UMLS:C0030193 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030193 (pain)
261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nonsteroidal anti-inflammatory drugs (NSAIDs) are the most frequently prescribed drug for the treatment of inflammation and pain. However, conventional NSAIDs and selective COX-2 inhibitors have shown many side effects such as gastric mucosal damage and cardiovascular problems. Recently, the use of dual acting inhibitors of cyclooxygenases (COX) and lipoxygenase (LOX) has been highlighted for their minimized side effects compared to NSAIDs. The objective of the present study was to examine the efficacy and the gastric side effects of 1-furan-2-yl-3-pyridin-2-yl-propenone (FPP-3), a synthetic dual inhibitor of COX/5-LOX. Indomethacin (1-50 mg/kg, p.o.), a non-selective COX inhibitor, and FPP-3 (0.5-50 mg/kg, p.o.), a dual inhibitor, significantly suppressed the carrageen-induced paw edema with different pharmacological profiles. The concentrations of FPP-3 and indomethacin showing 50% inhibition of the maximum paw edema in rats were 10 mg/kg and 20 mg/kg, respectively. More importantly, there were no gastric ulcers formed in FPP-3-treated rats and mice, whereas indomethacin caused gastric mucosal bleeding in a concentration-dependent manner. In addition, FPP-3 showed an analgesic effect in acetic acid-induced writhing response in mice in a dose-dependent manner. The results suggest that FPP-3 may have a benefit in combatting inflammation and pain by dual inhibition of COX and LOX.
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PMID:Potent analgesic and anti-inflammatory activities of 1-furan-2-yl-3-pyridin-2-yl-propenone with gastric ulcer sparing effect. 1646 46

Dual inhibitors that block both cyclooxygenase (COX) and lipoxygenase (LOX) metabolic pathways of arachidonic acid are expected to possess clinical advantages over the selective inhibitors of COX enzyme. One of the most promising compounds belonging to this category is licofelone ([2,2 -dimethyl -6-(4-chloropheny-7-phenyl-2,3-dihydro-1H-pyrrazoline-5-yl] acetic acid). Originally discovered by Merckle GmbH and developed by EuroAllaince, licofelone (IC(50) COX=0.21 microM, IC(50) 5-LOX=0.18 microM) possesses significant analgesic, anti-inflammatory, and antiasthmatic effects at doses that cause no gastrointestinal (GI) side effects. The pharmacodynamic profile of licofelone has been assessed and compared with widely used NSAIDs in different animal models. The ED(50) value of licofelone is reported to be 11.22-27.07 mg/kg, po and 39.5-55-8 mg/kg, po against carrageenan-induced paw oedema and Randal Selitto hyperalgesic assay in rats, respectively. Licofelone showed analgesic effect (ED(50) = 31.33 mg/kg) against acetic acid-induced writhing in mice. Licofelone has long duration of action and more effective than indomethacin and zileuton with ED(50) values of 2.92 mg/kg, po and 36.77 mg/kg, po, in the mechanical hyperalgesia and cold allodynia testing, respectively, against rat model of incisional pain. Licofelone significantly ameliorated indomethacin-induced gastric ulceration, neutrophil adhesion in mesentery, and lipid peroxides in rat gastric mucosa. Also, licofelone reversed the altered vascular permeability, morphological changes, and prevented NSAIDs-related increase in leukotriene levels in gastric mucosa. The preclinical studies have shown that licofelone not only has convincing pharmacodynamic effect but also it is well tolerated. It is currently under clinical evaluation in osteoarthritis (OA), the most common form of arthritis. The present review describes pharmacological and clinical development of licofelone as a dual inhibitor.
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PMID:Licofelone--a novel analgesic and anti-inflammatory agent. 1730 68

In mammalian cells, eicosanoid biosynthesis is usually initiated by the activation of phospholipase A2 and the release of arachidonic acid (AA) from membrane phospholipids. The AA is subsequently transformed by cyclooxygenase (COX) and lipoxygenase (LO) pathways to prostaglandins, thromboxane and leukotrienes collectively termed eicosanoids. Eicosanoid production is considerably increased during inflammation. Both COX and LO pathways are of particular clinical relevance. The COX pathway is the major target for non-steroidal anti-inflammatory drugs (NSAIDs), the most popular medications used to treat pain, fever and inflammation. Although their anti-inflammatory effects are well known, their long-term use is associated with gastrointestinal (GI) complications such as ulceration. In 1991, it was discovered that COX exists in two distinct isozymes, COX-1 and COX-2, of which COX-2 is primarily expressed at sites of inflammation and produces pro-inflammatory eicosanoids. For this reason, COX-2 selective inhibitors (COXIBs) have been developed recently as anti-inflammatory agents to minimize the risk of GI toxicity. Recently, some COX-2 selective inhibitors have shown adverse cardiovascular side effects, resulting in the withdrawal of rofecoxib and valdecoxib from the market. Selective inhibition of COX-2 without reducing COX-1-mediated thromboxane production could alter the balance between prostacyclin and thromboxane and promote a prothrombotic state, thereby explaining the observed COX-2 cardiovascular risk. In this review, we describe mechanisms for the production of pro-inflammatory eicosanoid mediators contributing to inflammation and summarize promising options for the prevention of inflammatory mediator formation and the therapeutic inhibition of pain and inflammation.
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PMID:Eicosanoids in inflammation: biosynthesis, pharmacology, and therapeutic frontiers. 1730 73

Snake venom is a complex mixture containing diverse protein components with different structures and functions that are used for prey immobilization and death. Snake venoms from the family Viperidae cause pronounced local and systemic effects, such as pain, edema, hemorrhage and necrosis. Here, we investigated the enzymatic and biological activities of venoms from two Amazonian snakes, Bothriopsis bilineata and Bothriopsis taeniata. Both venoms presented high enzymatic activities for proteases kallikrein, thrombin and plasmin, low levels of trypsin, cathepsin C and leucine aminopeptidase activities, while lacked acetylcholinesterase activity. B. taeniata and B. bilineata crude venoms caused inflammation inducing neutrophil recruitment into peritoneal cavity of mice 4h after injection. Neutrophil recruitment induced by B. taeniata venom was accompanied by hemorrhage. EDTA treatment profoundly impaired neutrophil recruitment, suggesting the involvement of a metalloproteinase on venoms-induced neutrophil recruitment. Pretreatment with dexamethasone and zileuton, a 5-lipoxygenase inhibitor, significantly reduced neutrophil migration, but indomethacin and montelukast, a cysteinyl leukotriene receptor antagonist, had no effect, suggesting the involvement of lipoxygenase-derived metabolites, probably LTB(4). Together, these results show that B. bilineata and B. taeniata venoms induce a marked inflammatory reaction, with leukocyte recruitment, and hemorrhage, which parallels to a high proteolytic activity found in these venoms.
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PMID:Biochemical and biological characterization of the venoms of Bothriopsis bilineata and Bothriopsis taeniata (Serpentes: Viperidae). 1753 75

Acyclic amine-carboxyboranes were effective anti-inflammatory agents in mice at 8 mg/kg x 2. These amine-carboxyboranes were more effective than the standard indomethacin at 8 mg/kg x 2, pentoxifylline at 50 mg/kg x 2, and phenylbutazone at 50 mg/kg x 2. The heterocyclic amine derivatives as well as amine-carbamoylboranes, carboalkoxyboranes, and cyanoboranes were generally less active. However, selected aminomethyl-phosphonate-N-cyanoboranes demonstrated greater than 60% reduction of induced inflammation. The boron compounds were also active in the rat induced edema, chronic arthritis, and pleurisy screens, demonstrating activity similar to the standard indomethacin. The compounds were effecive in reducing local pain and decreased the tail flick reflex to pain. The derivatives which demonstrated good anti-inflammatory activity were effective inhibitors of hydrolytic lysosomal, and proteolytic enzyme activities with IC(50) 50 values equal to (-6)M in mouse macrophages, human leukocytes, and Be Sal osteofibrolytic cells. In these same cell lines, the agents blocked prostaglandin cyclooxygenase activity with IC(50) values of (-6)M. In mouse macrophage and human leukocytes, 5' lipoxygenase activity was also inhibited by the boron derivatives with IC(50) values of 10(-6)M. These IC(50) values for inhibition of these enzyme activities are consistent with published values of known anti-inflammatory agents which target these enzymes.
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PMID:The anti-inflammatory activity of boron derivatives in rodents. 1847 41

Crotoxin (CTX), a neurotoxin isolated from the venom of the South American rattlesnake Crotalus durissus terrificus, induces analgesia. In this study, we evaluated the antinociceptive effect of CTX in a model of neuropathic pain induced by rat sciatic nerve transection. Hyperalgesia was detected 2 h after nerve transection and persisted for 64 days. Immersion of proximal and distal nerve stumps in CTX solution (0.01 mM for 10 s), immediately after nerve transection, blocked hyperalgesia. The antinociceptive effect of CTX was long-lasting, since it was detected 2 h after treatment and persisted for 64 days. CTX also delayed, but did not block, neurectomy-induced neuroma formation. The effect of CTX was blocked by zileuton (100 mg/kg, p.o.) and atropine (10 mg/kg, i.p.), and reduced by yohimbine (2 mg/kg, i.p.) and methysergide (5 mg/kg, i.p.). On the other hand, indomethacin (4 mg/kg, i.v.), naloxone (1 mg/kg, i.p.), and N-methyl atropine (30 mg/kg, i.p.) did not interfere with the effect of CTX. These results indicate that CTX induces a long-lasting antinociceptive effect in neuropathic pain, which is mediated by activation of central muscarinic receptors and partially, by activation of alpha-adrenoceptors and 5-HT receptors. Eicosanoids derived from the lipoxygenase pathway modulate the action of crotoxin.
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PMID:The analgesic effect of crotoxin on neuropathic pain is mediated by central muscarinic receptors and 5-lipoxygenase-derived mediators. 1877 27

Eugenol is an aromatic molecule found in several plants and widely used in dentistry for analgesic and antiseptic purposes. It inhibits pro-inflammatory mediators including nitric oxide synthase, cyclooxygenase and lipoxygenase. It also regulates ion channels involved in pain signaling, such as TRPV1 receptor, high-voltage-activated Ca(2+) channels, NMDA receptor and GABA(A) receptor. The expression and functional properties of voltage-gated Na(+) channels in primary sensory neurons are altered following inflammation or nerve injury. To elucidate an involvement of Na(+) channels in the eugenol-induced analgesia we investigated the effects of eugenol on tetrodotoxin-sensitive (TTX-S) and tetrodotoxin-resistant (TTX-R) Na(+) currents in acutely dissociated rat dorsal root ganglion neurons. Eugenol inhibited TTX-S and TTX-R Na(+) currents in a concentration-dependent manner. The K(d) values were 308 muM and 543 muM, respectively. Eugenol did not influence the activation voltage of either type of Na(+) current. However, eugenol moved the steady-state inactivation curves of both Na(+) currents to a hyperpolarizing direction and reduced the maximal Na(+) current. Thus eugenol appears to inhibit Na(+) currents through its interaction with both resting and inactivated Na(+) channels. The recovery from inactivation of both Na(+) currents was slowed by eugenol. The eugenol inhibition of Na(+) currents was not dependent on the stimulus frequency. The inhibition of Na(+) currents is considered as one of the mechanisms by which eugenol exerts analgesia.
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PMID:Effects of eugenol on Na+ currents in rat dorsal root ganglion neurons. 1882 59

Leukotrienes (LTs) belong to a large family of lipid mediators, termed eicosanoids, which are derived from arachidonic acids and released from the cell membrane by phospholipases. LTs are involved in the pathogenesis of inflammatory diseases, such as asthma, rheumatoid arthritis, and peripheral inflammatory pain. In the present study, we examined whether LTs were implicated in pathomechanism of neuropathic pain following peripheral nerve injury. Using the spared nerve injury (SNI) model in rats, we investigated the expression of LT synthases (5-lipoxygenase; 5-LO, Five lipoxygenase activating protein; FLAP, LTA4 hydrolase; LTA4h and LTC4 synthase; LTC4s) and receptors (BLT1, 2 and CysLT1, 2) mRNAs in the rat spinal cord. Semi-quantitative RT-PCR revealed that 5-LO, FLAP, LTC4s, BLT1, and CysLT1 mRNAs increased following SNI, but not CysLT2 mRNAs. Using double labeling analysis of in situ hybridization with immunohistochemistry, we observed that 5-LO, FLAP, and CysLT1 mRNAs were expressed in spinal microglia. LTA4h and LTC4s mRNAs were expressed in both spinal neurons and microglia. BLT1 mRNA was expressed in spinal neurons. The p38 mitogen-activated protein kinase inhibitor, but not MEK inhibitor, reduced the increase in 5-LO in spinal microglia. Continuous intrathecal administration of the 5-LO inhibitor or BLT1 and CysLT1 receptor antagonists suppressed mechanical allodynia induced by SNI. Our findings suggest that the increase of LT synthesis in spinal microglia produced via p38 MAPK plays a role in the generation of neuropathic pain.
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PMID:Leukotriene synthases and the receptors induced by peripheral nerve injury in the spinal cord contribute to the generation of neuropathic pain. 1990 83

In inflamed tissues, extracellular pH decreases and acidosis is an important source of pain. Histamine is released from mast cells under inflammatory conditions and evokes the pain sensation in vivo, but the cellular mechanism of histamine-induced pain has not been well understood. In the present study, we examined the effects of histamine on [Ca(2+)](i) and membrane potential responses to acid in isolated mouse dorsal root ganglion (DRG) neurons. In capsaicin-sensitive DRG neurons from wild-type mice, acid (>pH 5.0) evoked [Ca(2+)](i) increases, but not in DRG neurons from transient receptor potential V1 (TRPV1) (-/-) mice. Regardless of isolectin GS-IB4 (IB4)-staining, histamine potentiated [Ca(2+)](i) responses to acid (>or=pH 6.0) that were mediated by TRPV1 activation. Histamine increased membrane depolarization induced by acid and evoked spike discharges. RT-PCR indicated the expression of all four histamine receptors (H1R, H2R, H3R, H4R) in mouse DRG. The potentiating effect of histamine was mimicked by an H1R agonist, but not H2R-H4R agonists and was inhibited only by an H1R antagonist. Histamine failed to potentiate the [Ca(2+)](i) response to acid in the presence of inhibitors for phospholipase C (PLC) and protein kinase C (PKC). A lipoxygenase inhibitor and protein kinase A inhibitor did not affect the potentiating effects of histamine. Carrageenan and complete Freund's adjuvant produced inflammatory hyperalgesia, but these inflammatory conditions did not change the potentiating effects of histamine in DRG neurons. The present results suggest that histamine sensitizes acid-induced responses through TRPV1 activation via H1R coupled with PLC/PKC pathways, the action of which may be involved in the generation of inflammatory pain.
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PMID:Histamine potentiates acid-induced responses mediating transient receptor potential V1 in mouse primary sensory neurons. 2000 72

Environmental or internal noxious stimuli excite the primary sensory nerves in our body. The sensory nerves relay these signals by electrical discharges to the brain, leading to pain perception. Six transient receptor potential (TRP) ion channels are expressed in the sensory nerve terminals and play a crucial role in sensing diverse noxious stimuli. Cation influx through activated TRP ion channels depolarizes the plasma membrane, resulting in neuronal excitation and pain. Natural and synthetic compounds have been found to act on these sensory TRP channels to alter the nociception. Evidence is growing that lipidergic substances are also cable of modifying TRP ion channel activity by direct binding. Here, we focus on endogenously generated lipids that modulate the sensory TRP activities. Unsaturated fatty acids or their metabolites via lipoxygenase, cyclooxygenase or epoxygenase are able to modulate (activate, inhibit or potentiate) the function of specific TRPs. Isoprene lipids, diacylglycerol, resolvin, and lysophospholipids also show distinct activities on sensory TRP channels. Outcomes caused by the interactions between sensory TRPs and lipid ligands are also discussed. The knowledge we collected here implicates that information on lipidergic ligands may contribute to our understanding of peripheral pain mechanism and provide an opportunity to design novel therapeutic strategies.
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PMID:Endogenous lipid-derived ligands for sensory TRP ion channels and their pain modulation. 2105 30

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