Selective utilization of glucose metabolism guides mammalian gastrulation
Cao D, Bergmann J, Zhong L, Hemalatha A, Dingare C, Jensen T, Cox A, Greco V, Steventon B, Sozen B. Selective utilization of glucose metabolism guides mammalian gastrulation. Nature 2024, 634: 919-928. PMID: 39415005, PMCID: PMC11499262, DOI: 10.1038/s41586-024-08044-1.Peer-Reviewed Original ResearchConceptsCellular metabolismMammalian gastrulationHexosamine biosynthetic pathwayTranscription factor networksCellular signaling pathwaysSignaling morphogensGlucose metabolismCellular programmeBiosynthetic pathwayFate acquisitionCell fateHousekeeping natureGenetic mechanismsMesoderm migrationFactor networksERK activationExpression patternsSignaling pathwayDevelopmental processesStem cell modelCell typesSpecialized functionsDevelopmental contextMammalian embryosMouse embryosOncogenic Kras induces spatiotemporally specific tissue deformation through converting pulsatile into sustained ERK activation
Xin T, Gallini S, Wei H, Gonzalez D, Matte-Martone C, Machida H, Fujiwara H, Pasolli H, Suozzi K, Gonzalez L, Regot S, Greco V. Oncogenic Kras induces spatiotemporally specific tissue deformation through converting pulsatile into sustained ERK activation. Nature Cell Biology 2024, 26: 859-867. PMID: 38689013, PMCID: PMC11519783, DOI: 10.1038/s41556-024-01413-y.Peer-Reviewed Original ResearchERK signalingStem cellsSquamous cell carcinomaHair folliclesOncogenic KRAS mutationsCell carcinomaKRAS mutationsSustained ERK activationERK signaling dynamicsOncogenic mutationsOncogenic KRASERK activationStem cell behaviorIntravital imagingAbnormal cell divisionModulates specific featuresKrasG12DTissue deformationSpatiotemporally specific mannerSustained ERK signalingMutationsLiving miceFolliclesTissue disruptionSingle-cell level