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)

Several new drugs are now under development for the treatment of asthma, either as improvements to existing classes of therapy or as novel agents. Amongst bronchodilators, long-acting inhaled beta 2-agonists (salmeterol and formoterol) look very promising and there is also interest in selective phosphodiesterase inhibitors, K+ channel-openers and nitrodilators. There are several new inhaled corticosteroids under development and more selective agents include leukotriene antagonists, 5-lipoxygenase inhibitors, bradykinin and tachykinin antagonists and immunomodulators. In the future, adhesion molecule inhibitors and cytokine inhibitors may be developed.
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PMID:New drugs for asthma. 135 72

We found that the dorsal root ganglia (DRG) and trigeminal ganglia of mouse embryos express the E-cadherin cell-cell adhesion molecule and analyzed its expression profile. E-cadherin expression began around Embryonic Day 12 (E12) in these ganglia, thereafter increased, and persisted to the adult stage. This cadherin was expressed by 10 and 30% of DRG neurons in E17 and postnatal animals, respectively, as well as by satellite cells and some Schwann cells. E-cadherin-positive primary sensory fibers terminated only in a narrow region of the dorsal horn of the spinal cord, which was identified as part of lamina II by double-staining for E-cadherin and substance P or somatostatin. This E-cadherin expressing area of the spinal cord extended to part of the trigeminal nucleus in the medulla. These results showed that E-cadherin is expressed in a particular subset of primary sensory neurons which may have specific functional properties. We suggest that this adhesion molecule may play a role in the selective adhesion of sensory neuronal fibers.
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PMID:E-cadherin expression in a particular subset of sensory neurons. 164 19

The common acute lymphoblastic leukemia antigen (CALLA, CD10), which is expressed on early lymphoid progenitors and neutrophils, is the zinc metalloprotease, neutral endopeptidase 24.11 (NEP, "enkephalinase"). The CD10 cell surface enzyme is known to hydrolyze a variety of biologically active peptides including met-enkephalin, formyl-met-leu-phe (f-MLP), and substance P. These three CD10/NEP substrates induce the migration and aggregation of neutrophils, suggesting that each of the peptides can function as a mediator of neutrophil inflammatory responses. Recently, inhibition of CD10/NEP was found to reduce the concentration of metenkephalin needed to activate human and invertebrate granulocytes by several orders of magnitude. Herein we show that f-MLP and substance P induce rapid changes in neutrophil morphology, migration, and adhesion molecule expression, including upregulation of Mo1 (CD11b/CD18) and shedding of LAM-1 (also known as LECAM-1, Leu8, or TQ-1, the human homologue of murine gp100MEL14). Importantly, these coordinated changes are potentiated by inhibition of cell surface CD10/NEP enzymatic activity. Neutrophil cell surface CD10/NEP enzymatic activity is also shown to be regulated by the activation state of the cell during the time period in which the enzyme has its most pronounced effects. These results suggest that in neutrophils, CD10/NEP functions to control responsiveness to multiple inflammatory peptides.
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PMID:CD10 (CALLA)/neutral endopeptidase 24.11 modulates inflammatory peptide-induced changes in neutrophil morphology, migration, and adhesion proteins and is itself regulated by neutrophil activation. 171 72

Inflammatory cell infiltrates and cell adhesion molecule expression have been examined in normal human skin after intradermal injection of sensory neuropeptides substance P (n = 6), vasoactive intestinal polypeptide (n = 6), and calcitonin gene-related peptide (n = 6) together with PBS as control (n = 4). Each neuropeptide induced rapid, time-dependent neutrophil influx into dermis, which was initially observed at 15 min and persisted for 8 h after injection. Increases in numbers of neutrophils with time after substance P, vasoactive intestinal polypeptide and calcitonin gene-related peptide were highly significant when compared with controls p < 0.005, p < 0.005, p < 0.005, respectively (analysis of variance). Substance P additionally induced marked eosinophilic accumulation at 4 and 8 h in four of six subjects. These changes paralleled rapid translocation of P-selectin from cytoplasmic Weibel-Palade granules to luminal membranes by 15 min, and significant up-regulation of E-selectin expression at 4 and 8 h. Increases in percentage of E-selectin positive vessels with respect to time after each neuropeptide were highly significant when compared with controls, p < 0.005, p < 0.005, p < 0.005 (ANOVA), respectively, and were significantly correlated with neutrophil infiltrates, r = 0.55, p < 0.001. VCAM-1 was not expressed, and constitutive ICAM-1 expression on dermal endothelium was unchanged at all time points examined (0-8 h). Induction of endothelial adhesion molecule expression by neuropeptides provides a mechanism for neutrophil accumulation in neurogenic inflammation. Substance P-induced eosinophil accumulation in the absence of VCAM-1 expression suggests that mechanisms distinct from VCAM-1/very late antigen-4 binding mediate selective tissue eosinophilia.
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PMID:Neuropeptides induce rapid expression of endothelial cell adhesion molecules and elicit granulocytic infiltration in human skin. 769 Aug

A number of marker substances for neuronal and neuroendocrine cells have been demonstrated in the cytoplasm of the interstitial Leydig cells of human testes using basic immunocytochemical methods and some of their modifications. We were able to reveal immunoreactivity for enzymes involved in the synthesis of the catecholamines dopamine and noradrenaline (tyrosine hydroxylase, aromatic L-amino acid decarboxylase, dopamine-beta-hydroxylase), for the indolamine 5-hydroxytryptamine (serotonin), as well as for a number of well-known neuronal markers such as the neurofilament protein 200, synaptophysin, chromogranin A + B, the neural cell-adhesion molecule (N-CAM), the microtubule-associated protein (MAP-2), and the calcium-binding proteins: S-100, calbindin and parvalbumin. Immunoreactivity for these substances was found in the majority of the interstitial cells although differences in the staining intensity among the individual Leydig cells and among Leydig cells from different patients were observed. At the electron-microscopic level the Leydig cell cytoplasm was seen to contain microtubules, intermediate- and microfilaments as well as clear (40-60 nm) and dense-core (100-300 nm) vesicles, providing a morphological correlate for some of the immunocytochemical results. Although individual marker substances are not absolutely specific for nerve and neuroendocrine cells, the results obtained, together with the already established neuron-specific enolase-, substance P-, methionine-enkephalin- and proopiomelanocortin (POMC)-derived peptide-like immunoreactivity, provide strong evidence for the neuroendocrine (paraneuronal, APUD-like) nature of the Leydig cells of the human testis.
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PMID:The Leydig cell of the human testis--a new member of the diffuse neuroendocrine system. 847 1

We obtained intervertebral discs with cartilage endplates and underlying cancellous bone at operation from patients with degenerative disc disease and then used immunohistochemical techniques to localise the nerves and nerve endings in the specimens. We used antibodies for the ubiquitous neuronal protein gene product 9.5 (PGP 9.5). Immunoreactivity to neuropeptide Y was used to identify autonomic nerves and calcitonin gene-related peptide (CGRP) and substance P to identify sensory nerves. Blood vessels were identified by immunoreactivity with platelet-endothelial cell-adhesion molecule (CD31; PECAM). In a control group with no known history of chronic back pain, nerve fibres immunoreactive to PGP 9.5 and neuropeptide Y were most closely related to blood vessels, with occasional substance P and CGRP immunoreactivity. In patients with severe back pain and markedly reduced disc height, proliferation of blood vessels and accompanying nerve fibres was observed in the endplate region and underlying vertebral bodies. Many of these nerves were immunoreactive to substance P or CGRP, and in addition, substance P- and CGRP-immunoreactive nociceptors were seen unrelated to blood vessels. Quantification by image analysis showed a marked increase in CGRP-containing sensory nerve fibres compared with normal control subjects. We speculate that a chemotactic response to products of disc breakdown is responsible for the proliferation of vascularity and CGRP-containing sensory nerves found in the endplate region and vertebral body adjacent to degenerate discs. The neuropeptides substance P and CGRP have potent vasodilatory as well as pain-transmitting effects. The increase in sensory nerve endings suggests increase in blood flow, perhaps as an attempt to augment the nutrition of the degenerate disc. The increase in the density of sensory nerves, and the presence of endplate cartilage defects, strongly suggest that the endplates and vertebral bodies are sources of pain; this may explain the severe pain on movement experienced by some patients with degenerative disc disease.
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PMID:Sensory and sympathetic innervation of the vertebral endplate in patients with degenerative disc disease. 902 Apr 64

There is increasing experimental evidence that the neurologic system can directly participate in cutaneous inflammation and wound healing. Recent studies indicate that neuropeptides released by cutaneous nerves such as c-fibers can activate a number of target cells including keratinocytes, Langerhans cells, mast cells, and endothelial cells. One such neuropeptide, substance P (SP), is able to specifically bind to murine and human keratinocytes and induce the release of cytokines such as interleukin 1 (IL-1). Other studies demonstrate that SP can also activate mast cells to produce the potent pro-inflammatory cytokine tumor necrosis factor alpha (TNF alpha). More recently, we examined the effect of cutaneous neuropeptides on human dermal microvascular endothelial cell (HDMEC) activities. Our studies indicate that the c-fiber-derived calcitonin gene-related peptide (CGRP) is capable of stimulating HDMEC to secrete the neutrophil chemotactic factor interleukin 8 (IL-8). In addition, SP is able to directly activate HDMEC to express high levels of the important cellular adhesion molecule vascular cellular adhesion molecule 1 (VCAM-1). Thus, these studies support the role that the neurologic system may play in mediating the biologic processes that occur during inflammation and wound healing in the skin.
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PMID:Interactions of the skin and nervous system. 948 11

The cutaneous nervous system recently has been demonstrated to interact with multiple target cells in the skin and to mediate actions important in inflammatory conditions. Neuropeptides released by cutaneous neurons such as substance P (SP), vasointenstinal peptide (VIP), calcitonine gene regulated peptide (CGRP), proopiomelancortin (POMC) peptides and others modulate the function of immunocompetent and inflammatory cells as well as epithelial and endothelial cells. They have been found to function as mediators of cell proliferation, cytokine and growth factor production as well as adhesion molecule and cell surface receptor expression. In addition many cells including keratinocytes, fibroblasts, endothelial cells and inflammatory cells have been shown to release several neuropeptides and they express their corresponding receptors. These findings indicate that neuropeptides participate in the complex network of mediators that regulate cutaneous inflammation, hyperproliferation and wound healing.
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PMID:Neuropeptides: role in inflammatory skin diseases. 964 21

Neuroendocrine gut and pancreatic tumors are known to contain and secret different peptide hormones and amines. During the last two decades, many radioimmunoassays and Elizas have been developed to analyze these substances in blood and urine, which has enabled clinicians to improve the diagnosis and monitoring of patients with various neuroendocrine tumors. Due to cost constraints in medical care, it is important to try to define the most useful biochemical markers from the clinical point of view. The glycoprotein chromogranin A has been shown to be a useful marker for diagnosing various neuroendocrine tumors, both by histopathology and circulating tumor markers. In patients with demonstrable endocrine tumors, about 90 percent of the patients present high circulating levels of chromogranin A. A hundred-fold increase of plasma chromogranin is seen in patients with midgut carcinoid tumors and liver metastases. The plasma levels of chromogranin A reflect the tumor mass and can be used for monitoring the patient during treatment and follow-up, although the day-to-day variation might be 30-40 percent. High circulating levels of the chromogranin A might be an indicator of bad prognosis in patients with malignant carcinoid tumors. Besides analyzing plasma chromogranin A, specific analyses such as urinary 5-HIAA in midgut carcinoid patients, serum gastrin in patients with Zollinger-Ellison syndrome and insulin/proinsulin in patients with hypoglycemia should be performed. In patients with small tumor masses or intermittent symptoms, provocative tests such as a meal stimulation test, secretin test or pentagastrin stimulation of tachykinin release can supplement the basal measurements of peptides and amines. To fully evaluate the growth potential in neuroendocrine tumors, traditional biochemical markers should be supplemented with indicators of growth proliferation (Ki-67, PCNA) and immunohistochemical staining for the adhesion molecule CD44 and the PDGF-alpha receptor. Finally, analysis of somatostatin receptor subtypes and induction of the enzymes 2-5A syntethase and PKR are of clinical value.
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PMID:Biochemical diagnosis of neuroendocrine GEP tumor. 982 77

Ultraviolet (UV) irradiation of the skin causes both inflammation and alterations in the skin immune system. There is increasing experimental evidence that UV-induced skin inflammation is influenced by the sensory nervous system and the neuroendocrine system in the skin. The resulting complex network of cytokines, chemokines, neuropeptides, neuropeptide-degrading enzymes, neurohormones, and other inflammatory mediators mediate photodermatitis and cutaneous inflammation. Neuropeptides such as substance P (SP) and calcitonin gene-related peptide (CGRP) are released from sensory nerves innervating the skin upon UV exposure. In addition, a variety of cells in the skin produce increased neuroendocrine hormones such as proopiomelanocortin (POMC) peptides and their receptors as well as neurotrophins after UV exposure. Neuropeptides and neurohormones are capable of directly or indirectly mediating UV-induced cutaneous neurogenic inflammation by the induction of vasodilatation, plasma extravasation, and augmentation of UV-induced cytokine, chemokine, or cellular adhesion molecule expression required for activation and trafficking of inflammatory cells into the inflamed tissue. Neuropeptides and neurotrophins may also play a role in the repair of cutaneous UV injury. In addition to proinflammatory effects, UV-induced neuropeptides and neurohormones such as CGRP and alpha-melanocyte-stimulating hormone may have immunosuppressive effects in the skin. This review will focus on the role that SP, CGRP, POMC peptides, and their receptors may play in modulating UV-induced inflammation in the skin.
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PMID:Effect of ultraviolet light on the release of neuropeptides and neuroendocrine hormones in the skin: mediators of photodermatitis and cutaneous inflammation. 1053 9


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