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)

Substance P (sP) and Somatostatin (SOM), so as other neuropeptides can modulate neurologic and immunologic functions. sP has been described to enhance both in vitro and in vivo immunoglobulin synthesis. On the contrary, SOM has an inhibitory effect on the same activity. The modulating effect is more evident on IgA isotype. Hypergammaglobulinemia and in particular high levels of IgA is a common finding in pediatric AIDS and an imbalance among regulatory effects of neuropeptides might be suggested. In order to evaluate the plasma levels of sP in pediatric AIDS we studied 15 children with HIV infection (status P2), 10 seronegative children born to HIV positive mothers and 10 healthy children of the same age. All the HIV positive children had high plasma levels of IgG and IgA. The plasma level of sP was extremely higher in HIV positive children while no significant difference was found between seronegative children born to HIV positive mothers and healthy children. SOM was decreased in HIV positive children when compared to control groups but a significant difference was not reached. It might be supposed that HIV infection, through a dysregulation among neuropeptides interferes on immune functions and in particular on IgA synthesis. On the other hand it might be suggested that the imbalance between sP and SOM depends on the viral infection of immune cells since it has been demonstrated that SOM and other neuropeptide are synthesized by lymphoid tissue. Further studied relevance of neuropeptide disorders in pediatric AIDS.
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PMID:[Changed levels of substance P and somatostatin in HIV-positive children]. 128 55

In addition to the cholinergic and adrenergic nervous systems, a new noncholinergic and nonadrenergic nervous system has recently been described, involving the afferent sensory nerves in the airways. Many irritants (dusts, chemicals) stimulate these sensory nerves to release neuropeptides. Among these neuropeptides, the "tachykinins" exist in sensory nerves of airways (substance P, neurokinin A). These tachykinins have the ability to affect multiple cells in the airways and to provoke many responses including smooth muscle contraction, mucus secretion, plasma extravasation and neutrophil adhesion. This series of effects is termed "neurogenic inflammation". Using the respiratory tract as experimental model, it has been shown that: a) substance P (SP) is widely distributed in afferent fibers in the vagus, b) SP-immunoreactivity has been demonstrated in the epithelium, in airway smooth muscle, near blood vessels and submucosal glands, c) substance P and other tachykinins are released from sensory nerve terminals during stimulation electrically and by capsaicin, d) local administration of substance P mimics the effect of sensory nerve stimulation, e) smooth muscle contraction, gland secretion and plasma leakage, normally induced by nerve stimulation or noxious stimulus, are absent in tissues pretreated with the substance P depleting agent capsaicin or with tachykinin antagonists. These findings indicate that peptidergic nerve fibers are involved in the local regulation of tone of smooth muscle, regulation of blood flow, vascular permeability, and mucus secretion. We released that degradative mechanisms could play an important role in modulating tachykinin effects, just as acetylcholinesterase modulates effects of acetylcholine released from nerve terminals. We discovered that a membrane-bound enzyme called enkephalinase (also called neutral endopeptidase, EC 3, 4, 24, 11), located on specific cells that contain tachykinin receptors, modulate the action of tachykinins by cleaving and thus inactivating them. Our studies demonstrate that viral infection or cigarette smoke potentiate various effects of tachykinins by decreasing tissue enkephalinase activity. Thus, down-regulation of enkephalinase activity in specific tissues can modify the extent of neurogenic inflammation, and this modification could be important in the pathogenesis of diseases in airways and other tissues that contain tachykinins.
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PMID:[The role of enkephalinase (neutral endopeptidase) in neurogenic inflammation of the respiratory tract]. 134 Apr 78

Viral infection increases the airway smooth muscle response to substance P. This effect is due to decreased activity of neutral endopeptidase (EC 3.4.24.11), an enzyme that degrades substance P. Inhibition of neutral endopeptidase activity also potentiates substance P-induced 35SO4-labeled macromolecule secretion. Therefore we examined the in vitro effects of substance P on 35SO4-macromolecule secretion from the tracheae of influenza-infected ferrets. Despite a virus-induced loss of neutral endopeptidase activity (demonstrated in muscle bath experiments), there was no difference between control and infected tracheae in either baseline secretion [697 +/- 125 vs. 579 +/- 67 (SE) cpm/15 min; n = 15 tissues) or in the response to 10(-6) M substance P (increased by 218 +/- 63 and 195 +/- 51, respectively) or 10(-5) M substance P (increased by 416 +/- 95 and 354 +/- 54, respectively). Although phosphoramidon (10(-6) M) potentiated the secretory response to substance P, there was again no difference between control and infected tracheae. These data show that although viral infection decreases airway neutral endopeptidase activity, virus-induced hypersecretion is not due to a resulting increase in the secretory response to substance P.
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PMID:Viral infection increases contractile but not secretory responses to substance P in ferret trachea. 137 30

The causes of the neurodegenerative disorders of Parkinson's disease (PD), Alzheimer's disease (AD) and amyotrophic lateral sclerosis (ALS) are unknown. It is proposed that all these disorders result primarily from a loss of trophic peptidergic neurotransmitter, possibly Substance P (SP). This loss in turn produces the classical neuronal degeneration seen in each of these diseases and occurs due to a combination of natural aging and chronic autoimmune destruction following a viral infection of the CNS, early in life. The loss is therefore slow and by the time of clinical presentation the inflammatory process is disappearing as the antigenic stimulus lessens with its removal. The implications of the theory in terms of future research and therapy are briefly discussed.
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PMID:Substance P and neurodegenerative disorders. A speculative review. 172 84

A noncholinergic, nonadrenergic nervous system has been described, involving the sensory nerves in the airways. Chemicals, dusts and other irritants stimulate these sensory nerves to release substance P and related neuropeptides. These neuropeptides have the remarkable ability to affect multiple cells in the airways and to provoke many responses including cough, mucus secretion, smooth muscle contraction, plasma extravasation and neutrophil adhesion. This series of effects is termed "neurogenic inflammation." An enzyme exists on the surfaces of all lung cells that contain receptors for these neuropeptides. This enzyme, neutral endopeptidase (NEP), by cleaving and thus inactivating the neuropeptides, limits the concentration of the neuropeptide that reaches the receptor on the cell surface. Thus, neurogenic inflammatory responses are normally mild and presumably protective in nature. However, when NEP is inhibited pharmacologically (with NEP inhibitors) or by cigarette smoke, respiratory viral infection, or by inhalation of the industrial pollutant toluene diisocyanate, neurogenic inflammatory responses are exaggerated. Delivery of exogenous human recombinant NEP inhibits neurogenic inflammation. Finally, evidence is provided that corticosteroids suppress neurogenic plasma extravasation and that this drug can upregulate NEP in human airway tissue. Neutral endopeptidase cleaves multiple peptides. Thus, its selectivity resides, at least in part, on its fixed location on the surfaces of specific cells where it can modulate effects of peptides exposed to the cells' surfaces.
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PMID:Neutral endopeptidase modulates neurogenic inflammation. 188 1

In many cases of chronic intractable pain without any discernible causes, when both Western medical treatment and acupuncture treatment failed to eliminate the pain, this pain is often due to the unrecognized presence of viral or bacterial infection. Even effective anti-viral or bacterial agents often fail to eliminate or inhibit the infection, as these drugs may also fail to reach the most painful area where often unrecognizable circulatory disturbances co-exist. Using the Bi-Digital O-Ring Test Molecular Identification Method, we were able to localize substance P and thromboxane B2 (a good indicator of the presence and degree of circulatory disturbances) in the painful area along with virus or bacteria. Based on the Bi-Digital O-Ring Test localization method for specific substances or microbes, the author has successfully treated cases of chronic intractable pain by the combination of anti-viral or bacterial agents with either manual acupuncture, electro-acupuncture or transcutaneous electrical stimulation through a pair of surface electrodes. Among a variety of infections, the most common cause of severe intractable pain was herpes simplex virus, and the most common bacterial cause of intractable pain of moderate degree was campylobacter. In addition, chlamydia was a very common cause of mild intractable pain. When peripheral nerve fibers are hypersensitive from nerve injury due to viral infection, in addition to the drug therapy for infection, use of Vitamin B1 25 mg., 2 times a day for an average adult often accelerates recovery time. As an anti-viral agent for the herpes virus family, the author found that EPA (Omega 3 fish oil, Eicosa Pentaenoic Acid, C20:5 omega 3), at doses between 180 mg. and 350 mg (depending upon body weight) 4 times a day for 2 to 6 weeks, without prescribing the common anti-viral agent Acyclovir, often eliminated the symptoms due to viral infection including all well-known types of the herpes virus, such as herpes simplex virus, Epstein-Barr virus, and cytomegalovirus. Epstein-Barr virus and cytomegalovirus are usually not associated with intractable severe pain, but they are often associated with a recurrent burning or itching sensation and they can cause intractable frequent muscle twitching. Viruses belonging to the herpes family almost always exist between the midline of one side of the spinal cord and the midline of the front of the body where these nerves from the spinal cord end and the same virus is localized only on one side of the body at the same spinal level.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Treatment of acute or chronic severe, intractable pain and other intractable medical problems associated with unrecognized viral or bacterial infection: Part I. 197 80

Hybrid cell lines derived from neonatal rat dorsal root ganglia neurons fused with the mouse neuroblastoma N18Tg2 exhibit sensory neuron-like properties not displayed by the parental neuroblastoma. These properties include an inward (depolarizing) current with a conductance increase in response to activation of a bradykinin receptor, an inward (depolarizing) current with a conductance increase in response to the sensory excitotoxin capsaicin, the expression of sensory neuropeptides (substance P, CGRP and somatostatin), the expression of phosphatidylinositol-anchored molecules including adhesion molecules of the immunoglobulin superfamily that can be regulated in serum-free culture by nerve growth factor (N-CAM, F-3 and Thy-1), and low permissivity to herpes simplex virus infection. These lines thus provide appropriate models for the study of mechanisms involved in nociceptor activation and the regulation of expression of sensory-neuron specific markers including neuropeptides.
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PMID:Novel cell lines display properties of nociceptive sensory neurons. 197 43

We examined the effects of viral respiratory infection by Sendai virus on airway responsiveness to tachykinins in guinea pigs. We measured the change in total pulmonary resistance induced by substance P or capsaicin in the presence or absence of the neutral endopeptidase inhibitor, phosphoramidon, in infected and in noninfected animals. In the absence of phosphoramidon, the bronchoconstrictor responses to substance P and to capsaicin were greater in infected than in noninfected animals. Phosphoramidon did not further potentiate the responses to substance P and to capsaicin in the infected animals, whereas it did so in noninfected animals. Studies performed in vitro showed that nonadrenergic noncholinergic bronchial smooth muscle responses to electrical field stimulation were also increased in tissues from infected animals and that phosphoramidon increased the response of tissues from noninfected animals greatly but increased the responses of tissues from infected animals only slightly. Responses to acetylcholine were unaffected by viral infection. Neutral endopeptidase activity was decreased by 40% in the tracheal epithelial layer of the infected animals. We suggest that respiratory infection by Sendai virus causes enhanced airway responsiveness to tachykinins by decreasing neutral endopeptidase-like activity in the airway epithelium.
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PMID:Virus induces airway hyperresponsiveness to tachykinins: role of neutral endopeptidase. 247 56

Ferret tracheal segments were infected with human influenza virus A/Taiwan/86 (H1N1) in vitro. After 4 days, the smooth muscle contractile responses to acetylcholine and to substance P were measured. The response to substance P was markedly accentuated, with a threefold increase in force of contraction at a substance P concentration of 10(-5) M, the highest concentration tested. In contrast, the response to acetylcholine was not affected by viral infection. Histological examination of tissues revealed extensive epithelial desquamation. Activity of enkephalinase (neutral metallo-endopeptidase, EC.3.4.24.11), an enzyme that degrades substance P, was decreased by 50% in infected tissues. Inhibiting enkephalinase activity by pretreating with thiorphan (10(-5) M) increased the response to substance P to the same final level in both infected and control tissues. Inhibiting other substance P-degrading enzymes including kininase II (angiotensin-converting enzyme), serine proteases, and aminopeptidases did not affect the response to substance P. Inhibiting cyclooxygenase and lipoxygenase activity using indomethacin and BW 755c did not affect hyperresponsiveness to substance P. Pretreating tissues with antagonists of alpha-adrenoceptors, beta-adrenoceptors, and H1 histamine receptors (phentolamine 10(-5) M, propranolol 5 X 10(-6) M, and pyrilamine 10(-5) M, respectively) had no effect on substance P-induced contraction. These results demonstrate that infection of ferret airway tissues with influenza virus increases the contractile response of airway smooth muscle to substance P. This effect is caused by decreased enkephalinase activity in infected tissues.
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PMID:Influenza infection causes airway hyperresponsiveness by decreasing enkephalinase. 304 36

We have investigated the effects of parainfluenza virus type 3 (PI-3) on sensory neuropeptide levels, tachykinin receptors and their functions in guinea pig airways during the course of respiratory viral infection. PI-3 infected guinea pigs were hyperresponsive to methacholine and substance P aerosols as determined by earlier onset of dyspnea in these animals as compared with control on post-inoculation day (PID) 7 but not 19. In addition, plasma protein extravasation produced in response to the tachykinin was increased in infected airways during the first week post inoculation. Infected guinea pig trachea did not respond any differently to methacholine when smooth muscle contraction and [3H]inositol phosphate accumulation were measured although the magnitude of substance P effects using in vitro tests was significantly greater than control on post-inoculation day 7 but not 19. Trachea from PI-3 infected animals were characterized by reductions in substance P-like immunoreactivity, tachykinin NK1 receptor number and agonist affinity during the first post-inoculation week. Substance P levels or tachykinin NK1 receptor numbers or affinity were not altered in trachea of guinea pigs 4 days after treatment with lipopolysaccharide. These data suggest substance P release occurs during critical periods of respiratory viral infection which are temporally correlated with airway hyperresponsiveness. Despite apparent down-regulation of tachykinin NK1 receptors, substance P-mediated functions remained enhanced suggesting some alterations in post-receptor mechanisms.
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PMID:Parainfluenza virus type 3 induced alterations in tachykinin NK1 receptors, substance P levels and respiratory functions in guinea pig airways. 752 81


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