Search results for "Embryonal Carcinoma Stem Cells"

showing 3 items of 3 documents

Cloning of Several Genes Coding for Retinoic Acid Nuclear Receptors in the Mouse Embryonal Carcinoma Cell Line PCC7–MZ1

1993

Mouse embryonal carcinoma cell line PCC7-Mz1 can be induced by retinoic acid (RA) to differentiate into several well defined phenotypes of neuroectodermal origin (Lang, E. et al. (1989) J. Cell. Biol. 109, 2481-2493). Several subclones of the cell line (clonal variants) differ from each other in their developmental potential. To test whether these differences in cellular fate are due to somatic mutations in specific genes of these cells, we have cloned full length cDNAs coding for the alpha 1 and beta 2 isoforms, and partial length cDNAs coding for the alpha 2, beta 1 and beta 3 isoforms of the retinoic acid nuclear receptor (RAR). The cloned cDNAs did not differ in sequence from those of n…

Embryonal Carcinoma Stem CellsReceptors Retinoic AcidSomatic cellCellular differentiationMolecular Sequence DataRetinoic acidTretinoinBiologyEmbryonal carcinomaMicechemistry.chemical_compoundTumor Cells CulturedmedicineAnimalsHumansAmino Acid SequenceCloning MolecularPromoter Regions GeneticGenePharmacologyCloningBase SequenceNuclear ProteinsEmbryonal Carcinoma Stem CellsCell DifferentiationDNAmedicine.diseaseMolecular biologyRecombinant ProteinsRetinoic acid receptorchemistryNeoplastic Stem CellsCarrier ProteinsJournal of Receptor Research
researchProduct

Angiogenesis and vascular network of teratocarcinoma from embryonic stem cell transplant into seminiferous tubules

2009

Background: Carcinoma in situ (CIS) of the testis is considered to be a precancerous germinal cell lesion, but the precise cellular and molecular mechanisms underlying transformation of CIS into invasive pluripotent cancer cells remain to be elucidated. Moreover, a satisfactory animal model for the experimental study of germinal tumours has not been developed to date. METHODS: We have developed a tumour model that involves the microinjection of green fluorescent protein-labelled embryonic stem (ES) cells (which are functionally equivalent to CIS cells) into syngenic mouse seminiferous tubules, a unique cell microenvironment in which germinal cells mature and CIS arise. To characterise the v…

MalePluripotent Stem CellsTeratocarcinomaembryonal carcinomaCancer Researchmedicine.medical_specialtyEmbryonal Carcinoma Stem Cellsvascular corrosion castingAngiogenesisBiologyEmbryonal carcinomaNeovascularizationMiceangiogenesisTesticular NeoplasmsInternal medicinemedicineAnimalsInduced pluripotent stem cellneoplasmsNeovascularization PathologicEmbryonal Carcinoma Stem CellsSeminiferous Tubulesmedicine.diseaseEmbryonic stem cellCell biologyCell Transformation Neoplasticsurgical procedures operativeEndocrinologyOncologyTeratocarcinomaembryonic structuresmedicine.symptomStem cellTranslational TherapeuticsStem Cell TransplantationES cell transplantationBritish Journal of Cancer
researchProduct

DNA damage causes TP53-dependent coupling of self-renewal and senescence pathways in embryonal carcinoma cells.

2013

Recent studies have highlighted an apparently paradoxical link between self-renewal and senescence triggered by DNA damage in certain cell types. In addition, the finding that TP53 can suppress senescence has caused a re-evaluation of its functional role in regulating these outcomes. To investigate these phenomena and their relationship to pluripotency and senescence, we examined the response of the TP53-competent embryonal carcinoma (EC) cell line PA-1 to etoposide-induced DNA damage. Nuclear POU5F1/OCT4A and P21CIP1 were upregulated in the same cells following etoposide-induced G 2M arrest. However, while accumulating in the karyosol, the amount of OCT4A was reduced in the chromatin fract…

SenescenceCyclin-Dependent Kinase Inhibitor p21OCT4A/POU5F1Embryonal Carcinoma Stem CellssenescenceDNA RepairDNA repairDNA damagetumor cellsBiologyProtein Serine-Threonine Kinasesself-renewalHistonesAurora KinasesCell Line TumorReportAutophagyAurora Kinase BHumansTP53PhosphorylationRNA Small InterferingMolecular BiologyMitosisCellular SenescenceCyclin-Dependent Kinase Inhibitor p16EtoposideOvarian NeoplasmsEmbryonal Carcinoma Stem CellsCell BiologyG2-M DNA damage checkpointbeta-GalactosidasepluripotencyAntineoplastic Agents PhytogenicChromatinUp-RegulationG2 Phase Cell Cycle CheckpointsCheckpoint Kinase 2Cancer researchDNA damageFemaleRNA InterferenceRad51 RecombinaseTumor Suppressor Protein p53Cell agingOctamer Transcription Factor-3Developmental BiologyCell cycle (Georgetown, Tex.)
researchProduct