Challenging inflammatory process at molecular, cellular and in vivo levels via some new pyrazolyl thiazolones

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dc.contributor.authorElzahhar, Perihan A.
dc.contributor.authorAlaaeddine, Rana A.
dc.contributor.authorNassra, Rasha A.
dc.contributor.authorIsmail, Azza E.
dc.contributor.authorLabib, Hala F.
dc.contributor.authorTemraz, Mohamed G.
dc.contributor.authorBelal, Ahmed Saied F.
dc.contributor.authorEl-Yazbi, Ahmed F.
dc.contributor.departmentPharmacology and Toxicology
dc.contributor.facultyFaculty of Medicine (FM)
dc.contributor.institutionAmerican University of Beirut
dc.date.accessioned2025-01-24T11:39:49Z
dc.date.available2025-01-24T11:39:49Z
dc.date.issued2021
dc.description.abstractThe work reported herein describes the synthesis of a new series of anti-inflammatory pyrazolyl thiazolones. In addition to COX-2/15-LOX inhibition, these hybrids exerted their anti-inflammatory actions through novel mechanisms. The most active compounds possessed COX-2 inhibitory activities comparable to celecoxib (IC50 values of 0.09–0.14 µM) with significant 15-LOX inhibitory activities (IC50s 1.96 to 3.52 µM). Upon investigation of their in vivo anti-inflammatory activities and ulcerogenic profiles, these compounds showed activity patterns equivalent or more superior to diclofenac and/or celecoxib. Intriguingly, the most active compounds were more effective than diclofenac in suppressing monocyte-to-macrophage differentiation and inflammatory cytokine production by activated macrophages, as well as their ability to induce macrophage apoptosis. The latter finding potentially adds a new dimension to the previously reported anti-inflammatory mechanisms of similar compounds. These compounds were effectively docked into COX-2 and 15-LOX active sites. Also, in silico predictions confirmed the appropriateness of these compounds as drug-like candidates. © 2021 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.
dc.identifier.doihttps://doi.org/10.1080/14756366.2021.1887169
dc.identifier.eid2-s2.0-85101495999
dc.identifier.pmid33618602
dc.identifier.urihttp://hdl.handle.net/10938/29360
dc.language.isoen
dc.publisherTaylor and Francis Ltd.
dc.relation.ispartofJournal of Enzyme Inhibition and Medicinal Chemistry
dc.sourceScopus
dc.subject15-lipoxygenase
dc.subjectAnti-inflammatory
dc.subjectCyclooxygenase-1/cyclooxygenase-2
dc.subjectMacrophage apoptosis
dc.subjectPyrazolyl thiazolones
dc.subjectAnimals
dc.subjectAnti-inflammatory agents, non-steroidal
dc.subjectAnti-ulcer agents
dc.subjectApoptosis
dc.subjectCell differentiation
dc.subjectCell survival
dc.subjectCytokines
dc.subjectDisease models, animal
dc.subjectEdema
dc.subjectFemale
dc.subjectFormaldehyde
dc.subjectHumans
dc.subjectInflammation
dc.subjectMacrophages
dc.subjectModels, molecular
dc.subjectPyrazoles
dc.subjectRats
dc.subjectRats, wistar
dc.subjectStomach ulcer
dc.subjectThiazoles
dc.subjectThp-1 cells
dc.subject4 [5 (4 bromophenyl) 3 trifluoromethyl 1h pyrazol 1 yl]benzenesulfonamide
dc.subject5 ((1,3 diphenyl 1h pyrazol 4 yl)methylene) 2 morpholinothiazol 4(5h) one
dc.subject5 ((3 (4 bromophenyl) 1 phenyl 1h pyrazol 4 yl)methylene) 2 (piperidin 1 yl)thiazol 4(5h) one
dc.subject5 ((3 (4 bromophenyl) 1 phenyl 1h pyrazol 4 yl)methylene) 2 morpholinothiazol 4(5h) one
dc.subject5 ((3 (4 methoxyphenyl) 1 phenyl 1h pyrazol 4 yl)methylene) 2 (piperidin 1yl)thiazol 4(5h) one
dc.subject5 ((3 (4 methoxyphenyl) 1 phenyl 1h pyrazol 4 yl)methylene) 2 morpholinothiazol 4(5h) one
dc.subject5 ((5 chloro 3 methyl 1 phenyl 1h pyrazol 4 yl)methylene) 2 morpholinothiazol 4(5h) one
dc.subjectAntiinflammatory agent
dc.subjectCaspase 3
dc.subjectCelecoxib
dc.subjectCyclooxygenase 1
dc.subjectCyclooxygenase 2
dc.subjectDiclofenac
dc.subjectIndometacin
dc.subjectInterleukin 12
dc.subjectInterleukin 1beta
dc.subjectInterleukin 6
dc.subjectLipoxygenase
dc.subjectMeclofenamic acid
dc.subjectMonocyte chemotactic protein 1
dc.subjectNordihydroguaiaretic acid
dc.subjectPyrazole derivative
dc.subjectPyrazolyl thiazolone derivative
dc.subjectQuercetin
dc.subjectTumor necrosis factor
dc.subjectUnclassified drug
dc.subjectAntiulcer agent
dc.subjectCytokine
dc.subjectNonsteroid antiinflammatory agent
dc.subjectThiazole derivative
dc.subjectAdult
dc.subjectAnimal cell
dc.subjectAnimal experiment
dc.subjectAnimal model
dc.subjectAnimal tissue
dc.subjectAntiinflammatory activity
dc.subjectArticle
dc.subjectControlled study
dc.subjectCytokine production
dc.subjectDrug efficacy
dc.subjectDrug mechanism
dc.subjectDrug synthesis
dc.subjectEnzyme inhibition
dc.subjectIn vivo study
dc.subjectMacrophage activation
dc.subjectMonocyte
dc.subjectNonhuman
dc.subjectPriority journal
dc.subjectRat
dc.subjectStructure activity relation
dc.subjectUlcerogenesis
dc.subjectAnimal
dc.subjectBiosynthesis
dc.subjectChemistry
dc.subjectDisease model
dc.subjectDrug effect
dc.subjectHuman
dc.subjectMacrophage
dc.subjectMolecular model
dc.subjectSynthesis
dc.subjectThp-1 cell line
dc.subjectWistar rat
dc.titleChallenging inflammatory process at molecular, cellular and in vivo levels via some new pyrazolyl thiazolones
dc.typeArticle

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