Ltc4 is a lipid of Fatty Acyls (FA) class. Ltc4 is associated with abnormalities such as Asthma, Eosinophilia, Pulmonary Eosinophilia, Pneumonia and Cardiovascular Diseases. The involved functions are known as Signal, Gene Expression, Stimulus, Signal Transduction and Metabolic Inhibition. Ltc4 often locates in Plasma membrane, Cytoplasm, Back, Cytoplasmic and Tissue membrane. The associated genes with LTC4 are STIM1 gene, ABCC2 gene, CD9 gene, Mutant Proteins and Amino Acids, Aromatic. The related lipids are glycolithocholate.
To understand associated biological information of LTC4, we collected biological information of abnormalities, associated pathways, cellular/molecular locations, biological functions, related genes/proteins, lipids and common seen animal/experimental models with organized paragraphs from literatures.
LTC4 is suspected in Pneumonia, Asthma, Pulmonary Eosinophilia, Eosinophilia, Cardiovascular Diseases, Disintegration and other diseases in descending order of the highest number of associated sentences.
Disease | Cross reference | Weighted score | Related literature |
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We collected disease MeSH terms mapped to the references associated with LTC4
Lipid pathways are not clear in current pathway databases. We organized associated pathways with LTC4 through full-text articles, including metabolic pathways or pathways of biological mechanisms.
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Associated locations are in red color. Not associated locations are in black.
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Function | Cross reference | Weighted score | Related literatures |
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Lipid concept | Cross reference | Weighted score | Related literatures |
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There are no associated biomedical information in the current reference collection.
Authors | Title | Published | Journal | PubMed Link |
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Laengle UW et al. | Effects of latanoprost, timolol and GLC756, a novel dopamine D(2) agonist and D(1) antagonist on LTC(4) release after rat mast cell activation. | 2007 Sep-Oct | Clin. Experiment. Ophthalmol. | pmid:17894685 |
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Feltenmark S et al. | Eoxins are proinflammatory arachidonic acid metabolites produced via the 15-lipoxygenase-1 pathway in human eosinophils and mast cells. | 2008 | Proc. Natl. Acad. Sci. U.S.A. | pmid:18184802 |
Wang J et al. | Does leukotriene affect intracellular glutathione redox state in cultured human airway epithelial cells? | 2008 | Antioxid. Redox Signal. | pmid:18199004 |
Cao F et al. | Mrp2-related efflux of scutellarin in the intestinal absorption in rats. | 2008 | Pharmazie | pmid:18271309 |
Korzekwa AJ et al. | Luteolytic effect of prostaglandin F 2 alpha on bovine corpus luteum depends on cell composition and contact. | 2008 | Reprod. Domest. Anim. | pmid:18282218 |
Ito Y et al. | Guinea pig cysteinyl leukotriene receptor 2 (gpCysLT2) mediates cell proliferation and intracellular calcium mobilization by LTC4 and LTD4. | 2008 | BMB Rep | pmid:18315950 |
Létourneau IJ et al. | Role of proline 1150 in functional interactions between the membrane spanning domains and nucleotide binding domains of the MRP1 (ABCC1) transporter. | 2008 | Biochem. Pharmacol. | pmid:18336795 |
Heredi-Szabo K et al. | Characterization of 5(6)-carboxy-2,'7'-dichlorofluorescein transport by MRP2 and utilization of this substrate as a fluorescent surrogate for LTC4. | 2008 | J Biomol Screen | pmid:18349419 |
Moon TC et al. | The effects of isoimperatorin isolated from Angelicae dahuricae on cyclooxygenase-2 and 5-lipoxygenase in mouse bone marrow-derived mast cells. | 2008 | Arch. Pharm. Res. | pmid:18365692 |
Bandler PE et al. | Identification of regions required for apical membrane localization of human multidrug resistance protein 2. | 2008 | Mol. Pharmacol. | pmid:18381564 |
Mochizuki Y et al. | Suppressive activity of epinastine hydrochloride on eosinophil activation in vitro. | 2008 Jan-Feb | In Vivo | pmid:18396776 |
Aleo MD et al. | An underlying role for hepatobiliary dysfunction in cyclosporine A nephrotoxicity. | 2008 | Toxicol. Appl. Pharmacol. | pmid:18407308 |
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Ma KF et al. | Enhanced expressions and activations of leukotriene C4 synthesis enzymes in D-galactosamine/lipopolysaccharide-induced rat fulminant hepatic failure model. | 2008 | World J. Gastroenterol. | pmid:18461660 |
Mishra NC et al. | Nicotine primarily suppresses lung Th2 but not goblet cell and muscle cell responses to allergens. | 2008 | J. Immunol. | pmid:18490768 |
Mueller CF et al. | Multidrug resistance protein-1 affects oxidative stress, endothelial dysfunction, and atherogenesis via leukotriene C4 export. | 2008 | Circulation | pmid:18506003 |
Chaung HC et al. | Leukotriene C4 release and gene expressions of IL-8 and MCP-1 in porcine alveolar epithelial type II cells. | 2009 | Res. Vet. Sci. | pmid:18565553 |
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Yang R et al. | Interaction between the bound Mg.ATP and the Walker A serine residue in NBD2 of multidrug resistance-associated protein MRP1 plays a crucial role for the ATP-dependent leukotriene C4 transport. | 2008 | Biochemistry | pmid:18636743 |
Reichel V et al. | Texas Red transport across rat and dogfish shark (Squalus acanthias) choroid plexus. | 2008 | Am. J. Physiol. Regul. Integr. Comp. Physiol. | pmid:18650317 |
Niwa Y et al. | Opposite effects of PU.1 on mast cell stimulation. | 2008 | Biochem. Biophys. Res. Commun. | pmid:18680724 |
Kirshenbaum AS et al. | Effect of lipopolysaccharide (LPS) and peptidoglycan (PGN) on human mast cell numbers, cytokine production, and protease composition. | 2008 | BMC Immunol. | pmid:18687131 |
Rothnie A et al. | Mechanistic differences between GSH transport by multidrug resistance protein 1 (MRP1/ABCC1) and GSH modulation of MRP1-mediated transport. | 2008 | Mol. Pharmacol. | pmid:18768387 |
Grant CE et al. | Structural determinants of substrate specificity differences between human multidrug resistance protein (MRP) 1 (ABCC1) and MRP3 (ABCC3). | 2008 | Drug Metab. Dispos. | pmid:18775981 |
Tan Y and Lim LH | trans-Resveratrol, an extract of red wine, inhibits human eosinophil activation and degranulation. | 2008 | Br. J. Pharmacol. | pmid:18776917 |
Blokzijl H et al. | Up-regulation and cytoprotective role of epithelial multidrug resistance-associated protein 1 in inflammatory bowel disease. | 2008 | J. Biol. Chem. | pmid:18838379 |
Maekawa A et al. | Functional recognition of a distinct receptor preferential for leukotriene E4 in mice lacking the cysteinyl leukotriene 1 and 2 receptors. | 2008 | Proc. Natl. Acad. Sci. U.S.A. | pmid:18931305 |
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