolaemic: 83.3+/-6.1% vs 47.4+/-13.5%; P < 0.05), but not to substance P or sodium nitroprusside, were dampened in the hypercholesterolaemic group when compared with controls. 6. Neither incubation with L-arginine nor D-arginine had any effect on maximum relaxation responses to acetylcholine in either the control group (pre L-arginine vs plus L-arginine: 83.3+/-6.1 vs 82.3+/-5.5%, pre D-arginine vs plus D-arginine: 98.9+/-1.2 vs 98.2+/-1.1%) or the hypercholesterolaemic group (pre L-arginine vs plus L-arginine: 47.4+/-13.5 vs 55.3+/-14.3%, pre D-arginine vs plus D-arginine: 43.3+/-13.6 vs 65.4+/-12.3%). 7. When results from the two study groups were pooled, the strongest predictor of maximum relaxation obtained to acetylcholine was apolipoprotein A1 (r = 0.67; P = 0.001). 8. In conclusion, relaxation responses mediated by the endothelium-dependent agonist acetylcholine, but not by substance P, are impaired in hypercholesterolaemic patients. L-Arginine did not improve the impaired relaxation responses to acetylcholine. We suggest that impaired endothelium-dependent relaxation is specific to acetylcholine and not to an abnormal L-arginine-nitric oxide pathway in subcutaneous arteries excised from this study group.
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PMID:Responses to endothelium-dependent agonists in subcutaneous arteries excised from hypercholesterolaemic men. 963 Mar 63

It is thought that elevated levels of reactive oxygen metabolites contribute to the dysfunction of vascular endothelium in hypertension. We hypothesized that high intravascular pressure itself elicits production of superoxide, which then interferes with nitric oxide (NO)-mediated responses of arterioles. Thus, isolated arterioles (approximately 80 microm in diameter) from gracilis muscle of normotensive Wistar rats were cannulated and exposed to 140 mm Hg perfusion pressure for 30 minutes (in the absence of perfusate flow). After high intravascular pressure treatment, dilations to increases in perfusate flow (0 to 30 microL/min) were significantly reduced (from 39+/-2.2 to 19+/-2.1 microm at 30 microL/min), eliciting an increase in wall shear stress from approximately 20 to approximately 60 dyne/cm2. Nomega-nitro-L-arginine (10(-4) mol/L) did not affect, whereas indomethacin eliminated, flow-induced dilations after pressure treatment. In control, substance P (SP, 10(-9) to 5x10(-8) mol/L), sodium nitroprusside (SNP, 10(-8) to 10(-6) mol/L), and adenosine (ADO, 10(-6) to 5x10(-5) mol/L) elicited dilations (SP: 31.5+/-1.9 microm, SNP: 45.6+/-4 microm, and ADO: 37.2+/-4.1 microm, at maximum concentrations, respectively). After pressure treatment, maximum dilations to SP and SNP were significantly reduced (by 49% and 39%, respectively), whereas responses to ADO were not affected. Presence of superoxide dismutase (120 U/mL) and catalase (80 U/mL), but not catalase alone, in the perfusate solution prevented the reduction in dilation of arterioles to flow and agonists after pressure treatment by restoring NO mediation. We conclude that high intravascular pressure per se elicits the release of superoxide, which then interferes with NO, a mechanism that contributes to the elevation of wall shear stress and peripheral resistance in hypertension.
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PMID:Superoxide released to high intra-arteriolar pressure reduces nitric oxide-mediated shear stress- and agonist-induced dilations. 979 46

Effects of chronic treatment with fetal bovine serum on the function of vascular endothelium were examined using an organ culture system. In the rabbit mesenteric arteries cultured with 10% fetal bovine serum for 7 days, the substance P- or ionomycin-induced endothelium-dependent relaxation was significantly attenuated compared to the arteries cultured in the serum-free condition. The effects of the serum were concentration- and time-dependent. By the treatment with the serum, the amounts of nitric oxide (NO) production and total mRNA for endothelial NO synthase were reduced, whereas the sodium nitroprusside-induced relaxation was rather augmented. These results suggest that chronic treatment of rabbit mesenteric artery with fetal bovine serum decreases endothelial NO synthase mRNA, reduces NO production and impairs endothelium-dependent relaxation.
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PMID:Impairment of endothelium-dependent relaxation in the arteries cultured with fetal bovine serum. 1008 5

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