Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

In the last few years, experimental evidence has accumulated which suggests a substantial role for the endothelium in the control of vascular tone. Endothelium-dependent dilatations have been demonstrated in various arteries of numerous mammalian species including man. Among the stimuli which elicit endothelium-dependent dilatation are such varying stimuli as increases in blood flow and hypoxia, as well as endogenous (acetylcholine, ATP, ADP, bradykinin, substance P) and pharmacological agents (calcium ionophore A 23187, ergometrine, hydralazine, melittin). The functional importance of endothelium-dependent dilatation is emphasized by the fact that the direct vasoconstrictor effects of some of these substances (acetylcholine, histamine, norepinephrine, serotonin) on vascular smooth muscle is attenuated or even reversed by their simultaneous stimulatory effect on endothelial cells, resulting in the release of a vasodilator signal. Bioassay experiments have shown that a humoral vasodilator agent with a biological half-life in the range of seconds is released from the endothelium (native or cultured) during stimulation with acetylcholine, ATP and calcium ionophore. Experimental data are presented, which suggest that EDRF may act by direct stimulation of guanylate cyclase, resulting in smooth muscle relaxation due to increased smooth muscle cyclic GMP levels. The chemical nature of this nonprostaglandin endothelium-derived relaxant factor (EDRF) is still not known. The possible physiological and pathophysiological significance of endothelium-dependent dilatation in situ is discussed. Special attention is paid in this context to the potential role of EDRF activity in coronary vasomotor control.
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PMID:The role of endothelium in the control of vascular tone. 300 Mar 43

In the last few years, experimental evidence has accumulated which suggests a substantial role for the endothelium in the control of vascular tone. Endothelium-dependent dilations have been demonstrated in various arteries of numerous mammalian species including man. Among the stimuli which elicit endothelium-dependent dilatation are such different stimuli as increases in blood flow and hypoxia as well as endogenous (acetylcholine, ATP, ADP, bradykinin, substance P) and pharmacological agents (calcium ionophore A 23 187, ergometrine, hydralazine, melittin). The functional importance of endothelium-dependent dilatation is emphasized by the fact that the direct vasoconstrictor effects of some of these substances (acetylcholine, histamine, norepinephrine, serotonin) on vascular smooth muscle is attenuated or even reversed by their simultaneous stimulatory effect on endothelial cells resulting in the release of a vasodilator signal. Bioassay experiments have shown that a humoral vasodilator agent with a biological half-life in the range of seconds is released from the endothelium (native or cultured) during stimulation with acetylcholine, ATP and calcium ionophore. Experimental data are presented which suggest that EDRF may act by direct stimulation of guanylate cyclase, resulting in smooth muscle relaxation due to increased smooth muscle cyclic GMP levels. The chemical nature of this nonprostaglandin endothelium-derived relaxant factor (EDRF) is still not known. The possible physiological and pathophysiological significance of endothelium-dependent dilatation in situ is discussed. Special attention is paid in this context to the potential role of EDRF activity in coronary vasomotor control.
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PMID:[Regulation of vascular tone by the endothelium]. 300 57

Endothelial cells of the arterial wall can generate vasodilator and vasoconstrictor substances. The prototype of a vasodilator substance formed primarily in the endothelium is prostacyclin, although its main target under physiological conditions are the platelets. In addition, the endothelial cells respond to a variety of neurohumoral mediators by the liberation of an unidentified substance(s) (endothelium-derived relaxing factor) with a potent inhibitory effect on vascular smooth muscle, presumably because it accelerates the production of cyclic GMP in the latter. Endothelium-derived relaxing factor is very unstable, and has an extremely short half-life. It is inactivated by plasma proteins and thus does not fulfill a hormonal role. A metabolite of arachidonic acid may be involved in the production of endothelium-derived relaxing factor. Among the neurohumoral mediators which release it are: acetylcholine (through activation of muscarinic receptors), adenosine di- and triphosphate (P2-purinergic receptors), bradykinin, histamine (H1- or H2-histaminergic receptors, depending on the species), serotonin (S1-serotonergic receptors), substance P, oxytocin, thrombin and vasopressin (V1-vasopressinergic receptors). The release of the factor can also be triggered by aggregating platelets (because they release adenine nucleotides and serotonin) and by increases in shear stress. It is likely that endothelium-dependent dilatation helps to prevent intraluminal coagulation in arteries with a normal intima. Absence, or dysfunction of the endothelium may favor the occurrence of vasospasm. Endothelium-dependent relaxations are reduced in atherosclerotic blood vessels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The endothelium and arterial reactivity]. 349 May 30

The concentration of intracellular free calcium ions was measured by spectrofluorometry in suspensions of quin2 loaded neural cell lines: neuroblastoma X glioma hybrid cells (clones 108CC15 and 108CC25) and polyploid rat glioma cells (clone C6-4-2). In these cells, bradykinin elicits a transient increase of the cytosolic Ca2+-activity in a dose-dependent manner (half-maximal effect at about 10 nM). The effect requires the presence of extracellular Ca2+. The time to peak is at most 10 s, the decay to the original level lasts 1 min and is followed by a period of 1-4 min during which Ca2+ activity is slightly below control value. Lys-bradykinin and Met-Lys-bradykinin evoke similar effects as bradykinin, but at concentrations 10 times lower. The cells desensitize upon repeated addition of bradykinin. Under the same conditions des-Arg1-bradykinin, des-Arg9-bradykinin, angiotensin II, substance P, apamin and histamine exerted no influence on the concentrations of free Ca2+. Similar to their effect in neural cell lines, bradykinin and Lys-bradykinin induce in primary astroglia-rich cultures from rat brain an increase in the concentration of cytosolic Ca2+ with the peak reached within 30 s and the decay to the original level lasting approximately 4 min. The significance of this effect of bradykinin on the cytosolic Ca2+-activity is discussed in relation to previous findings that bradykinin in the same cell lines induces a hyperpolarization, a rise of the cyclic GMP level and a breakdown of phosphoinositides.
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PMID:Bradykinin causes a transient rise of intracellular Ca2+-activity in cultured neural cells. 406 82

Two cell culture systems were used for studies of neural functions in vitro. A neuronal hybrid cell line (neuroblastoma x glioma hybrid cells) and primary glial-rich cultures of newborn murine brain. The level of cyclic AMP in both systems is regulated by two groups of hormones, those that stimulate and those that inhibit formation of cyclic AMP. Among the inhibitory hormones active on the hybrid cells are opioids. Therefore the cells are being used in the elucidation of action of opioids. The list of stimulating and inhibitory hormones regulating the primary glial-rich cultures includes several peptide hormones such as the gastrointestinal peptides secretin and vasoactive intestinal peptide, the calcaemic hormones parathyrin and calcitonin, adrenocorticotropin and melanotropins, and somatostatin. Noradrenaline (via alpha- and beta-adrenergic receptors) and adenosine (via A1 and A2 receptors) inhibit and stimulate cyclic AMP synthesis in the primary glial-rich cultures. Bradykinin slowly hyperpolarizes the hybrid cells and elicits formation of cyclic GMP. Both responses desensitize rapidly. Substance P increases the permeability of hybrid cells for Na+, as measured by using 14C-guanidinium as substitute for Na+. Hybrid cells actively accumulate taurine, an amino acid that appears to fulfill important functions in the nervous system. The transport of taurine across the plasma membrane is highly specific for and strictly dependent on Na+. The pumped station hypothesis of taurine action in the nervous system views taurine gradient plus taurine carrier as a transport system for the elimination of sodium from neurons during phases of high neuronal activity.
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PMID:Cell culture as models for studying neural functions. 608 74

This study describes effects of various peptides, neurotransmitters and cyclic nucleotides on brain polyphosphoinositide metabolism in vitro. The interconversion of the polyanionic inositol phospholipids was studied by incubation of a lysed crude mitochondrial/synaptosomal fraction with [gamma-32P]-ATP. The reference peptide ACTH1-24 stimulated the formation of radiolabelled phosphatidylinositol 4,5-diphosphate (TPI) and inhibited that of phosphatidic acid (PA). Substance P inhibited both TPI and PA labelling, whereas beta-endorphin inhibited that of PA without any effect on TPI. Morphine had no effect at any concentration tested, whereas high concentrations of naloxone inhibited the labelling of both PA and TPI. Naloxone did not counteract the effects of ACTH1-24. The other peptides tested (lysine 8-vasopressin and angiotensin II) were without any effect. Under the conditions used, adrenaline, noradrenaline and acetylcholine did not affect the labelling of the (poly)phosphoinositides. Both dopamine and serotonin, however, dose-dependently inhibited the formation of radiolabelled TPI and PA. Low concentrations of cAMP stimulated TPI, but higher concentrations had an overall inhibitory effect on the labelling of TPI, PA and especially phosphatidylinositol 4-phosphate (DPI). The cyclic nucleotide did not mediate or counteract the effects of ACTH, and cGMP was without any effect. These results are discussed in the light of current ideas on the mechanism of action of neuropeptides.
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PMID:Polyphosphoinositide metabolism in rat brain: effects of neuropeptides, neurotransmitters and cyclic nucleotides. 612 17

The effects of a number of vasoactive and neurotransmitter substances on lymphocyte traffic were studied by assessing their effects on the release of lymphocytes into primary peripheral (popliteal) nodal efferent lymph of sheep following acute infusion into cannulated afferent nodal lymphatics. In a total of 23 experiments, the output of lymphocytes, small and blast, was increased by serotonin, substance P, bombesin, [met]enkephalin, isoprenaline and phenylephrine and was decreased by vasoactive intestinal peptide (VIP), neurotensin and carbachol. Substances whose actions are modulated by prostaglandins and enhanced by prostaglandin synthesis inhibitors and which elevate blood monocyte and nervous tissue levels of cyclic GMP tended to increase lymphocyte traffic through peripheral lymph nodes in sheep in vivo. The opposite effect tended to be produced by substances whose actions require or are associated with prostaglandins or histamine, and which affect blood monocytic cyclic nucleotide levels by elevation of cyclic AMP or depression of cyclic GMP. Pain and inflammation tended to increase lymphocyte traffic, while analgesics and immunomodulators tended to decrease it.
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PMID:Modification of lymphocyte traffic by vasoactive neurotransmitter substances. 614 65

In dispersed acinar cells from the guinea pig pancreas, substance P (SP) was found to stimulate outflux of 45Ca, cellular accumulation of cyclic GMP, and release of amylase. Maximal effects on accumulation of cyclic GMP and release of amylase were obtained with 3 x 10(-8) M of SP, 10(-7) M of Sp caused maximal outflux of 45Ca. These effects corresponded to 30-50% of the maximal effects obtained with caerulein, a cholecystokinin-like decapeptide. The concentrations of SP required for stimulation of 45Ca outflux, accumulation of cyclic GMP, and release of amylase correspond well with those which affect binding of 125I-tyr8-SP to pancreatic acinar cells.
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PMID:Interaction of substance P with dispersed pancreatic acinar cells from the guinea pig. Stimulation of calcium outflux, accumulation of cyclic GMP and amylase release. 616 Jul 30

Somatostatin, substance P, cyclic AMP and cyclic GMP were determined in the cerebrospinal fluid of patients with Huntington's disease, in first generation relatives of choreic patients and in neurological control patients. Substance P levels were not significantly altered, but somatostatin levels were markedly decreased both in affected patients and symptom-free offspring. Cyclic AMP was decreased only in patients with advanced stages of the disease while cyclic GMP was normal. Evidence is discussed which may support a role of somatostatin deficiency in the pathophysiology of chorea.
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PMID:Huntington's chorea-- measurements of somatostatin, substance P and cyclic nucleotides in the cerebrospinal fluid. 616 83

The immunofluorescent localization of cyclic 3',5'-guanosine monophosphate (cyclic GMP) in rat superior cervical ganglion has been compared to postganglionic neurons having immunoreactivity to neuropeptides. Cyclic GMP-positive somata are equally distributed among cell bodies fluorescent for substance P, somatostatin, and methionine-enkephalin. 40% of the total number of cells stained for each peptide demonstrate co-incident cyclic GMP localization, suggesting a large majority of the neurons employ non-cyclic GMP mechanisms.
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PMID:Co-localization of cyclic GMP in superior cervical ganglion with peptide neurotransmitters. 619 37


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