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)

Neutral endopeptidase (NEP) 24.11 appears to be an important enzyme in both vertebrate and invertebrate autoimmunoregulation. Activation of human or invertebrate immunocytes that express NEP with substrates such as monokines and neuropeptides results in its increased expression, in other words, upregulation. However, since certain neuropeptides are also substrates for NEP, these activated immunocytes will respond to neuropeptides only at higher concentrations, thus downregulating the response. Specifically, in tumor necrosis factor (TNF)-treated immunocytes, we demonstrate the effects of increased NEP expression on altering the stimulatory activities of the neuropeptides met-enkephalin, melanocyte-stimulating hormone and substance P. We demonstrate the significance of NEP in modulating these responses through the use of specific enzyme inhibitors such as phosphoramidon, thiorphan and captopril. Furthermore, we present evidence suggesting that the individual variations seen in immunocytes from both different and the same donors to activating substances may reflect fluctuating levels of NEP expressed in response to endogenous stimuli. These results indicate that NEP is a highly significant factor in controlling the response(s) of certain immunocytes in man and higher invertebrates to the influence of biologically active substances such as monokines and neuropeptides.
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PMID:Autoimmunoregulation: differential modulation of CD10/neutral endopeptidase 24.11 by tumor necrosis factor and neuropeptides. 128 Nov 68

1. The effects of retinoic acid, gamma-interferon, cytosine arabinoside, nerve growth factor, tumor necrosis factor, and 12-O-tetradecanoylphorbol 13-acetate on the human neuroblastoma cell line, LAN-5, were studied. Intracellular levels of acetylcholinesterase, neuron-specific enolase, catecholamines and related neurotransmitters, vasointestinal peptide, and substance P were evaluated after induction. 2. Cell morphology was strongly affected by retinoic acid, gamma-interferon, cytosine arabinoside, and 12-O-tetradecanoylphorbol 13-acetate. The main effects of retinoic acid and gamma-interferon were the loosening of cell clusters and the extension of long neurites; cytosine arabinoside induced cell body swelling and marked neuritogenesis. Following 12-O-tetradecanoylphorbol 13-acetate treatment, the cells became small, round, and neuritic. Conversely, modifications induced by nerve growth factor and tumor necrosis factor were mild. Cell proliferation rate was reduced by retinoic acid, gamma-interferon, cytosine arabinoside, and 12-O-tetradecanoylphorbol 13-acetate, while nerve growth factor and tumor necrosis factor were devoid of effects. 3. Acetylcholinesterase activity was significantly stimulated by retinoic acid and by gamma-interferon. Neuron-specific enolase activity was unaffected by all treatments except 12-O-tetradecanoylphorbol 13-acetate, which enhanced it by 1.6-fold. 4. The cellular catecholamine and related metabolite content was lowered by retinoic acid and gamma-interferon, while cytosine arabinoside and, even more, 12-O-tetradecanoylphorbol 13-acetate showed a stimulatory activity on their intracellular accumulation. 5. Finally, the cell-associated vasointestinal peptide level was strikingly increased by gamma-interferon and, to a lesser extent, by retinoic acid, cytosine arabinoside, and 12-O-tetradecanoylphorbol 13-acetate. 6. It is concluded that the most relevant biochemical changes associated with LAN-5 cells differentiation involve the repertoire of neurotransmitters and neuropeptides. These events vary in quality and in quantity, likely due to the pattern complexity of gene expression triggered by each inducer in determining the diversity of neuronal phenotypes.
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PMID:A combined evaluation of biochemical and morphological changes during human neuroblastoma cell differentiation. 135 48

The pattern of expression of at least four neuropeptides contained in adrenomedullary chromaffin cells is altered by exposure to the cytokines interleukin-1 alpha (IL-1 alpha) and tumor necrosis factor-alpha (TNF alpha), alone or in combination with stimulation of other second messenger pathways. Vasoactive intestinal polypeptide (VIP) was elevated 2- to 3-fold by 1 nM IL-1 alpha within 48 h of exposure, while neurotensin and substance P synthesis were unaffected, and met-enkephalin levels were decreased 25-35%. Stimulation of VIP and substance P biosynthesis by forskolin was markedly enhanced by IL-1 alpha, while forskolin stimulation of enkephalin and neurotensin biosynthesis was unaffected. IL-1 alpha amplified the effect of phorbol myristate acetate to increase the VIP content of chromaffin cells, but antagonized phorbol ester-induced elevation of neurotensin levels. TNF alpha also demonstrated a neuropeptide-specific pattern of modulation of second-messenger effects on chromaffin cell neuropeptide levels similar to those seen with IL-1 alpha. The neuroendocrine actions of IL-1 alpha described above, unlike IL-1 action in the immune system, do not appear to be mediated through IL-2 as this cytokine did not affect VIP or enkephalin expression in the presence or absence of protein kinase stimulation. Neither IL-1 alpha nor TNF alpha affected the calcium-coupled stimulation of neuropeptide secretion and biosynthesis that occurs in response to cell depolarization in these and other neuroendocrine cells in vitro and in vivo. These data provide a functional demonstration of IL-1 and TNF receptors in chromaffin cell cultures and suggest a physiological role for cytokine production in the adrenal medulla. Since both the magnitude and direction of neuropeptide synthesis modulation by IL-1 alpha and TNF alpha are highly peptide-specific, it appears that these cytokines do not merely augment second messenger pathways that affect neuropeptide synthesis, but potentially regulate the activity of factors controlling the pattern of neuropeptide gene expression in chromaffin cells.
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PMID:Interleukin-1 alpha and tumor necrosis factor-alpha differentially regulate enkephalin, vasoactive intestinal polypeptide, neurotensin, and substance P biosynthesis in chromaffin cells. 137 39

A critical need in assessing the clinical utility of manipulative therapy for back pain is the identification of biological changes associated with the forces applied by spinal manipulation. Such changes could then serve as markers for both sham treatment and manipulation. We determined the priming of polymorphonuclear neutrophils for an enhanced respiratory burst and its duration, the priming of mononuclear cells for enhanced endotoxin-stimulated tumor necrosis factor production and plasma levels of substance P following a single thoracic spine manipulation. There was a significant difference in the respiratory burst of polymorphonuclear neutrophils in response to a particulate challenge, depending on the time of blood sample collection. The response of polymorphonuclear neutrophils isolated from blood collected 15 min after manipulation was significantly higher than the response of cells isolated from blood collected 15 min before and 30 and 45 min after manipulation. Mononuclear cells were also primed for enhanced endotoxin-stimulated tumor necrosis factor production by spinal manipulation. Both of these priming effects were accompanied by a slight, but significant elevation in plasma substance P. The mean manipulation force associated with these biological effects was 878 +/- 99 N. These biological effects may provide a means of monitoring the delivery of both sham and manipulative treatment and, therefore, provide a crucial tool for understanding the efficacy of manipulative therapy.
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PMID:Enhanced neutrophil respiratory burst as a biological marker for manipulation forces: duration of the effect and association with substance P and tumor necrosis factor. 769 44

During the progression of Mg deficiency in a rodent model, we have observed dramatic increases in serum levels of inflammatory cytokines [interleukin-1 (IL-1), interleukin-6 (IL-6), and tumor necrosis factor-alpha (TNF-alpha)] after 3 wk on a Mg-deficient diet. Sequential analyses of these cytokine changes in the serum of rats revealed an initial rise at day 12, followed by a major elevation in all three cytokine levels by day 21. Of greater interest was an early peak in the serum level of the neuropeptide substance P after only 5 days on the diet. This "neuronal" tachykinin is thought to be released from neural tissues, and it is known to stimulate production of certain cytokines, including IL-1, IL-6, and TNF-alpha. In addition, there was a concomitant increase in histamine levels, which may have resulted from stimulation and degranulation of mast cells by substance P. Thus we hypothesize that the release of substance P may be the earliest pathophysiological event leading to stimulation of the inflammatory cytokines, which may then stimulate the free radical mechanisms of injury previously confirmed by our work.
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PMID:Pathobiology of magnesium deficiency: a cytokine/neurogenic inflammation hypothesis. 138 53

This study examined the influence of cytokines on substance P (SP) receptors (NK1 subtype) in the human astrocytoma cell line UC11. Following trypsinization and passage, the density of SP receptors in these cells was rather low but gradually increased several fold over the course of a few days in culture. Frequent replacement of the growth medium enhanced the density of receptors even more, suggesting that growth factors in the culture medium may determine the levels of receptor. Exposure of the cells to sub-nanomolar concentrations of tumor necrosis factor (TNF alpha) or interleukin-1 beta (IL1 beta), but not interleukin-2 or interleukin-6, decreased the density of SP receptors. This was accompanied by a decrease in the ability of SP to stimulate inositolphosphate formation. The ability of histamine to activate inositolphosphate formation was not influenced by the cytokines. The decrease in SP receptor density was readily reversible on washout of the cytokines. The EC50 for TNF alpha was approximately 0.5 ng/ml, the EC50 for IL1 beta was approximately 0.1 ng/ml. Radioligand binding studies with [125I]TNF alpha indicated the presence of a low density of high affinity binding sites for this ligand: Kd = 2.5 +/- 0.6 ng/ml, Bmax = 14.8 +/- 2.7 fmol bound/mg protein (assuming trimeric form of ligand bound). The most likely explanation for the cytokine effect is an inhibition of the synthesis of new receptors.
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PMID:Tumor necrosis factor and interleukin-1 down-regulate receptors for substance P in human astrocytoma cells. 172 42

Tachykinins have priming effects on polymorphonuclear neutrophils, since they may activate the neutrophils to exhibit an exaggerated inflammatory response to phlogistic mediators. In order to investigate mechanisms involved in this action, we determined the influence of substance P and neurokinin A on chemotaxis of human neutrophils towards gradients of formymethionyl-leucyl-phenylalanine or recombinant human interleukin-8. As seen with other neutrophil-priming agents such as tumor necrosis factor-alpha, exposure of neutrophils to substance P or neurokinin A had an inhibitory effect upon a stimulated migration, with effective concentrations being in the nanomolar range. Tuftsin, a known neutrophil activating peptide, similarly inhibited stimulated migration. Analysis of structure-activity relationships revealed that activity of tachykinins is located in amino-terminal, tuftsin-like sequences. The inhibition of stimulated migration was partly reversed by (Pro1)-tuftsin, a partial tuftsin receptor antagonist, which suggests that the effects of amino-terminal tachykinins involves activation of tuftsin receptors of neutrophils.
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PMID:Priming of normal human neutrophils by tachykinins: tuftsin-like inhibition of in vitro chemotaxis stimulated by formylpeptide or interleukin-8. 181 Dec 72

Cells of the immune system synthesize prolactin and express mRNA and receptors for that hormone. Interleukin 1, interleukin 6, gamma interferon, tumor necrosis factor, platelet activator factor, and substance P participate in the release of prolactin. This hormone is involved in the pathogenesis of adjuvant arthritis and restores immunocompetence in experimental models. In vitro studies suggest that lymphocytes are an important target tissue for circulating prolactin. Prolactin antibodies inhibit lymphocyte proliferation. Prolactin is comitogenic with concanavalin A and induces interleukin 2 receptors on the surface of lymphocytes. Prolactin stimulates ornithine decarboxylase and activates protein kinase C, which are pivotal enzymes in the differentiation, proliferation, and function of lymphocytes. Cyclosporine A interferes with prolactin binding to its receptors on lymphocytes. Hyperprolactinemia has been found in patients with systemic lupus erythematosus. Fibromyalgia, rheumatoid arthritis, and low back pain patients present a hyperprolactinemic response to thyrotropin-releasing hormone. Experimental autoimmune uveitis, as well as patients with uveitis whether or not associated with spondyloarthropathies, and patients with psoriatic arthritis may respond to bromocriptine treatment. Suppression of circulating prolactin by bromocriptine appears to improve the immunosuppressive effect of cyclosporine A with significantly less toxicity. Prolactin may also be a new marker of rejection in heart-transplant patients. This body of evidence may have an impact in the study of rheumatic disorders, especially connective tissue diseases. A role for prolactin in autoimmune diseases remains to be demonstrated.
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PMID:Prolactin, immunoregulation, and autoimmune diseases. 206 74

Two groups of mediators, the neuropeptides substance P and K and the monocyte-derived cytokines, interact in the neural regulation of immunological and inflammatory responses. Substance P, substance K, and the carboxyl-terminal peptide SP(4-11) induce the release of interleukin-1, tumor necrosis factor-alpha, and interleukin-6 from human blood monocytes. The neuropeptide effects occur at low doses, are specific as shown by inhibition studies with a substance P antagonist, and require de novo protein synthesis. Since monocyte-derived cytokines regulate multiple cellular functions in inflammation and immunity and since neuropeptides can be released from peripheral nerve endings into surrounding tissues, these findings identify a potent mechanism for nervous system regulation of host defense responses.
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PMID:Effect of neuropeptides on production of inflammatory cytokines by human monocytes. 245 50

Mast cells (MC) are widely distributed throughout different organs with a relative predilection for potential portals of entry into the host. In tissues, MC are generally concentrated around small blood vessels and lymphatics, as well as nerves and glandular tissue. This close association with vascular structures suggests an important interaction between MC and endothelial cells (EC). Tissue MC are known to generate and release a number of mediators including histamine, prostaglandin D2, and leukotrienes that induce vasodilatation and increased vascular permeability. These MC-mediated effects on vessels may enhance responses to tissue injury or infection by facilitating the deposition of plasma components and inflammatory cells into involved sites. Important interactions between MC, EC, and peripheral nerves also occur. MC-derived histamine and possibly other mediators induce axon reflexes in unmyelinated sensory nerves leading to the release of neurotransmitters such as substance P, calcitonin gene-related peptide, and adenine nucleotides. These neurotransmitters exert direct effects on blood vessels, and in some instances, may act as MC stimulators. In vitro studies indicate that MC also affect EC growth and new blood vessel formation. Mast cell-derived heparin has been implicated as an important cofactor in tumor-induced angiogenesis, whereas histamine has been reported to augment human dermal EC growth in culture. The recent identification of a tumor necrosis factor-like peptide in MC and the reported cytostatic effects of TNF on EC suggest that MC may inhibit the proliferation of these cells under certain conditions. Taken together, these observations indicate that the interactions between MC and EC are important in both physiologic and pathologic events.
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PMID:The interaction between mast cells and endothelial cells. 256 4


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