0000000000237504

AUTHOR

Timm Schroeder

showing 2 related works from this author

Oligodendrogliogenic and neurogenic adult subependymal zone neural stem cells constitute distinct lineages and exhibit differential responsiveness to…

2012

The adult mouse subependymal zone (SEZ) harbours adult neural stem cells (aNSCs) that give rise to neuronal and oligodendroglial progeny. However it is not known whether the same aNSC can give rise to neuronal and oligodendroglial progeny or whether these distinct progenies constitute entirely separate lineages. Continuous live imaging and single-cell tracking of aNSCs and their progeny isolated from the mouse SEZ revealed that aNSCs exclusively generate oligodendroglia or neurons, but never both within a single lineage. Moreover, activation of canonical Wnt signalling selectively stimulated proliferation within the oligodendrogliogenic lineage, resulting in a massive increase in oligodendr…

Central Nervous SystemMaleReceptor Platelet-Derived Growth Factor alphaWnt signallingNerve Tissue ProteinsBiologyWnt3 ProteinMiceNeural Stem CellsLive cell imagingSubependymal zoneBasic Helix-Loop-Helix Transcription FactorsAnimalsCell LineageWnt Signaling PathwayCells CulturedProgenitorCell ProliferationCell CycleWnt signaling pathwayCell DifferentiationCell BiologyOligodendrocyte Transcription Factor 2Neural stem cellCell biologyMice Inbred C57BLOligodendrogliaFemaleCell DivisionNature cell biology
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Identification and Successful Negotiation of a Metabolic Checkpoint in Direct Neuronal Reprogramming

2016

Despite the widespread interest in direct neuronal reprogramming, the mechanisms underpinning fate conversion remain largely unknown. Our study revealed a critical time point after which cells either successfully convert into neurons or succumb to cell death. Co-transduction with Bcl-2 greatly improved negotiation of this critical point by faster neuronal differentiation. Surprisingly, mutants with reduced or no affinity for Bax demonstrated that Bcl-2 exerts this effect by an apoptosis-independent mechanism. Consistent with a caspase-independent role, ferroptosis inhibitors potently increased neuronal reprogramming by inhibiting lipid peroxidation occurring during fate conversion. Genome-w…

0301 basic medicineGeneticsProgrammed cell deathCell typeCellular Reprogramming TechniquesMutantCell BiologyBiologyIn vitroCell biology03 medical and health sciencesTransduction (genetics)030104 developmental biologyIn vivoGeneticsMolecular MedicineReprogrammingCell Stem Cell
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