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)

Substance P, acting via the neurokinin 1 receptor (NK1R), plays an important role in mediating a variety of inflammatory processes. However, its role in acute pancreatitis has not been previously described. We have found that, in normal mice, substance P levels in the pancreas and pancreatic acinar cell expression of NK1R are both increased during secretagogue-induced experimental pancreatitis. To evaluate the role of substance P, pancreatitis was induced in mice that genetically lack NK1R by administration of 12 hourly injections of a supramaximally stimulating dose of the secretagogue caerulein. During pancreatitis, the magnitude of hyperamylasemia, hyperlipasemia, neutrophil sequestration in the pancreas, and pancreatic acinar cell necrosis were significantly reduced in NK1R-/- mice when compared with wild-type NK1R+/+ animals. Similarly, pancreatitis-associated lung injury, as characterized by intrapulmonary sequestration of neutrophils and increased pulmonary microvascular permeability, was reduced in NK1R-/- animals. These effects of NK1R deletion indicate that substance P, acting via NK1R, plays an important proinflammatory role in regulating the severity of acute pancreatitis and pancreatitis-associated lung injury.
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PMID:Role of substance P and the neurokinin 1 receptor in acute pancreatitis and pancreatitis-associated lung injury. 953 12

1. Although peptides are important modulators of synapses, their action on synapse-glia interactions remain unclear. The amphibian neuromuscular junction (NMJ) was used to examine the effects of substance P (SP) on perisynaptic Schwann cells (PSCs), glial cells at the frog NMJ, by monitoring changes in intracellular Ca2+. 2. SP induced Ca2+ responses that were mimicked by the neurokinin 1 receptor (NK-1) agonist septide and with a shorter delay by the SP fragment, SP(6-11). SP and SP(6-11) responses were blocked by NK-1 antagonists SR140333 and LY303870. 3. Ca2+ responses remained unchanged when extracellular Ca2+ was removed but were blocked after pertussis toxin (PTX) treatment, indicating that the receptors were linked to internal stores of Ca2+ via a PTX-sensitive G-protein. 4. The slowly hydrolysable NK-1 agonist [Sar9, Met(O2)11]-SP only induced Ca2+ responses when applied for a long period of time and not during brief, local applications, suggesting the involvement of SP hydrolysis. Acetylcholinesterase (AChE) may not be involved in SP degradation since Ca2+ responses evoked by SP were unchanged in the presence of the cholinesterase inhibitor neostigmine. 5. Ca2+ responses induced by muscarine and nerve stimulations were almost abolished when preceded by SP applications, while those induced by ATP were significantly reduced. The rundown of the nerve-evoked Ca2+ responses in PSCs was attenuated in the presence of SR140333. 6. These results indicate that endogenous SP is involved in the regulation of PSC activity and that SP is an important modulator of glial cell Ca2+ signalling and synapse-glia communication.
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PMID:Endogenous peptidergic modulation of perisynaptic Schwann cells at the frog neuromuscular junction. 972 29

Agonist-induced endocytosis and recycling of G protein-coupled receptors contributes to desensitization and resensitization of the receptors. In this study, we have used fluorescence immunohistochemistry, confocal microscopy and digital image analysis to quantify the proportion of receptor in the cytoplasm and on the surfaces of nerve cells in the guinea-pig ileum. With these methods we examined the dynamics of internalization of the neurokinin 1 receptor in response to agonist, return of receptor to the cell membrane and its capacity to be re-internalized in response to further exposure to agonist. The basal level of neurokinin 1 receptor immunoreactivity in the cytoplasm was 12-15% of total cellular immunoreactivity. Concentration-response relations were generated for neurokinin 1 receptor internalization after incubation of isolated ileum with 10(-11) to 10(-6) M substance P at 4 degrees C and warming to 37 degrees C for 20 min. The threshold concentration for cytoplasmic receptor to exceed baseline was 10(-11) M and the proportion of receptor in the cytoplasm increased with increasing substance P concentration. The effect of two exposures to agonist was studied using 10(-8) M and 10(-6) M substance P. After equilibration with substance P at 4 degrees C for 1 h followed by 20 min at 37 degrees C with no substance P, neurokinin 1 receptor immunoreactivity in the cytoplasm increased significantly from 12% to 36+/-3% for incubation with 10(-8) M and to 64+/-3% for 10(-6) M. When return of receptor to the surface was blocked with monensin (10(-5) M), 90% of the receptor was in the cytoplasm after 1 h at 37 degrees C following exposure to 10(-6) M substance P. After 60 min without substance P and no monensin, receptor in the cytoplasm decreased to 19+/-2% (10(-8) M) and 38+/-4% (10(-6) M). A second period of equilibration with substance P at 4 degrees C for 1 h followed by 20 min at 37 degrees C, without substance P, resulted in a second wave of endocytosis; the fractions of receptor in the cytoplasm were 47+/-2% (10(-8) M) and 70 2% (10(-6) M). These results indicate that most of the receptors on the cell surface are available for internalization and that the receptors that return to the cell surface after endocytosis rapidly regain their ability to bind ligand and undergo endocytosis.
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PMID:Quantitation of neurokinin 1 receptor internalization and recycling in guinea-pig myenteric neurons. 975 80

1. We developed a simple and sensitive peripheral analgesic test in mice. 2. Substance P (SP) given into the planta (i.pl.) of the mouse hind limb produced a flexor response. The flexor response was dependent on SP doses (0.1-100 pmol, i.pl.). When SP (10 pmol) was given every 5 min, there were stable flexor responses. These nociceptive responses were completely abolished by CP-96,345, a neurokinin 1 receptor antagonist. 3. SP-induced responses were also blocked by several signal transduction-related compounds, such as tetrodotoxin, EGTA, and U73122, a selective phospholipase C inhibitor. 4. These findings suggest that SP depolarizes peripheral nerve endings, possibly through inositol trisphosphate (Ins P3)-gated Ca2+ influx, followed by induction of action potentials in the peripheral axons of primary afferent neurons.
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PMID:In vivo signal transduction of tetrodotoxin-sensitive nociceptive responses by substance P given into the planta of the mouse hind limb. 977 54

There is increasing evidence that sensory nerves may participate in cutaneous inflammatory responses by the release of neuropeptides such as substance P (SP). We examined the direct effect of SP on human dermal microvascular endothelial cell (HDMEC) intercellular adhesion molecule 1 (ICAM-1) expression and function. Our results indicated that, although cultured HDMEC expressed mRNA for neurokinin receptors 1, 2, and 3 (NK-1R, NK-2R, and NK-3R), SP initiated a rapid increase in HDMEC intracellular Ca2+ levels, primarily by the activation of NK-1R. Immunohistochemistry studies likewise demonstrated that HDMEC predominantly expressed NK-1R. The addition of SP to HDMEC resulted in a rapid increase in cellular ICAM-1 mRNA levels, followed by a fivefold increase in ICAM-1 cell surface expression. This functionally resulted in a threefold increase in 51Cr-labeled binding of J-Y lymphoblastoid cells to HDMEC. In vivo studies demonstrated a marked increase in microvascular ICAM-1 immunostaining 24 and 48 h after application of capsaicin to the skin. These results indicate that neuropeptides such as SP are capable of directly activating HDMEC to express increased levels of functional ICAM-1 and further support the role of the cutaneous neurological system in modulating inflammatory processes in the skin.
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PMID:Neuropeptide regulation of human dermal microvascular endothelial cell ICAM-1 expression and function. 984 20

Substance P plays an important role in the transmission of pain-related information in the dorsal horn of the spinal cord. Recent immunocytochemical studies have shown a mismatch between the distribution of substance P and its receptor in the superficial laminae of the dorsal horn. Because such a mismatch was not observed by using classical radioligand binding studies, we decided to investigate further the issue of the relationship between substance P and its receptor by using an antibody raised against a portion of the carboxyl terminal of the neurokinin 1 receptor and a bispecific monoclonal antibodies against substance P and horseradish peroxidase. Light microscopy revealed a good correlation between the distributions of substance P and the neurokinin 1 receptor, both being localized with highest densities in lamina I and outer lamina II of the spinal dorsal horn. An ultrastructural double-labeling study, combining preembedding immunogold with enzyme-based immunocytochemistry, showed that most neurokinin 1 receptor immunoreactive dendrites were apposed by substance P containing boutons. A detailed quantitative analysis revealed that neurokinin 1 receptor immunoreactive dendrites received more appositions and synapses from substance P immunoreactive terminals than those not expressing the neurokinin 1 receptor. Such preferential innervation by substance P occurred in all superficial dorsal horn laminae even though neurokinin 1 receptor immunoreactive dendrites were a minority of the total number of dendritic profiles in the above laminae. These results suggest that, contrary to the belief that neuropeptides act in a diffuse manner at a considerable distance from their sites of release, substance P should act on profiles expressing the neurokinin 1 receptor at a short distance from its site of release.
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PMID:Preferential synaptic relationships between substance P-immunoreactive boutons and neurokinin 1 receptor sites in the rat spinal cord. 986 Oct 46

Inhibitory amino acids have antinociceptive actions in the spinal cord that may involve inhibition of neurotransmitter release from primary afferents. Rat spinal cord slices with dorsal roots were used to study the effect of GABA and glycine on substance P release, assessed by the internalization of neurokinin 1 receptors. After electrical stimulation of the dorsal root at 100 Hz, about half of neurokinin 1 receptor-immunoreactive neurons in laminae I-IIo showed internalization. This internalization was inhibited by GABA (100 microM) and the GABA(B) agonist R-baclofen (10 microM), but not by the GABA(A) agonist muscimol (20 microM) or glycine (100 microM). The GABA(B) antagonist 2-hydroxysaclofen (100 microM) reversed the inhibitory effect of GABA, but not the GABA(A) antagonist bicuculline (100 microM). These findings demonstrate that GABA(B) receptors, but not GABA(A) or glycine receptors, inhibit substance P release induced by dorsal root stimulation. In contrast, R-baclofen did not inhibit the internalization produced by NMDA (100 microM), indicating that the stimulatory effect of NMDA receptors on substance P release is able to surmount the inhibitory effect of GABA(B) receptors. In the presence of the GABA(B) antagonist 2-hydroxysaclofen (100 microM), but not in its absence, stimulation of the dorsal root at 1 or 10 Hz was able to elicit internalization, which was not inhibited by the NMDA receptor antagonist AP-5 (50 microM) or the channel blocker MK-801 (10 microM). Therefore, inhibition of substance P release by GABA(B) receptors is tonic, and in its absence SP release no longer requires NMDA receptor activation.
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PMID:Substance P release in the dorsal horn assessed by receptor internalization: NMDA receptors counteract a tonic inhibition by GABA(B) receptors. 1005 42

Substance P is an important neuromediator in spinal synaptic transmission, particularly in processing nociceptive afferent information. The effects of substance P are mediated by activation of the neurokinin 1 receptor. Evidence has suggested that excitatory amino acids such as glutamate, and prostaglandins including prostaglandin E2 are involved in the enhanced spinal excitability and hyperalgesia produced by spinal substance P. In the present study, we have demonstrated that intrathecal injection of substance P (20 nmol) in rats chronically implanted with intrathecal dialysis catheters induced a decrease in thermal paw withdrawal latency (before: 10.4+/-0.3 s; after 7.6+/-0.6 s), which was accompanied by an increase in prostaglandin E2 (362+/-37% of baseline), glutamate (267+/-84%) and taurine (279+/-57%), but not glycine, glutamine, serine or asparagine. Intrathecal injection of artificial cerebrospinal fluid had no effect upon the behavior or release. Substance P-induced thermal hyperalgesia and prostaglandin E2 release were significantly attenuated by a selective neurokinin 1 receptor antagonist RP67580, but not by an enantiomer RP68651. However, substance P-induced release of glutamate and taurine was not reduced by treatment with RP67580. SR140333, another neurokinin 1 receptor antagonist, displayed the same effects as RP67580 (i.e. block of thermal hyperalgesia and prostaglandin E2 release, but not release of amino acids). These results provide direct evidence suggesting that the spinal substance P-induced thermal hyperalgesia is mediated by an increase in spinal prostaglandin E2 via activation of the neurokinin 1 receptor. These findings define an important linkage between small afferents, sensory neurotransmitter release and spinal prostanoids in the cascade of spinally-mediated hyperalgesia. The evoked release of glutamate is apparently not a result of activation of neurokinin 1 receptors. Accordingly, consistent with other pharmacological data, acute spinal glutamate release does not contribute to the hyperalgesia induced by activation of spinal neurokinin 1 receptors.
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PMID:Intrathecal substance P-induced thermal hyperalgesia and spinal release of prostaglandin E2 and amino acids. 1007 33

Immunoreactivity for the neurokinin 1 receptor is contained in nerve cell bodies that have been deduced to be intrinsic primary afferent neurons in the myenteric plexus of the rat ileum. This study shows that neurokinin 1 receptor immunoreactivity on these neurons represents receptors that can bind agonist and undergo endocytosis, and explores the properties of that endocytosis. Segments of rat ileum were incubated in Hanks' balanced salt solution for 1 h at 4 degrees C, followed by 1 h at 37 degrees C in physiological saline solution with nicardipine and tetrodotoxin, in the presence or absence of substance P. Tissue was then fixed and whole-mount preparations were processed for fluorescence immunohistochemistry, using antibodies raised against the C-terminus of the neurokinin 1 receptor. The intracellular and surface distributions of receptor immunoreactivity were analysed using confocal microscopy and quantified by computer analysis. In tissue not exposed to substance P, most neurokinin 1 receptor immunoreactivity was confined to the surfaces of nerve cells, and 29% was intracellular. Exogenous substance P (10(-6) M) caused an increase in the amount of intracellular receptor to 72%. This internalization was concentration dependent, and maximum receptor internalization was achieved between 10(-6) M and 10(-5) M substance P (EC50 = 4.9 +/-1.6 x 10(-7) M). The specific neurokinin 1 receptor antagonist, SR104333 (10(-6) M), inhibited substance P-induced endocytosis. In tissue that was incubated in 5 x 10(-5) M monensin (to trap endocytosed receptor in the cell), without the addition of substance P, a high level of intracellular neurokinin 1 receptor immunoreactivity (81%) was also present. We deduce that endocytosis in the presence of monensin was stimulated by the release of tachykinins from intrinsic nerve endings, based on the following evidence: when endogenous release of tachykinin was blocked using a high magnesium/low calcium solution, or binding of tachykinins to the receptor was prevented using 10(-6) M SR140333, the intracellular receptor immunoreactivity remained at approximately 40%. Incubation with hypertonic sucrose also trapped receptors on the cell surface. Use of these protocols that modify receptor trafficking showed that agonist induced the neurokinin 1 receptors to aggregate, accumulate in endocytotic vesicles, move to perinuclear organelles and recycle to the surface in less than 1 h. This study indicates that there is sufficient release of endogenous tachykinins in the rat ileum to cause receptor internalization and implies that these intrinsic primary afferent neurons are likely to be under continuous influence from tachykinins in the normal intestine.
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PMID:Internalization of the neurokinin 1 receptor in rat myenteric neurons. 1033 84

Autoradiography with [125I]-Bolton Hunter substance P ([I]-BHSP) was used to detect substance P binding sites in the equine lung. Specific [I]-BHSP binding sites were very dense over small bronchial vessels, tracheobronchial glands and airway epithelium in large and small airways. The density of [I]-BHSP binding sites over airway smooth muscle was much lower than in the preceding tissues. Competition with an excess of either a specific neurokinin 1 receptor agonist, or a specific neurokinin 2 receptor agonist indicated that most specific [I]-BHSP binding sites in the equine lung represent neurokinin 1 receptors. The receptor-mediated effects of substance P in the equine lung are most likely to involve regulation of vascular tone and airway secretions based upon the density of specific [I]-BHSP binding sites in these tissues. Activation of intrapulmonary afferent nerves containing Substance P by noxious stimuli such as inhaled allergens or irritants may lead to increased mucus secretion and decreased airway diameter due to vascular congestion.
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PMID:Distribution of substance P binding sites in equine airways. 1040 38


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