0000000001315249

AUTHOR

Marian León

showing 6 related works from this author

Dysfunctional mitochondrial fission impairs cell reprogramming

2016

We have recently shown that mitochondrial fission is induced early in reprogramming in a Drp1-dependent manner; however, the identity of the factors controlling Drp1 recruitment to mitochondria was unexplored. To investigate this, we used a panel of RNAi targeting factors involved in the regulation of mitochondrial dynamics and we observed that MiD51, Gdap1 and, to a lesser extent, Mff were found to play key roles in this process. Cells derived from Gdap1-null mice were used to further explore the role of this factor in cell reprogramming. Microarray data revealed a prominent down-regulation of cell cycle pathways in Gdap1-null cells early in reprogramming and cell cycle profiling uncovered…

0301 basic medicineMicroarray analysis techniquescell reprogrammingmitochondrial fissionCellCell BiologyBiologyMitochondrionCell cyclepluripotencyCell biology03 medical and health sciencesiPS cells030104 developmental biology0302 clinical medicinemedicine.anatomical_structureRNA interferencemedicineMitochondrial fissionGdap1Induced pluripotent stem cellMolecular BiologyReprogramming030217 neurology & neurosurgeryDevelopmental Biology
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Early ERK1/2 activation promotes DRP1-dependent mitochondrial fission necessary for cell reprogramming.

2016

During the process of reprogramming to induced pluripotent stem (iPS) cells, somatic cells switch from oxidative to glycolytic metabolism, a transition associated with profound mitochondrial reorganization. Neither the importance of mitochondrial remodelling for cell reprogramming, nor the molecular mechanisms controlling this process are well understood. Here, we show that an early wave of mitochondrial fragmentation occurs upon expression of reprogramming factors. Reprogramming-induced mitochondrial fission is associated with a minor decrease in mitochondrial mass but not with mitophagy. The pro-fission factor Drp1 is phosphorylated early in reprogramming, and its knockdown and inhibition…

0301 basic medicineDynaminsSomatic cellMAP Kinase Signaling SystemScienceCèl·lulesCellInduced Pluripotent Stem CellsKruppel-Like Transcription FactorsGeneral Physics and AstronomyBiologyMitochondrionMitochondrial DynamicsGeneral Biochemistry Genetics and Molecular BiologyMitocondrisArticleCell LineProto-Oncogene Proteins c-myc03 medical and health sciencesKruppel-Like Factor 4MiceMitophagymedicineAnimalsPhosphorylationInduced pluripotent stem cellGeneticsMultidisciplinarySOXB1 Transcription FactorsQGeneral ChemistryCellular ReprogrammingCell biologyMitochondria030104 developmental biologymedicine.anatomical_structurePhosphorylationMitochondrial fissionReprogrammingOctamer Transcription Factor-3Nature communications
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c-MYC Triggers Lipid Remodelling During Early Somatic Cell Reprogramming to Pluripotency.

2021

AbstractMetabolic rewiring and mitochondrial dynamics remodelling are hallmarks of cell reprogramming, but the roles of the reprogramming factors in these changes are not fully understood. Here we show that c-MYC induces biosynthesis of fatty acids and increases the rate of pentose phosphate pathway. Time-course profiling of fatty acids and complex lipids during cell reprogramming using lipidomics revealed a profound remodelling of the lipid content, as well as the saturation and length of their acyl chains, in a c-MYC-dependent manner. Pluripotent cells displayed abundant cardiolipins and scarce phosphatidylcholines, with a prevalence of monounsaturated acyl chains. Cells undergoing cell r…

ChemistryCell growthCèl·lulesMetabolismPentose phosphate pathwayMitochondrionCellular ReprogrammingLipidsMitochondrial DynamicsArticleCell biologyCell membranePentose Phosphate Pathwaymedicine.anatomical_structuremedicineGlycolysisCàncerReprogrammingGlycolysisIntracellularStem cell reviews and reports
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MYC Induces a Hybrid Energetics Program Early in Cell Reprogramming

2018

Summary Cell reprogramming is thought to be associated with a full metabolic switch from an oxidative- to a glycolytic-based metabolism. However, neither the dynamics nor the factors controlling this metabolic switch are fully understood. By using cellular, biochemical, protein array, metabolomic, and respirometry analyses, we found that c-MYC establishes a robust bivalent energetics program early in cell reprogramming. Cells prone to undergo reprogramming exhibit high mitochondrial membrane potential and display a hybrid metabolism. We conclude that MYC proteins orchestrate a rewiring of somatic cell metabolism early in cell reprogramming, whereby somatic cells acquire the phenotypic plast…

0301 basic medicineCell signalingSomatic cellCèl·lulesCellOxidative phosphorylationcell reprogramming cell signaling metabolism mitochondrial dynamicsBiologyHybrid CellsBiochemistryMitochondrial DynamicsArticleOxidative PhosphorylationMitocondrisProto-Oncogene Proteins c-myc03 medical and health sciencesMetabolomicsCDC2 Protein KinaseGeneticsmedicinecell signalingAnimalsHumansGlycolysisPhosphorylationlcsh:QH301-705.5Membrane potentialMembrane Potential Mitochondriallcsh:R5-920cell reprogrammingCell BiologyCellular ReprogrammingCell biologyMitochondriaMice Inbred C57BL030104 developmental biologymedicine.anatomical_structurelcsh:Biology (General)lcsh:Medicine (General)ReprogrammingmetabolismGlycolysisDevelopmental Biology
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Generation of a disease-specific iPS cell line derived from a patient with Charcot-Marie-Tooth type 2K lacking functional GDAP1 gene

2016

Human CMT2-FiPS4F1 cell line was generated from fibroblasts of a patient with Charcot-Marie-Tooth disease harbouring the following mutations in the GDAP1 gene in heterozygosis: p.Q163X/p.T288NfsX3. This patient did not present mutations in the PM22, MPZ or GJB genes. Human reprogramming factors OCT3/4, KLF4, SOX2 and C-MYC were delivered using a non-integrative methodology that involves the use of Sendai virus.

0301 basic medicineMaleHeterozygoteCellular differentiationCèl·lulesDNA Mutational AnalysisGenetic VectorsInduced Pluripotent Stem CellsKaryotypeNerve Tissue ProteinsBiologyPolymorphism Single NucleotideSendai virusCell Line03 medical and health sciencesKruppel-Like Factor 4stomatognathic systemCharcot-Marie-Tooth DiseaseHumansInduced pluripotent stem cellGeneTranscription factorMedicine(all)GeneticsBase SequenceHeterozygote advantageCell DifferentiationCell BiologyGeneral MedicineFibroblastsbiology.organism_classificationCellular ReprogrammingSendai virus030104 developmental biologyMicroscopy FluorescenceKLF4embryonic structuresSistema nerviós MalaltiesReprogrammingDevelopmental BiologyTranscription Factors
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Dysfunctional mitochondrial fission impairs cell reprogramming

2016

We have recently shown that mitochondrial fission is induced early in reprogramming in a Drp1-dependent manner; however, the identity of the factors controlling Drp1 recruitment to mitochondria was unexplored. To investigate this, we used a panel of RNAi targeting factors involved in the regulation of mitochondrial dynamics and we observed that MiD51, Gdap1 and, to a lesser extent, Mff were found to play key roles in this process. Cells derived from Gdap1-null mice were used to further explore the role of this factor in cell reprogramming. Microarray data revealed a prominent down-regulation of cell cycle pathways in Gdap1-null cells early in reprogramming and cell cycle profiling uncovered…

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