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)

Stimulation of sensory nerves in the airway mucosa of the rat evokes the release of inflammatory peptides such as substance P, which can increase microvascular permeability, resulting in a phenomenon known as neurogenic plasma extravasation. The change in vascular permeability is mediated by NK-1 receptors and is caused by the formation of gaps between endothelial cells of postcapillary venules and small collecting venules, which are the same vessels as are affected by inflammatory mediators such as histamine and bradykinin. Respiratory tract infections caused by Sendai virus or Mycoplasma pulmonis can intensify neurogenic plasma extravasation in the airway mucosa, as indicated by the amount of microvascular leakage evoked by substance P or capsaicin. M. pulmonis infections can produce a 30-fold increase in the magnitude of neurogenic plasma extravasation, which is evident 4 wk after infection and may be permanent. A proliferation of venules in the airway mucosa and heightened sensitivity of these vessels to inflammatory mediators are key elements of the increase in plasma extravasation. Exposure of M. pulmonis-infected rats to ammonia exacerbates the infections and further augments the responsiveness of mucosal venules to inflammatory mediators. Despite this increased responsiveness, the vessels are not abnormally leaky in the absence of inflammatory stimuli. These findings emphasize the importance of airway infections as factors that can cause a potent, long-lasting increase in the sensitivity of the microvasculature of the airway mucosa to inflammatory mediators.
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PMID:Infections intensify neurogenic plasma extravasation in the airway mucosa. 144 6

Neuropeptides such as substance P are implicated in inflammation mediated by sensory nerves (neurogenic inflammation), but the roles in disease of these peptides and the peptidases that degrade them are not understood. It is well established that inflammation is a prominent feature of several airway diseases, including viral infections, asthma, bronchitis, and cystic fibrosis. These diseases are characterized by cough, airway edema, and abnormal secretory and bronchoconstrictor responses, all of which can be elicited by substance P. The effects of substance P and other peptides that may be involved in inflammation are decreased by endogenous neutral endopeptidase (NEP; also called enkephalinase, EC 3.4.24.11), which is a peptidase that degrades substance P and other peptides. In the present study, we report that rats with histories of infections caused by common respiratory tract pathogens (parainfluenza virus type 1, rat corona-virus, and Mycoplasma pulmonis) not only have greater susceptibility to neurogenic inflammatory responses than do pathogen-free rats but also have a lower activity of NEP in the trachea. This reduction in NEP activity may cause the increased susceptibility to neurogenic inflammation by allowing higher concentrations of substance P to reach tachykinin receptors in the trachea. Thus decreased NEP activity may exacerbate some of the pathological responses in animals with respiratory tract infections.
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PMID:Neutral endopeptidase and neurogenic inflammation in rats with respiratory infections. 254 62

This study reveals that respiratory tract infections make the tracheal mucosa of rats more susceptible to neurogenic inflammation, which is a type of inflammation mediated by neuropeptides released from sensory nerves. Neurogenic inflammation was produced in the tracheas of 2 groups of Long-Evans rats by electrical stimulation of the vagus nerve (5 V, 1 ms, 20 Hz for 5 min) or by an injection of capsaicin (15 to 200 micrograms/kg i.v.) or substance P (0.05 to 5.0 micrograms/kg i.v.). Rats of one group were pathogen-free; the others had serologic evidence of naturally occurring airway infections caused by Sendai virus, coronavirus, and Mycoplasma pulmonis. The stimuli produced neurogenic inflammation in both groups of rats, but the magnitude of this inflammation was much greater in the infected rats. The susceptibility of the infected rats to neurogenic inflammation was manifested by a 2.0 to 3.1 times larger increase in vascular permeability to Monastral blue, 5 times larger increase in number of neutrophils adhering to the endothelium of venules, and conspicuous morphologic changes in the tracheal epithelium. When pathogen-free rats acquired respiratory tract infections, they too became susceptible to neurogenic inflammation. Other experiments showed that infection by Sendai virus was essential for the change, although infection by M. pulmonis or coronavirus may also be necessary. The susceptibility to neurogenic inflammation outlasted the transient pathologic changes caused in the airway mucosa by the viral infections and may have been permanent.
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PMID:Respiratory tract infections increase susceptibility to neurogenic inflammation in the rat trachea. 284 33

Mycoplasma pulmonis infection in rats causes a chronic inflammatory airway disease. Along with extensive remodeling of the airway mucosa, lymphocytic infiltrates, angiogenesis, and mucosal thickening, there is an abnormal sensitivity of the blood vessels to mediators that evoke "neurogenic inflammation". As a result, substance P, a peptide released from sensory nerves, produces an unusually large amount of plasma leakage. These changes can be prevented or reduced by prophylactic treatment with antibiotics, but it is unknown whether the extensive remodeling of the airway mucosa and potentiation of neurogenic inflammation can be reversed once they are established. We addressed this issue in F344 rats that were infected with M. pulmonis at 8 wk of age. Six weeks later, the rats were treated daily with an antibiotic (oxytetracycline, 20 mg/kg intramuscularly), to reduce the number of infecting organisms, or with an antiinflammatory steroid (dexamethasone, 0.5 mg/kg intraperitoneally), to reduce the inflammatory and immunologic response to the infection. Sham-treated infected rats received daily injections of 0.9% NaCl. After 1, 2, or 4 wk of treatment the rats were anesthetized and then challenged with substance P (5 micrograms/kg intravenously). The sham-treated rats had pathologic changes in their airways typical of severe M. pulmonis infection, and had as much as a threefold increase in substance P-induced plasma leakage. By comparison, after 4 wk of treatment with oxytetracycline or dexamethasone, the chronic inflammation was nearly resolved and the response to substance P was in the normal range. Unexpectedly, dexamethasone, like oxytetracycline, reduced the number of infecting organisms.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dexamethasone and oxytetracycline reverse the potentiation of neurogenic inflammation in airways of rats with Mycoplasma pulmonis infection. 752 80

Mycoplasma pulmonis infection in rats results in life-long disease, characterized by chronic inflammation of the airway mucosa with widespread accumulation of lymphoid tissue, mucous cell hyperplasia, and mucosal thickening. In addition, there is angiogenesis and increased sensitivity of mucosal blood vessels to substance P (SP), so tachykinins released from sensory nerve fibers cause an abnormally large amount of plasma leakage. We sought to learn whether the sensory nerves influence the severity of the chronic inflammatory response of M. pulmonis infection. Our strategy was to destroy the nerves by capsaicin pretreatment at birth, infect the rats with M. pulmonis at 8 wk of age, and then study the animals 6 wk later. We found that capsaicin pretreatment increased the severity of the infection, exaggerated the pathological changes in the tracheal mucosa, and increased the amount of SP-induced plasma leakage, as quantified with Monastral blue. The thickness of the tracheal mucosa in these infected rats was 80% greater than in their vehicle-pretreated counterparts and 200% greater than in the pathogen-free controls. The area density of Monastral blue-labeled blood vessels averaged 20% in the infected rats pretreated with capsaicin, which represented a 40-fold increase over the leakage in the pathogen-free group. By comparison, the amount of Monastral blue labeling was only 13% in rats pretreated with vehicle (P<0.05), which was a 22-fold increase over the corresponding pathogen-free group. The number of SP-immunoreactive nerve fibers was reduced both by neonatal capsaicin and by infection (87 and 63% reductions, respectively); but when the two conditions were combined, their effects were not additive (79% reduction), perhaps because of nerve regrowth. We conclude that destruction of sensory nerves increases the severity of infection- induced chronic inflammation in the airway mucosa, with exaggerated mucosal thickening, angiogenesis, plasma leakage, and nerve remodeling.
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PMID:Sensory denervation by neonatal capsaicin treatment exacerbates Mycoplasma pulmonis infection in rat airways. 863 32

Several lines of evidence suggest that sensory nerves of the carotid body have an efferent function in addition to their afferent function of conducting chemoreceptive impulses to the brain. However, it has been difficult to document the release of substances from sensory nerve terminals on glomus cells and to determine whether such an efferent function plays a role in chemoreception. By comparison, the phenomenon of neurogenic inflammation has been relatively easy to study in rats and guinea pigs and has proven to be an informative model system for analyzing efferent actions of sensory nerves. The main characteristic of neurogenic inflammation is plasma leakage. Chemical irritants that activate unmyelinated sensory nerves cause plasma leakage in the skin, respiratory tract, and other organs by triggering the release of substances from sensory nerve fibers. Substance P, which is synthesized and released by some sensory neurons, appears to be the main active mediator, although other tachykinins, calcitonin gene-related peptide, and perhaps other peptides may also participate. Neurogenic inflammation results from the action of substance P on NK1 receptors, as demonstrated by selective NK1 receptor agonists and antagonists. The NK1 receptors involved in plasma leakage are located on the endothelial cells of postcapillary venules and collecting venules. Within seconds of the activation of NK1 receptors by substance P, gaps form in the endothelium of target vessels. The endothelial gaps are transient, and the leak normally ends in a few minutes. However, the magnitude of the response can increase in pathological conditions such as Mycoplasma pulmonis infection in rats, which results in a chronic inflammatory disease of the respiratory tract. The infected airway mucosa becomes abnormally vascular as a result of angiogenesis, and the endothelial cells of the newly formed vessels express increased numbers of NK1 receptors and thus are abnormally sensitive to substance P. Studies of neurogenic inflammation not only have helped to understand the efferent actions of sensory nerves but also have given insight into the mechanism and consequences of inflammatory changes in endothelial cells and in the plasma leakage that follows.
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PMID:Neurogenic inflammation. A model for studying efferent actions of sensory nerves. 903 Mar 40

In rat airways, substance P released from sensory nerves induces plasma leakage via neurokinin-1 (NK1) receptors on endothelial cells. In pathogen-free rats, both leakage and endothelial NK1 receptors are most abundant in postcapillary venules. In Mycoplasma pulmonis-infected rats, extensive angiogenesis occurs in the tracheal mucosa. The capillary-sized (< 10 microns in diameter) angiogenic blood vessels are abnormally sensitive to substance P. The aim of this study was to determine whether increased expression of NK1 receptors contributes to this abnormal sensitivity. Fischer 344 rats were infected with M. pulmonis and were challenged with substance P (5 micrograms/kg i.v.), and then plasma leakage in the tracheal mucosa was measured by extravasation of Monastral blue (30 mg/kg i.v.). NK1 receptors on endothelial cells were localized by immunohistochemistry. Five minutes after substance P, NK1 receptor-immunoreactive endosomes were five times more abundant in endothelial cells of angiogenic capillaries in M. pulmonis-infected rats than in corresponding capillaries in pathogen-free controls (17.1 +/- 2.3 vs. 3.5 +/- 0.4 endosomes/100 micron 2 of endothelial surface). Endosomes were slightly more abundant in postcapillary venules 15-35 microns in diameter in infected rats (23.0 +/- 0.6 vs. 19.2 +/- 0.7 endosomes/100 micron 2). Similarly, after substance P, angiogenic capillaries had much more Monastral blue labeling (area density: 18.8 +/- 1.5 vs. 2.9 +/- 0.5% of vessel wall), whereas postcapillary venules had about the same amount of labeling (36.0 +/- 3.7 vs. 34.1 +/- 1.8%). We conclude that increased expression of NK1 receptors, which are internalized into endosomes after ligand binding, contributes to the abnormal sensitivity of endothelial cells of angiogenic blood vessels to substance P in the airways of M. pulmonis-infected rats.
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PMID:Upregulation of substance P receptors in angiogenesis associated with chronic airway inflammation in rats. 931 90

The effect of airway infection on neurogenic inflammation is not known. The present study examines the effect of Mycoplasma pulmonis infection on the sensory neuropeptides substance P (SP) and calcitonin gene-related peptide (CGRP) in the trigeminal ganglion and in the mucosa of the nose and trachea in rats. We compared germ-free (GF), conventionally raised (CV) and specific pathogen-free (SPF) rats. The concentrations of SP and CGRP in the nasal mucosa were assessed with immunohistochemistry, and their prohormonal transcripts in the trigeminal ganglion were assessed with Northern blot. Mucosa was also processed for light microscopy and electron microscopy. SP-like immunoreactivity was greater in the nasal mucosa of infected animals than in uninfected controls. CGRP-like immunoreactivity was greater in the nasal septum, but not in the nasal turbinate, of infected than uninfected animals. In contrast, no change was evident in the expression levels of the prohormonal transcripts in the trigeminal ganglion. Infected nasal and tracheal mucosa was oedematous and locally infiltrated with inflammatory cells. In the nose of uninfected GF rats, subepithelial lymphoid aggregations were scarce and appeared inactive. We conclude that Mycoplasma pulmonis infection results in increased immunoreactivity of substance P, probably within nerves. There was no clear evidence of increased synthesis of the precursors of substance P and calcitonin gene-related peptide.
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PMID:Effects of experimental Mycoplasma pulmonis infection on sensory neuropeptides and airway mucosa in the rat. 938 62

Chronic inflammation is associated with blood vessel proliferation and enlargement and changes in vessel phenotype. We sought to determine whether these changes represent different types of angiogenesis and whether they are stimulus dependent. Chronic airway inflammation, produced by infection with Mycoplasma pulmonis, was compared in strains of mice known to be resistant (C57BL/6) or susceptible (C3H). Tracheal vascularity, assessed in whole mounts after Lycopersicon esculentum lectin staining, increased in both strains at 1, 2, 4, and 8 weeks after infection, but the type of vascular remodeling was different. The number of vessels doubled in tracheas of C57BL/6 mice, with corresponding increases of capillaries and venules. In contrast, neither the number nor the length of vessels changed in C3H mice. Instead, vessel diameter and endothelial cell number doubled, and the proportion of venules doubled with a corresponding decrease of capillaries. Although the infection had no effect on baseline plasma leakage, in both strains it potentiated the leakage produced by substance P. We conclude that the same stimulus can result in blood vessel proliferation or enlargement, depending on the host response. Endothelial cells proliferate in both cases, but in one case new capillaries form whereas in the other capillaries convert to venules.
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PMID:Angiogenesis in mice with chronic airway inflammation: strain-dependent differences. 977 35

To determine whether mycoplasma infection produces airway hyper-responsiveness to tachykinins and bradykinin and, if so, to elucidate the role of neutral endopeptidase (NEP), isolated hamster tracheal segments were studied under isometric conditions in vitro. Nasal inoculation with Mycoplasma pneumoniae potentiated contractile responses to neurokinin A and bradykinin, causing a leftward shift of the dose-response curves to a lower concentration by 1 log unit for each agonist, whereas there was no response with acetylcholine. Pretreatment of tissues with the NEP inhibitor phosphoramidon augmented neurokinin A- and bradykinin-induced contractions in saline-treated control tissues, but did not further potentiate the responsiveness in M. pneumoniae-infected tissues. NEP activity in the tracheal epithelium, but not in epithelium-denuded tissues, was decreased in infected animals. These results suggest that M. pneumoniae infection causes airway bronchoconstrictor hyper-responsiveness to neurokinin A and bradykinin and that this effect may be associated with an inhibition of epithelial NEP activity.
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PMID:Airway hyper-responsiveness to neurokinin A and bradykinin following Mycoplasma pneumoniae infection associated with reduced epithelial neutral endopeptidase. 978 95

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