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)

Inflammation enhances release of neuropeptides from sensory nerve terminals in the spinal cord, and this may contribute to the development of hyperalgesia. In a similar manner, proinflammatory prostaglandins also augment peptide release from sensory neurons. To ascertain whether the inflammation-induced increase in peptide release from spinal cord slices is mediated by production of these eicosanoids, we examined whether intrathecal administration of nonsteroidal antiinflammatory drugs (NSAIDS) could attenuate the effects of inflammation. Unilateral injection of 150 microl of complete Freund's adjuvant (CFA) into the hindpaw of adult Sprague-Dawley rats resulted in a lower threshold for paw withdrawal (hyperalgesia) on 1, 4, and 5 days after injection. Five days after the induction of inflammation, capsaicin-evoked release of immunoreactive substance P (iSP) and immunoreactive calcitonin gene-related peptide (iCGRP) was increased approximately 2-fold in slices of cord tissue from the side ipsilateral to CFA injection, compared to spinal cord slices from the non-inflamed side. Intrathecal administration of 1 microl/h of 10 nmol/microl solution of the NSAID, ketorolac, for 1 day prior to and throughout the inflammation significantly attenuated the inflammation-induced increase in capsaicin-evoked release of both peptides without altering release in cord tissue from the non-inflamed side. Systemic administration of the same amount of ketorolac did not attenuate the effect of inflammation on peptide release. Intrathecal administration of 16 nmol/h (S)-ibuprofen, before and throughout the inflammation, also significantly attenuated the increase in evoked neuropeptide release associated with inflammation, whereas (R)-ibuprofen was ineffective. These results suggest that inhibition of cyclooxygenase at the level of the spinal cord attenuates the augmentation of neuropeptide release induced by peripheral inflammation, and provide further evidence for an action of prostaglandins at central terminals of sensory neurons during inflammation.
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PMID:Intrathecal NSAIDS attenuate inflammation-induced neuropeptide release from rat spinal cord slices. 982 10

To study the mechanisms of wood smoke-induced bronchoconstriction, we measured total lung resistance (RL) and dynamic lung compliance (Cdyn) in anesthetized and mechanically ventilated guinea pigs. Airway exposure to various doses of wood smoke (lauan wood; 5, 10, and 15 breaths) resulted in a dose-dependent increase in RL and decrease in Cdyn. The smoke-induced changes in RL and Cdyn were significantly attenuated by pretreatment with atropine, CP-96,345 [(2S,3S)-cis-2-(diphenylmethyl)-N-((2-methoxyphenyl)-methyl)-1-aza bicyclo(2.2.2.)-octan-3-amine; a tachykinin NK1 receptor antagonist], and SR-48,968 [(S)-N-methyl-N(4-(4-acetylamino-4-phenylpiperidino)-2-(3,4-dichlorophen yl)-butyl)benzamide; a tachykinin NK2 receptor antagonist] in combination, atropine alone, and SR-48,968 alone, but were not significantly affected by pretreatment with the inactive enantiomers of CP-96,345 and SR-48,968, CP-96,345 alone, indomethacin (a cyclooxygenase inhibitor), and MK-571 [((3-(3-(2-(7-chloro-2-quinolinyl)ethenyl)phenyl((3-dimethyl amino-3-oxo-propyl)thio)methyl)propanoic acid; a leukotriene D4 receptor antagonist]. The activity of airway neutral endopeptidase, a major enzyme for tachykinin degradation, was not significantly influenced by wood smoke during the development of bronchoconstriction. We conclude that: (1) both cholinergic mechanisms and endogenous tachykinins, but not cyclooxygenase products or leukotriene D4, play an important role in the acute bronchoconstriction induced by wood smoke, and (2) the contribution of tachykinins to this airway response is primarily mediated via the activation of tachykinin NK2 receptors, but is not associated with inactivation of the airway neutral endopeptidase.
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PMID:Acetylcholine and tachykinin receptor antagonists attenuate wood smoke-induced bronchoconstriction in guinea pigs. 985 84

We characterized the endothelial responses to substance P (SP) in the isolated canine cerebral artery. SP caused concentration-dependent contraction at 10(-10) - 10(-7) M and relaxation at 10(-10) and 10(-9) M, which were abolished by removal of the endothelium. The SP-induced endothelium-dependent relaxation (EDR) was suppressed, while the endothelium-dependent contraction (EDC) was increased by repeated application. The EDC induced by SP (10(-7) M) was attenuated by SR-140333 (10(-9) - 10(-7) M) and CP-99994 (10(-7) M), both NK1 antagonists, but not by SR-48968 (10(-7) M), an NK2 antagonist, or four antagonistic SP analogues (10(-6) M). The EDC induced by SP (10(-7) M) was attenuated by aspirin (10(-5) M), a cyclooxygenase inhibitor, OKY-046 (10(-5) M), a TXA2 synthetase inhibitor and ONO-3708 (10(-8) M), a TXA2 antagonist. Neurokinin A (10(-7) M) but not neurokinin B (10(-7) M) caused EDC similar to that induced by SP. In conclusion, SP induces EDC via endothelial NK1 receptors and TXA2 production in canine cerebral arteries.
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PMID:Endothelium-dependent contraction induced by substance P in canine cerebral arteries: involvement of NK1 receptors and thromboxane A2. 1002 52

1. In smooth muscle of the circumflex coronary artery of guinea-pig, acetylcholine (ACh, 10(-6) M) produced an endothelium-dependent hyperpolarization consisting of two components. An initial component that occurs in the presence of ACh and a slow component that developed after ACh had been withdrawn. Each component of the hyperpolarization was accompanied by an increase in membrane conductance. 2. Indomethacin (5 x 10(-6) M) or diclofenac (10(-6) M), both inhibitors of cyclooxygenase, abolished only the slow hyperpolarization. The initial hyperpolarization was not inhibited by diclofenac nor by nitroarginine, an inhibitor of nitric oxide synthase. 3. Both components of the ACh-induced hyperpolarization were abolished in the presence of atropine (10(-6) M) or high-K solution ([K+]0 = 29.4 mM). 4. The interval between ACh-stimulation required to generate an initial hyperpolarization of reproducible amplitude was 20 min or greater, but it was reduced to less than 5 min after inhibiting cyclooxygenase activity. Conditioning stimulation of the artery with substance P (10(-7) M) also caused a long duration (about 20 min) inhibition of the ACh-response. 5. The amplitude of the hyperpolarization generated by Y-26763, a K+-channel opener, was reproducible within 10 min after withdrawal of ACh. 6. Exogenously applied prostacyclin (PGI2) hyperpolarized the membrane and reduced membrane resistance in concentrations over 2.8 x 10(-9)M. 7. At concentrations below threshold for hyperpolarization and when no alteration of membrane resistance occurred, PGI2 inhibited the initial component of the ACh-induced hyperpolarization. 8. It is concluded that endothelial prostanoids, possibly PGI2, have an inhibitory action on the release of endothelium-derived hyperpolarizing factor.
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PMID:Inhibition of endothelium-dependent hyperpolarization by endothelial prostanoids in guinea-pig coronary artery. 1005 Nov 14

Behavioral models indicate that persistent small afferent input, as generated by tissue injury, results in a hyperalgesia at the site of injury and a tactile allodynia in areas adjacent to the injury site. Hyperalgesia reflects a sensitization of the peripheral terminal and a central facilitation evoked by the persistent small afferent input. The allodynia reflects a central sensitization. The spinal pharmacology of these pain states has been defined in the unanesthetized rat prepared with spinal catheters for injection and dialysis. After tissue injury, excitatory transmitters (e.g., glutamate and substance P) acting though N-methyl-D-aspartate (NMDA) and neurokinin 1 receptors initiate a cascade that evokes release of (i) NO, (ii) cyclooxygenase products, and (iii) activation of several kinases. Spinal dialysis show amino acid and prostanoid release after cutaneous injury. Spinal neurokinin 1, NMDA, and non-NMDA receptors enhance spinal prostaglandin E2 release. Spinal prostaglandins facilitate release of spinal amino acids and peptides. Activation by intrathecal injection of receptors on spinal C fiber terminals (mu,/delta opiate, alpha2 adrenergic, neuropeptide Y) prevents release of primary afferent peptides and spinal amino acids and blocks acute and facilitated pain states. Conversely, consistent with their role in facilitated processing, NMDA, cyclooxygenase 2, and NO synthase inhibitors act to diminish only hyperalgesia. Importantly, spinal delivery of several of these agents diminishes human injury pain states. This efficacy emphasizes (i) the role of facilitated states in humans, (ii) shows the importance of spinal systems in human pain processing, and (iii) indicates that these preclinical mechanisms reflect processes that regulate the human pain experience.
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PMID:The spinal biology in humans and animals of pain states generated by persistent small afferent input. 1039 80

We had shown that bradykinin (BK) generated by cardiac sympathetic nerve endings (i.e., synaptosomes) promotes exocytotic norepinephrine (NE) release in an autocrine mode. Because the synaptosomal preparation may include sensory C-fiber endings, which BK is known to stimulate, sensory nerves could contribute to the proadrenergic effects of BK in the heart. We report that BK is a potent releaser of NE from guinea pig heart synaptosomes (EC(50) approximately 20 nM), an effect mediated by B(2) receptors, and almost completely abolished by prior C-fiber destruction or blockade of calcitonin gene-related peptide and neurokinin-1 receptors. C-fiber destruction also greatly decreased BK-induced NE release from the intact heart, whereas tyramine-induced NE release was unaffected. Furthermore, C-fiber stimulation with capsaicin and activation of calcitonin gene-related peptide and neurokinin-1 receptors initiated NE release from cardiac synaptosomes, indicating that stimulation of sensory neurons in turn activates sympathetic nerve terminals. Thus, BK is likely to release NE in the heart in part by first liberating calcitonin gene-related peptide and Substance P from sensory nerve endings; these neuropeptides then stimulate specific receptors on sympathetic terminals. This action of BK is positively modulated by cyclooxygenase products, attenuated by activation of histamine H(3) receptors, and potentiated at a lower pH. The NE-releasing action of BK is likely to be enhanced in myocardial ischemia, when protons accumulate, C fibers become activated, and the production of prostaglandins and BK increases. Because NE is a major arrhythmogenic agent, the activation of this interneuronal signaling system between sensory and adrenergic neurons may contribute to ischemic dysrhythmias and sudden cardiac death.
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PMID:Bradykinin activates a cross-signaling pathway between sensory and adrenergic nerve endings in the heart: a novel mechanism of ischemic norepinephrine release? 1041 75

We compared endothelial responses to calcium-mobilizing agents in mesenteric and cerebral resistance arteries of the rat. Middle cerebral and small mesenteric arteries were mounted in a pressure myograph, and myogenic responses were recorded. The effects of acetylcholine (ACh), bradykinin, substance P, histamine, A23187, cyclopiazonic acid (CPA), and sodium nitroprusside were investigated in both arteries with myogenic tone in the absence and presence of nitric oxide synthase and cyclooxygenase inhibitors. The effects of raised potassium, K(+) channel blockers, and arachidonic metabolism inhibition were examined on the nitric oxide (NO) synthase/cyclooxygenase inhibitor-resistant dilation induced by ACh and CPA. Cerebral arteries display a high level of myogenic reactivity compared with mesenteric arteries. In cerebral arteries, only bradykinin and substance P induced endothelium-dependent dilation. The observed dilation was solely related to the activation of the NO pathway. However, in mesenteric arteries, all of the vasoactive agents induced endothelium-dependent dilation. A combination of NO, cyclooxygenase-derived prostanoids, and a factor with endothelium-derived hyperpolarizing factor-like properties was responsible for the observed vasodilation. NO and cyclooxygenase derivatives were able to compensate for each other in the CPA-induced endothelium-dependent vasodilation when one of the two pathways was blocked. Moreover, small Ca(2+)-activated K(+) channels and a combination of both large and small Ca(2+)-activated K(+) channels were implicated in the endothelium-derived hyperpolarizing factor-like component of dilation to ACh and CPA, respectively. Finally, the results suggest that the pathway by which agonists raise intracellular calcium concentration may determine the nature of the endothelial secretory product.
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PMID:Heterogeneity of endothelium-dependent vasodilation in pressurized cerebral and small mesenteric resistance arteries of the rat. 1041 99

This study analyzes both cell migration and exudation responses elicited by substance P (SP) in the mouse pleural cavity. SP caused, 4 h after its administration into the mouse pleural cavity, a dose-related recruitment of leukocytes (ED50 = 14.2 nmol), mainly due to mononuclears. Leukocytes peaked between 2 and 4 h, being followed by a slight decay that remained elevated for up to 24 h. Exudation, although small, was significantly elevated from 2 to 96 h after. NK1 (FK 888) or NK3 (SR 142801), but not NK2 (SR 48968) tachykinin receptor antagonists, significantly inhibited cell migration. HOE 140 and NPC 17731, bradykinin B2 receptor antagonists, caused graded inhibition of cell influx (ID50s of 0.03 and 0.04 pmol), but des-Arg9-Leu8-BK, B1 receptor antagonist, had no effect. The nitric oxide inhibitors L-NOARG and L-NAME, but not D-NAME, significantly inhibited SP-induced pleurisy. Pretreatment of the animals with indomethacin, dexamethasone, terfenadine, theophylline or salbutamol produced significant inhibition of the inflammatory parameters, whereas cromolyn only inhibited exudation. These results indicate that intrapleural injection of SP in mice elicit a long-lasting inflammatory reaction that is characterized by the participation of nitric oxide, kinins, cyclooxygenase metabolites and histamine. Antiasthmatic drugs such as theophylline, salbutamol, dexamethasone, and, to a lesser extent cromolyn, also markedly inhibit this inflammatory reaction. These results provide clear evidence supporting the role played by SP in neurogenic inflammation.
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PMID:Analysis of the inflammatory response induced by substance P in the mouse pleural cavity. 1042 82

Interleukin-1beta has been reported to induce airway hyperresponsiveness in several animal models. In this study, we have investigated whether interleukin-1beta was able to potentiate the contractions of human isolated small bronchi (internal diameter < or = 1 mm) provoked by a specific tachykinin NK1 receptor agonist, [Sar9,Met(O2)11]substance P. Pre-incubation of human isolated small bronchi with interleukin-1beta (10 ng/ml, in Krebs-Henseleit solution, at 21 degrees C for 15 h) potentiated the contractile response to [Sar9,Met(O2)11]substance P. It also increased the [Sar9,Met(O2)11]substance P-induced release of thromboxane B2, the stable metabolite of thromboxane A2. Indomethacin (10(-6) M), a non-specific cyclooxygenase inhibitor, or GR 32191 ((1R-(1alpha(Z)),2beta,3beta,5alpha))-(+)-7-(5-(((1,1' -biphenyl)-4-yl)-methoxy)-3-hydroxy-2-(1-piperidinyl)cyclopentyl)-4-hept enoic acid, hydrochloride) (10(-6) M), a prostanoid TP-receptor antagonist, blocked the contractions induced by [Sar9,Met(O2)11]substance P both in control experiments and after interleukin-1beta pre-treatment, indicating that prostanoids and thromboxane receptors are directly implicated in the [Sar9,Met(O2)11]substance P-induced contractile response. The thromboxane mimetic U-46619 (10(-8)-10(-6) M) (9,11-dideoxy-11alpha,9alpha-epoxymethano-prostaglandin F2alpha)-induced contractions of human isolated small bronchi were not enhanced by interleukin-1beta pre-treatment, suggesting that no up-regulation of thromboxane receptors occurred. Furthermore, the cyclooxygenase-2 inhibitor CGP 28238 (6-(2,4-difluorophenoxy)-5-methyl-sulfonylamino-1-indanon e) (10(-6) M) had no direct effect on [Sar9,Met(O2)11]substance P-provoked contractions, but inhibited the interleukin-1beta-induced potentiation of [Sar9,Met(O2)11]substance P response. In conclusion, our results show that interleukin-1beta pre-treatment is able to potentiate the contractions of isolated human small bronchi provoked by [Sar9,Met(O2)11]substance P both by increasing prostanoid synthesis and by inducing a cyclooxygenase-2 pathway.
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PMID:Interleukin-1beta-induced hyperresponsiveness to [Sar9,Met(O2)11]substance P in isolated human bronchi. 1049 76

Substance P (SP) is synthesized in the dorsal root ganglion (DRG) and released from primary afferent neurons to convey information regarding noxious stimuli. The effects of the proinflammatory cytokine interleukin-1 (IL-1) beta on the release of SP were investigated using primary cultured rat DRG cells. Recombinant mouse IL-1beta added to the cells at 0.1 ng/ml increased the SP-like immunoreactivity (SPLI) in the culture medium after incubation for 6 h by approximately 50% as compared with that of nontreated DRG cells. The effect of IL-1beta was Ca(2+)-dependent and significantly inhibited by 100 ng/ml IL-1 receptor-specific antagonist (IL-1r antagonist), cyclooxygenase (COX) inhibitors such as 0.1 mM aspirin, 1 microg/ml indomethacin, and 1 microM NS-398 (specific for COX-2), and 1 microM dexamethasone. Furthermore, a 1-h incubation with IL-1beta markedly increased the inducible COX-2 mRNA level, which was inhibited by an IL-1r antagonist and dexamethasone, whereas IL-1beta showed no effect on the level of constitutive COX-1 mRNA. These observations indicated that IL-1beta induced the release of SP from the DRG cells via specific IL-1 receptors, the mechanism of which might involve prostanoid systems produced by COX-2. This could be responsible for the hyperalgesic action with reference to inflammatory pain in the primary afferent neuron to spinal cord pathway.
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PMID:Interleukin-1beta induces substance P release from primary afferent neurons through the cyclooxygenase-2 system. 1053 81


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