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)

To elucidate the regulation mechanism of adrenomedullin (AM) production in blood vessels, we examined the effects of 30 substances on AM production in cultured rat vascular smooth muscle cells (VSMCs). Forskolin and 8-bromo-cAMP suppressed production and gene transcription of AM. Since VSMC expresses AM receptors coupled with adenylate cyclase, AM production may be regulated by intracellular cAMP concentration. Thrombin, vasoactive intestinal polypeptide and interferon-gamma also inhibited AM production, while angiotensin II, endothelin-1, bradykinin, substance P, adrenaline, phorbol ester and fetal calf serum stimulated AM production in VSMC. These results suggest that AM production is regulated by a variety of substances, indicating complex systems regulating AM production.
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PMID:Effects of vasoactive substances and cAMP related compounds on adrenomedullin production in cultured vascular smooth muscle cells. 764 78

The effect of human adrenomedullin on cerebral circulation was investigated in dogs in vivo and in vitro. Bolus administration of adrenomedullin or its homologous peptides, calcitonin gene-related peptide (CGRP) and amylin, into the vertebral artery induced a dose-dependent increase in vertebral blood flow. The potencies of adrenomedullin and CGRP were similar and approximately 100 times more than that of amylin. The effects of adrenomedullin and CGRP were inhibited by CGRP8-37, an antagonist of CGRP. In contrast to substance P, adrenomedullin did not induce an increase in blood flow after prior administration of CGRP. Pretreatment with either NG-nitro-L-arginine methyl ester or indomethacin did not affect the adrenomedullin-induced increase in blood flow. Intracisternal administration of adrenomedullin induced dilation of the basilar and other major cerebral arteries in a dose-dependent manner, accompanied by an increase in the concentration of cyclic AMP in the cerebrospinal fluid. Adrenomedullin also induced relaxation of isolated basilar and middle cerebral arterial rings. These data suggest that adrenomedullin induces vasodilation of cerebral arteries and an increase in vertebral blood by acting at CGRP receptors positively coupled to adenylate cyclase, and that these effects are not dependent on nitric oxide or prostaglandin formation.
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PMID:Effects of adrenomedullin, calcitonin gene-related peptide, and amylin on cerebral circulation in dogs. 767 75

1. The airway and pulmonary vascular effects of adrenomedullin were studied in the guinea-pig isolated trachea, main bronchi and pulmonary artery in vitro and compared to the effects of calcitonin gene-related peptide (CGRP). 2. In tracheal rings, CGRP (1 nM to 1 microM) potentiated the cholinergic contractions induced by electrical field stimulation (EFS) at 5 Hz in a concentration-dependent manner. At a concentration of 1 microM, CGRP slightly decreased the responses to log EFS frequency, producing 50% of the maximum contraction from a control value of 0.77 +/- 0.10 Hz to 0.54 +/- 0.05 Hz without a significant effect on the concentration-response curves to acetylcholine (ACh). In contrast, adrenomedullin (1 nM to 1 microM) did not alter either EFS-induced cholinergic or ACh-induced contractions. 3. In bronchial strips, CGRP (1 nM to 1 microM) slightly reduced both the non-adrenergic non-cholinergic (NANC) contraction induced by EFS at 10 Hz and the substance P (1 microM)-induced contraction in a concentration-dependent manner, whereas adrenomedullin (1 nM to 1 microM) was without effect. 4. Neither CGRP (1 microM) nor adrenomedullin (1 microM) altered NANC relaxation induced by EFS at 5 Hz in tracheal rings precontracted with histamine (10 microM). 5. Adrenomedullin (1 nM to 1 microM) and CGRP (1 nM to 1 microM) induced a concentration-dependent relaxation of the histamine (10 microM)- and prostaglandin F2 alpha (10 microM)-precontracted pulmonary arterial rings with intact endothelium with a similar potency. 6. Neither removal of the endothelium nor NG-nitro-L-arginine methyl ester (100 microM) altered the vasorelaxant effects of adrenomedullin (1 nM to 1 microM) and CGRP (1 nM to 1 microM). 7. The putative CGRP receptor antagonist, CGRP8-37 (1 microM to 10 microM) concentration-dependently attenuated the CGRP (3 nM to 30 nM)-induced vasorelaxant actions, whereas it had no effect on the relaxation of vessel rings induced by adrenomedullin (3 nM to 30 nM). 8. These results suggest that adrenomedullin is a potent vasodilator of the pulmonary artery without any bronchomotor effect in the guinea-pig lung, and that the vasorelaxant actions of adrenomedullin are not mediated via the activation of CGRP1 receptors.
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PMID:Effects of adrenomedullin and calcitonin gene-related peptide on airway and pulmonary vascular smooth muscle in guinea-pigs. 896 58

In the liver of humans, guinea pigs, cats, and tupaia, nerve endings are distributed all over the hepatic lobules from the portal spaces to the centralobular spaces. Nerve endings in the intralobular spaces are located mainly in the space of Disse, and are closely related to lipocytes. In the human liver, various neurotransmitters such as substance P (SP) exist in the nerve endings. Lipocytes are believed to contract through these substances. In fact, the contraction of lipocytes is induced by SP. Moreover, lipocytes possess endothelin (ET) receptors (ETA, ETB), and the cells are contracted by ET-1 by way of ET receptors in the autocrine or paracrine mechanism. Contraction of lipocytes seems to be related to the enhancement of the intracellular Ca2+ and inositol phosphates. In addition, alpha-smooth muscle actin, which is a contractile protein, exists in the cytoplasm of lipocytes. Lipocyte contractility may be similar to that of vascular smooth muscle cells. On the other hand, prostaglandin E2, Iloprost, and adrenomedullin cause the elevation of c-AMP levels in lipocytes and relax the cells. In addition, lipocytes produce nitric oxide (NO) and inhibit contractility by an autocrine mechanism related to NO. In this way, lipocytes appear to be associated with the regulation of hepatic sinusoidal microcirculation by contraction and relaxation. In the cirrhotic liver, intralobular innervation is decreased or absent, but ET-1 and NO are overexpressed. These phenomena indicate that lipocytes may play an important role in the sinusoidal microcirculation through these agents rather than through intralobular innervation in liver cirrhosis.
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PMID:Intralobular innervation and lipocyte contractility in the liver. 910 92

The effects of the nitric oxide (NO) synthesis inhibitor L-N5-(1-iminoethyl)-ornithine (L-NIO) on baseline tone and on responses to the endothelium-dependent vasodilator agents were investigated in the pulmonary vascular bed of the cat under constant-flow conditions. When administered in doses of 1 and 5 mg/kg i.v., L-NIO inhibited pulmonary vasodilator responses to acetylcholine, bradykinin, and substance P but did not alter vasodilator responses to adenosine, pinacidil, or adrenomedullin. L-NIO in doses of 1-10 mg/kg i.v. did not significantly affect baseline lobar arterial pressure, and when administered in doses of 10-30 mg/kg i.v. the inhibitory effect on responses to bradykinin and substance P was not greater than that observed when the lower doses of L-NIO were administered. L-NIO in doses of 5-30 mg/kg i.v. reduced plasma reactive nitrogen intermediate levels. The inhibitory effects of L-NIO were similar to the inhibitory effects of N omega-nitro-L-arginine, N omega-nitro-L-arginine methyl ester, and N omega-nitro-L-arginine benzyl ester. The highest dose of L-NIO studied (30 mg/kg i.v.) caused a significant increased in lobar arterial pressure, and the administration of N omega-nitro-L-arginine methyl ester (100 mg/kg i.v.) caused a significant increase in lobar arterial pressure in animals previously treated with L-NIO (1 mg/kg i.v.). The results of the present study show that the effects of L-NIO on endothelium-dependent vasodilator responses and on baseline tone can be separated and may be interpreted to suggest that basal release of NO does not play an important role in the maintenance of baseline tone in the pulmonary vascular bed of the cat.
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PMID:Differential effects of L-N5-(1-iminoethyl)-ornithine on tone and endothelium-dependent vasodilator responses. 931 93

Membrane metalloendopeptidase EC 3.4.24.11 (Enkephalinase, neutral endopeptidase, NEP) is a cellular ectoenzyme, immunophenotypically identified as the leukocyte cluster of differentiation CD10 or CALLA (common acute lymphoblastic leukemia antigen). Immunological, biochemical and molecular biology techniques have identified tis cell membrane feature in various organs: brain, cardiovascular system, lung, placenta, kidney etc. The CD10 immunophenotype is a common feature of lymphoblasts in acute lymphoid leukemia not expressing the T- or B-markers. The enzymatic activity of CD10/NEP possibly influences normal lymphocyte ontogeny by proteolytic cleavage of the regulatory peptides. The substrates of CD10/NEP in the kidneys are (see the list of abbreviations) ANP, adrenomedullin and PAMP; in the brain, the substrates are enkephalins and oxytocin; in the lung, bombesin, BLP, GRP, neuromedin C, substance P and neurokinin A; in the cardiovascular system, angiotenisin II, bradykinin and CGRP; in the gut, VIP; on the neutrophil membrane, fMLP etc. Some substrates are not strictly tissue-specific, e.g. substance P. Preclinical and clinical trials explore possibilities of therapeutic application of the inhibitors of neutral endopeptidase, such as thiorphan in the management of pain, diarrhoea, depression, arterial hypertension and asthma. Other possibilities of application include the treatment of hyalinomembranous disease and prevention of neurotoxicosis in tetanus and botulism.
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PMID:[Membrane metalloendopeptidase (CD10/CALLA): distribution, physiologic and pathophysiologic functions and its inhibitors]. 974 92

1. In skeletal muscle, catecholamines and calcitonin gene-related peptide (CGRP) increase the content of cAMP, which mediates stimulation of the Na+-K+ pump. Amylin is structurally very similar to CGRP and also increases cAMP in muscle. 2. In isolated rat soleus and extensor digitorum longus muscle, amylin produced a rapid and marked decrease in intracellular Na+, which was maintained for several hours. In soleus, amylin was found to induce a 45 % stimulation of Na+ efflux, a 43 % increase in 86Rb influx and a rise in intracellular K+. All these effects were abolished by ouabain, indicating that amylin produces acute stimulation of the Na+-K+ pump. 3. In contrast, neither the closely related peptides islet amyloid polypeptide (IAPP) and adrenomedullin nor other peptide hormones (C peptide, neuropeptide Y or substance P) produced any detectable change in intracellular Na+ or K+ uptake in soleus. 4. When contractility in soleus was inhibited by increasing extracellular K+ to 12.5 mM, amylin (10-8 M) and insulin (0.7 x 10-8 M) both induced partial recovery of force. These effects were additive, and in combination the two hormones elicited 63 and 80 % recovery of tetanic and twitch force, respectively. Higher concentrations produced even larger increases, and all effects were blocked by ouabain. 5. In buffer containing 12.5 mM K+, dibutyryl cAMP induced 71 % force recovery, which was increased by theophylline. The results indicate that amylin (like catecholamines, cAMP, CGRP and insulin) stimulates the Na+-K+ pump and thereby improves the contractility of depolarized skeletal muscle cells. This adds further support to the concept that the Na+-K+ pump is important for the maintenance of excitability in skeletal muscle.
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PMID:Effects of amylin and other peptide hormones on Na+-K+ transport and contractility in rat skeletal muscle. 1094 75

Vascular resistance in the mammalian pulmonary circulation is affected by many endogenous agents that influence vascular smooth muscle, right ventricular myocardium, endothelial function, collagen and elastin deposition, and fluid balance. When the balance of these agents is disturbed, e.g. by airway hypoxia from high altitude or pulmonary obstructive disorders, pulmonary hypertension ensues, as characterized by elevated pulmonary artery pressure (P(PA)). Among neuropeptides with local pulmonary artery pressor effects are endothelin-1 (ET-1), angiotensin II (AII), and substance P, and among mitigating peptides are calcitonin gene-related peptide (CGRP), adrenomedullin (ADM), atrial natriuretic peptide (ANP), vasoactive intestinal peptide (VIP) and ET-3. Moreover, somatostatin28 (SOM28) exacerbates, whereas SOM14 decreases P(PA) in hypoxic rats, with lowering and increasing of lung CGRP levels, respectively. Pressure can also be modulated by increasing or decreasing plasma volume (VIP and ANP, respectively), or by induction or suppression of vascular tissue remodeling (ET-1 and CGRP, respectively). Peptide bioavailability and potency can be regulated through hypoxic up- and down- regulation of synthesis or release, activation by converting enzymes (ACE for AII and ECE for ET-1), inactivation by neutral endopeptidase and proteases, or by interaction with nitric oxide (NO). Moreover, altered receptor density and affinity can account for changed peptide efficacy. For example, upregulation of ET(A) receptors and ET-1 synthesis occurs in the hypoxic lung concomitantly with reduced CGRP release. Also, receptor activity modifying protein 2 (RAMP2) has been shown to confer ADM affinity to the pulmonary calcitonin-receptor-like receptor (CRLR). We recently detected the mRNA encoding for RAMP2, CRLR, and the CGRP receptor RDC-1 in rat lung. The search for an effective, lung selective treatment of pulmonary hypertension will likely benefit from exploring the imbalance and restoring the balance between these native modulators of intrapulmonary pressure. For example, blocking of the ET-1 receptor ET(A) and vasodilation by supplemental CGRP delivered i. v. or via airway gene transfer, have proven to be useful experimentally.
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PMID:The role of endogenous lung neuropeptides in regulation of the pulmonary circulation. 1119 57

Kawasaki disease (KD) is an acute inflammatory disorder of children frequently associated with the development of coronary artery abnormalities. Although a great deal is known about inflammatory and immune responses in acute KD, the mechanisms linking the immune response to vascular changes are not known. To gain further insight into this process, we performed a microarray gene expression analysis on RNA isolated from the peripheral blood mononuclear cells of four patients with KD during both their acute and convalescent phases. Forty-seven genes of 7129 genes examined showed an increased expression in three or all four patients in the acute compared with the convalescent phase of KD. Fourteen of these genes were significantly (p < 0.05) up-regulated, including several inflammatory response genes (e.g. S-100 A9 protein) and also anti-inflammatory genes (e.g. TSG-6). Of greatest interest, the adrenomedullin (ADM) gene, known to be associated with coronary artery vasodilation, was up-regulated in the acute phase of KD (p = 0.024). Up-regulation of ADM in the acute phase of KD was confirmed in peripheral blood mononuclear cells of 11 additional KD patients by reverse transcriptase-PCR (p < 0.01). Isolated blood monocytes but not lymphocytes were demonstrated by real-time PCR to have increased ADM mRNA (p = 0.01). Plasma ADM protein level in 32 additional KD patients was also confirmed to be higher in acute KD compared with convalescent KD (p < 0.032). It is interesting that from microarray results, other molecules known to be associated with coronary dilation, including nitric oxide, prostacyclin, acetylcholine, bradykinin, substance P, and serotonin, were not elevated in acute KD. Our current study suggests that ADM-expressing monocytes that infiltrate the coronary vascular wall may be the cause of coronary dilation in the acute phase of KD.
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PMID:Adrenomedullin is highly expressed in blood monocytes associated with acute Kawasaki disease: a microarray gene expression study. 1553 34

In this study we aimed to assess in vivo, the vasodilator effects of adrenomedullin, proadrenomedullin N-terminal 20 peptide (PAMP) and amylin in human skin vasculature and compare the responses to the effects mediated by the endogenous neuropeptides calcitonin gene-related peptide (CGRP) and substance P and to examine the mRNA expression of calcitonin receptor-like receptor (CL-R) and receptor-activity modifying proteins, RAMP1, RAMP 2 and RAMP3 in human subcutaneous arteries. Changes in skin blood flow of the forearm were measured using a Laser Doppler Imager after intradermal injection of the peptides. The mRNA expression was assessed by real-time reverse transcriptase-polymerase chain reaction (real-time PCR). CGRP, adrenomedullin and amylin induced concentration-dependent, long-lasting increases in skin blood flow. The response to PAMP was shorter in duration appearing similar to the transient response induced by substance P. PAMP (10(-6)-10(-5) M) caused distinct itch sensation and local erythema. This effect could be abolished when combining the histamine H1-receptor antagonist mepyramin and PAMP. Real-time PCR data showed a higher level of mRNA for RAMP2 than CL-R, RAMP1 and RAMP3 in the tissue. Though the PCR data demonstrated the presence of mRNA for both CGRP1 and adrenomedullin receptors the rank order of potency (CGRP>adrenomedullin>amylin) for the blood flow increase indicated vasodilatation for these peptides was induced by activation of CGRP1 receptors. Intradermal injection of CGRP, adrenomedullin and amylin induces long lasting dilatation of human skin vasculature by activation of CGRP1 receptors. PAMP induces transient vasodilatation. PAMP but not CGRP, adrenomedullin and amylin causes itch sensation and local erythema. The transient effect on vasodilatation as response to PAMP is discussed.
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PMID:The vasorelaxant effect of adrenomedullin, proadrenomedullin N-terminal 20 peptide and amylin in human skin. 1691 18

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