2024
IL-10 constrains sphingolipid metabolism to limit inflammation
York A, Skadow M, Oh J, Qu R, Zhou Q, Hsieh W, Mowel W, Brewer J, Kaffe E, Williams K, Kluger Y, Smale S, Crawford J, Bensinger S, Flavell R. IL-10 constrains sphingolipid metabolism to limit inflammation. Nature 2024, 627: 628-635. PMID: 38383790, PMCID: PMC10954550, DOI: 10.1038/s41586-024-07098-5.Peer-Reviewed Original ResearchActivity of RelCeramide productionVery long chainFatty acid synthesis pathwayCeramide synthase 2Fatty acid homeostasisMetabolic fluxAvailable to cellsRegulatory nodesTranscription factorsCeramide accumulationSynthesis pathwayVLC ceramidesIL-10 deficiencyGene expressionSphingolipid metabolismAcid homeostasisAberrant activationIL-10Cell types1Innate immune cellsInflammatory gene expressionCeramideSignaling resultsGenetic deletion
2017
Structure and Functional Analysis of ClbQ, an Unusual Intermediate-Releasing Thioesterase from the Colibactin Biosynthetic Pathway
Guntaka NS, Healy AR, Crawford JM, Herzon SB, Bruner SD. Structure and Functional Analysis of ClbQ, an Unusual Intermediate-Releasing Thioesterase from the Colibactin Biosynthetic Pathway. ACS Chemical Biology 2017, 12: 2598-2608. PMID: 28846367, PMCID: PMC5830302, DOI: 10.1021/acschembio.7b00479.Peer-Reviewed Original ResearchConceptsColibactin gene clusterÅ crystal structurePolyketide secondary metabolitesAcyl-thioester substratesColibactin biosynthesisGene clusterBiosynthetic pathwayAtypical roleGene productsBiochemical characterizationFunctional analysisSecondary metabolitesGreater catalytic efficiencyCancer formationColorectal cancer formationHuman gutSpecific functionsNovel insightsCarrier proteinThioesteraseGenetic deletionClbQColibactinCatalytic efficiencyPathway