2024
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 embryos
2015
Niche-induced cell death and epithelial phagocytosis regulate hair follicle stem cell pool
Mesa KR, Rompolas P, Zito G, Myung P, Sun TY, Brown S, Gonzalez DG, Blagoev KB, Haberman AM, Greco V. Niche-induced cell death and epithelial phagocytosis regulate hair follicle stem cell pool. Nature 2015, 522: 94-97. PMID: 25849774, PMCID: PMC4457634, DOI: 10.1038/nature14306.Peer-Reviewed Original Research
2009
A Two-Step Mechanism for Stem Cell Activation during Hair Regeneration
Greco V, Chen T, Rendl M, Schober M, Pasolli HA, Stokes N, dela Cruz-Racelis J, Fuchs E. A Two-Step Mechanism for Stem Cell Activation during Hair Regeneration. Cell Stem Cell 2009, 4: 155-169. PMID: 19200804, PMCID: PMC2668200, DOI: 10.1016/j.stem.2008.12.009.Peer-Reviewed Original ResearchConceptsBMP inhibitorsHair germHG cellsStem cellsStem cell activationHair regenerationTransit-amplifying cellsBulge stem cellsDermal papillaCyclic boutsTranscriptional profilingElevated FGFPrecocious activityHair folliclesBulge cellsLate telogenWntCell clustersCell activationCellsTwo-step mechanismSmall cell clustersInitial stepRegenerationInhibitors
1997
DNA rereplication in the presence of mitotic spindle inhibitors in human and mouse fibroblasts lacking either p53 or pRb function.
Di Leonardo A, Khan SH, Linke SP, Greco V, Seidita G, Wahl GM. DNA rereplication in the presence of mitotic spindle inhibitors in human and mouse fibroblasts lacking either p53 or pRb function. Cancer Research 1997, 57: 1013-9. PMID: 9067261.Peer-Reviewed Original ResearchConceptsDNA rereplicationBiochemical signal transduction pathwaysSignal transduction pathwaysCell cycle checkpointsPRb tumor suppressorSpindle assemblyCycle checkpointsTransduction pathwaysRereplicationDownstream eventsMitotic divisionTumor suppressorMouse fibroblastsCell ploidyDNA contentDeficient derivativeHuman fibroblastsSpindle inhibitorsP53Cytogenetic analysisMitotic spindle inhibitorsFibroblastsPolyploidyMitosisSuppressor