Global ETD Search

1	Rolle der Polycomb Faktoren PCGF6 und E2F6 in undifferenzierten und differenzierenden embryonalen Stammzellen der Maus / Role of Polycomb Factors PCGF6 and E2F6 in undifferentiated and differentiating embryonic stem cells of mice Strack, Stefanie January 2022 (has links) (PDF) To investigate the role of PCGF6 and E2F6 in murine embryonic stem cells (mESCs) and at the beginning of differentiation, knockout cell lines of both proteins and in combination were generated by the CRISPR/Cas9n system. Characterization of these knockout cell lines (KO) was performed by growth analysis in mESCs and differentiating murine stem cells (EBs). It was found that Pcgf6 KO cells formed smaller EBs that also could not be maintained in culture for an extended period. To resolve this specific phenotype, further molecular analyses were performed by flow cytometry (FACS). Cells of the Pcgf6 KO exhibited an increased proportion of cells in G1 phase during differentiation as well as an increased apoptotic frequency. Supporting the assumption of a cell cycle defect, RNASeq data were analysed. It could be shown that cells of the Pcgf6 KO differentiated in a temporally uncontrolled manner. Evaluation of differentially expressed genes revealed that expression of E2f6, a regulator of the cell cycle and another component of the non-canonical PRC1.6, was downregulated in mESC and EB cultures, whereas cell cycle-specific targets of E2F6-dependent gene regulation were upregulated at day 2 of differentiation. These results indicated that deletion of Pcgf6 at the beginning of differentiation must have effects on E2F6-dependent cell cycle regulation. Due to mycoplasma contamination in the cell culture at this time point, the Pcgf6 KO cell line had to be re-established. In addition, KO cell lines of E2f6 in Wt and in Pcgf6 KO mESCs were established. The replication of cellular characterization of the phenotype revealed that EB cultures of the Pcgf6 KO and the double knockout of Pcgf6 and E2f6 (dKOPcgf6/E2f6) exhibited reduced cell numbers during differentiation. Molecular characterizations of the phenotype revealed that the increased proportion of cells in the G1 phase of the Pcgf6 KO, which was detected before mycoplasma contamination, could not be reproduced. However, an increased frequency of cells in the G2 phase of dKOPcgf6/E2f6 was detected in mESC and EB culture. Analysis of apoptotic frequency in all KO cell lines indicated an increase during differentiation. RNASeq data from two publications of PCGF6 and E2F6 were used to support the analyses performed to this point (Qui et al, 2021; Dahlet et al, 2021). Gene Ontology Enrichment analyses of these data revealed that germline genes were independently upregulated in both KO cell lines in mESCs. However, both KO cell lines also showed an overlap of commonly upregulated germline genes. Following these publications, gene expression analysis of individual germline genes revealed that loss of E2f6 leads to de-repression of genes that have a binding site for E2F6. In contrast, loss of Pcgf6 had no effect on expression of these targets. These results, as well as previously published data, support the assumption that there are distinct subcomplexes that regulate the expression of germline genes in mESC and EB cultures. / Im Rahmen dieser Arbeit wurde zur Untersuchung der Rolle von PCGF6 und E2F6 in murinen embryonalen Stammzellen (mESCs) und zu Beginn der Differenzierung Knockout-Zelllinien beider Proteine und in Kombination durch das CRISPR/Cas9n Systems erstellt. Die Charakterisierung dieser Knockout-Zelllinien erfolgte durch Wachstumsanalysen in mESCs und differenzierenden murinen Stammzellen (EBs). Es konnte festgestellt werden, dass Zellen des Pcgf6 Knockout (KO) kleinere Ebs bildeten, die zudem nicht über einen längeren Zeitraum in Kultur gehalten werden konnten. Zur Klärung dieses spezifischen Phänotyps wurden weitere molekulare Analysen mittels Durchflusszytometrie durchgeführt. Zellen des Pcgf6 KO wiesen während der Differenzierung einen erhöhten Anteil an Zellen in der G1-Phase sowie eine erhöhte apoptotische Frequenz auf. Unterstützend zur Annahme eines Zellzyklusdefekts wurden RNASeq-Daten analysiert. Die Auswertung ergab, dass Zellen des Pcgf6 KO zeitlich unkontrolliert differenzierten. Die Auswertung differenziell exprimierter Gene ergab zudem, dass die Expression von E2f6, ein Regulator des Zellzyklus und weitere Untereinheit des nicht-kanonischen PRC1.6, in mESC und EB-Kulturen herunter reguliert war, während Zellzyklus-spezifische Targets der E2F6-abhängigen Genregulation an Tag 2 der Differenzierung hochreguliert waren. Diese Ergebnisse deuteten darauf hin, dass eine Deletion von Pcgf6 zu Beginn der Differenzierung Auswirkungen auf eine E2F6-abhängige Zellzyklusregulation haben muss. Auf Grund einer zu diesem Zeitpunkt aufgetretenen Mykoplasmenkontamination in der Zellkultur musste die Pcgf6 KO-Zelllinie neu erstellt werden. Zusätzlich wurden KO-Zelllinien von E2f6 in Wt und in Pcgf6 KO mESCs erstellt. Die anschließende Wiederholung der zellulären Charakterisierung des Phänotyps ergab, dass EB-Kulturen des Pcgf6 KO und des Doppelknockout von Pcgf6 und E2f6 (dKOPcgf6/E2f6) während der Differenzierung eine verringerte Zellzahl aufwiesen. Die molekularen Charakterisierungen des Phänotyps ergaben, dass der erhöhte Anteil an Zellen in der G1-Phase des Pcgf6 KO, welche vor der Mykoplasmenkontamination detektiert wurde, nicht reproduziert werden konnte. Es wurde jedoch eine erhöhte Frequenz an Zellen in der G2-Phase des dKOPcgf6/E2f6 in der mESC-und EB-Kultur ermittelt. Die Analyse der apoptotischen Frequenz in allen KO-Zelllinien zeigte einen Anstieg während der Differenzierung. Zur Unterstützung der bis dahin durchgeführte Analysen wurden RNASeq-Daten zweier Publikationen zu PCGF6 und E2F6 herangezogen (Qui et al., 2021; Dahlet et al, 2021). Gene Ontology Enrichtment Analysen dieser Daten ergaben, dass in beiden KO-Zelllinien in mESCs unabhängig voneinander Keimbahngene hochreguliert waren. Beide KO-Zelllinien zeigten aber auch eine Schnittmenge gemeinsam hochregulierter Keimbahngene. In Anlehnung an diese Veröffentlichungen, ergaben Genexpressionsanalysen einzelner Keimbahngene, dass ein Verlust von E2f6 zu einer De-Repression von Genen führt, die eine Bindestelle für E2F6 besitzen. Der Verlust von Pcgf6 hingegen hatte keine Auswirkung auf Expression dieser Targets. Diese Ergebnisse unterstützen die Vermutung, dass es unterschiedliche Subkomplexe gibt, die die Expression von Keimbahngenen in mESC- und EB-Kulturen regulieren. Murine embryonale Stammzellen ddc:570
2	Understanding H3K36 methyltransferases in mouse embryonic stem cells Coe Torres, Davi 02 July 2014 (has links) (PDF) Methylation of histone 3 (H3) at lysine 36 (K36) has been implicated in several biological processes, such as DNA replication, DNA repair, and transcription. To date, at least eight distinct mammalian enzymes have been described to methylate H3K36 in vitro and/or in vivo. In this work, Set2, Nsd1, and Nsd3 Venus tagged proteins were successfully expressed in mouse embryonic stem cells and, then, analyzed by confocal microscopy, mass spectrometry (MS), and chromatin immunoprecipitation sequencing (ChIP-seq). MS analysis revealed that Setd2, Nsd1, and Nsd3 do not associate in protein complexes with each other. Setd2 was associated with RNA polymerase II subunits and two transcription elongation factors (Supt5 and Supt6), whereas Nsd1 associated with the transcription factor Zfx. In contrast, Nsd3 interacted with multiple protein complexes including Kdm1b and Brd4 complexes. Interestingly, Nsd1 and Zfx seem to be bound to chromatin during cell division. ChIP-seq analysis of the H3K36 methyltransferases showed different binding profiles at transcribed genes: Nsd1 binds near the transcription start site (TSS), Setd2 loading starts near the TSS and spreads along the gene body, while, Nsd3 is preferentially enriched at the 5’ and 3’ gene regions. Sequential deletion of PWWP and zinger-finger like domains was achieved to study any possible changes in Nsd1 and Nsd3 function. Deletion of either PHD1-4 or PHD5/C5HCH domains decreased Nsd1 recruitment to chromatin. Particularly, the PHD5/C5HCH were identified as the protein-protein interface for Zfx interaction. In agreement, Zfx knockdown also decreased Nsd1 deposition at the Oct4 and Tcl1 promoter regions. Furthermore, Nsd1 depletion reduced bulk histone H3K36me2 and histone H3K36me3 loading at the coding regions of Oct4, Rif1, Brd2, and Ccnd1. In addition, Nsd1 knockdown led to an increased Zfx deposition at promoters. Our findings suggest Zfx recruits Nsd1 to its target loci, whereas Nsd1 regulates Zfx chromatin release and further contributes to transcription regulation through its H3K36 dimethylase activity. On the other hand, loss of Nsd3’s PHD5/C5HCH or PWWP domains decreased Nsd3 binding to DNA. In addition, we demonstrate that Nsd3 is recruited to target genes in a Brd4-dependent manner. Herein, we provided further insights on how H3K36 methyltransferases are regulated, and how they contribute to changes in the epigenetic landscape in mouse embryonic stem cells.fi Epigenetik H3K36 Methylierung embryonale Stammzellen Epigenetics H3K36 methylation embryonic stem cells ddc:570 rvk:WG 2100
3	Understanding H3K36 methyltransferases in mouse embryonic stem cells Coe Torres, Davi 05 June 2014 (has links) Methylation of histone 3 (H3) at lysine 36 (K36) has been implicated in several biological processes, such as DNA replication, DNA repair, and transcription. To date, at least eight distinct mammalian enzymes have been described to methylate H3K36 in vitro and/or in vivo. In this work, Set2, Nsd1, and Nsd3 Venus tagged proteins were successfully expressed in mouse embryonic stem cells and, then, analyzed by confocal microscopy, mass spectrometry (MS), and chromatin immunoprecipitation sequencing (ChIP-seq). MS analysis revealed that Setd2, Nsd1, and Nsd3 do not associate in protein complexes with each other. Setd2 was associated with RNA polymerase II subunits and two transcription elongation factors (Supt5 and Supt6), whereas Nsd1 associated with the transcription factor Zfx. In contrast, Nsd3 interacted with multiple protein complexes including Kdm1b and Brd4 complexes. Interestingly, Nsd1 and Zfx seem to be bound to chromatin during cell division. ChIP-seq analysis of the H3K36 methyltransferases showed different binding profiles at transcribed genes: Nsd1 binds near the transcription start site (TSS), Setd2 loading starts near the TSS and spreads along the gene body, while, Nsd3 is preferentially enriched at the 5’ and 3’ gene regions. Sequential deletion of PWWP and zinger-finger like domains was achieved to study any possible changes in Nsd1 and Nsd3 function. Deletion of either PHD1-4 or PHD5/C5HCH domains decreased Nsd1 recruitment to chromatin. Particularly, the PHD5/C5HCH were identified as the protein-protein interface for Zfx interaction. In agreement, Zfx knockdown also decreased Nsd1 deposition at the Oct4 and Tcl1 promoter regions. Furthermore, Nsd1 depletion reduced bulk histone H3K36me2 and histone H3K36me3 loading at the coding regions of Oct4, Rif1, Brd2, and Ccnd1. In addition, Nsd1 knockdown led to an increased Zfx deposition at promoters. Our findings suggest Zfx recruits Nsd1 to its target loci, whereas Nsd1 regulates Zfx chromatin release and further contributes to transcription regulation through its H3K36 dimethylase activity. On the other hand, loss of Nsd3’s PHD5/C5HCH or PWWP domains decreased Nsd3 binding to DNA. In addition, we demonstrate that Nsd3 is recruited to target genes in a Brd4-dependent manner. Herein, we provided further insights on how H3K36 methyltransferases are regulated, and how they contribute to changes in the epigenetic landscape in mouse embryonic stem cells.fi info:eu-repo/classification/ddc/570 ddc:570
4	Zur Pluripotenz Spermatogonialer Stammzelllinien / Pluripotency of Spermatogonial stem cell lines Nolte, Jessica 30 October 2008 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Spermatogoniale Stammzelllinien Pluripotenz Embryonale Stammzellen spermatogonial stem cells pluripotency embryonic stem cells 42.23
5	Transplantation of Mouse Embryonic Stem Cell-Derived Dopaminergic Neurons in a Unilateral 6-Hydroxydopamine Lesion Rat Model of Parkinson’s Disease / Characterisation of the Fate of the Engrafted Cells and the Host Responses / Transplantation von Differenzierten embryonalen Stammzellen der Maus in ein experimentellen – 6-Hydroxydopamin-Läsion – Rattenmodell der Parkinson-Erkrankung. Thinyane, Hycianth Keneuoe 04 November 2004 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Parkinson embryonale Stammzellen 6-Hdroxydopamin Transplantation Rattenmodell. Parkinson’s disease embryonic stem cells 6-hydroxydopamine transplantation rat model. 42.15 W
6	Induction and Selection of Sox17-Expressing Endoderm Cells Generated from Murine Embryonic Stem Cells Schroeder, Insa S., Sulzbacher, Sabine, Nolden, Tobias, Fuchs, Jörg, Czarnota, Judith, Meisterfeld, Ronny, Himmelbauer, Heinz, Wobus, Anna M. 04 March 2014 (has links) (PDF) Embryonic stem (ES) cells offer a valuable source for generating insulin-producing cells. However, current differentiation protocols often result in heterogeneous cell populations of various developmental stages. Here we show the activin A-induced differentiation of mouse ES cells carrying a homologous dsRed-IRES-puromycin knock-in within the Sox17 locus into the endoderm lineage. Sox17-expressing cells were selected by fluorescence-assisted cell sorting (FACS) and characterized at the transcript and protein level. Treatment of ES cells with high concentrations of activin A for 10 days resulted in up to 19% Sox17-positive cells selected by FACS. Isolated Sox17-positive cells were characterized by defini- tive endoderm-specific Sox17/Cxcr4/Foxa2 transcripts, but lacked pluripotency-associated Oct4 mRNA and protein. The Sox17-expressing cells showed downregulation of extraembryonic endoderm (Sox7, Afp, Sdf1)-, mesoderm (Foxf1, Meox1)- and ectoderm (Pax6, NeuroD6)-specific transcripts. The presence of Hnf4α, Hes1 and Pdx1 mRNA demonstrated the expression of primitive gut/foregut cell-specific markers. Ngn3, Nkx6.1 and Nkx2.2 transcripts in Sox17-positive cells were determined as properties of pancreatic endocrine progenitors. Immunocytochemistry of activin A-induced Sox17-positive embryoid bodies revealed coexpression of Cxcr4 and Foxa2. Moreover, the histochemical demonstration of E-cadherin-, Cxcr4-, Sox9-, Hnf1β- and Ngn3-positive epithelial-like structures underlined the potential of Sox17-positive cells to further differentiate into the pancreatic lineage. By reducing the heterogeneity of the ES cell progeny, Sox17-expressing cells are a suitable model to evaluate the effects of growth and differentiation factors and of culture conditions to delineate the differentiation process for the generation of pancreatic cells in vitro. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. embryonale Stammzellen Mäuse Invitro-Differenzierung Activin A Endoderm Pankreas endokrin Abstammung Mouse embryonic stem cells In vitro differentiation Activin A Definitive endoderm Pancreatic endocrine lineage ddc:610 rvk:XA 10000
7	Bildgebung von magnetisch markierten Stammzellen in experimentellen Krankheitsmodellen des ZNS mittels zellulärer Magnetresonanztomographie Stroh, Albrecht 31 August 2006 (has links) Die vorliegende Arbeit beschäftigt sich mit der Bildgebung magnetisch markierter Stammzellen im ZNS mittels Magnetresonanztomographie. Dazu wurden Stammzellen mit Eisenoxidnanopartikeln (VSOP, very small superparamagnetic iron-oxide particles) in vitro effizient und ohne zusätzliche Lipofektionsagenzien magnetisch markiert. Es zeigte sich keine wesentliche Beeinflussung der Vitalität, Proliferation und Differenzierungsfähigkeit sämtlicher untersuchter Zellpopulationen. Zur Evaluierung der Grenzen der zellulären MR-Bildgebung wurde das Detektionslimit magnetisch markierter embryonaler Stammzellen in vivo nach intrastriataler Injektion im Gehirn der Ratte untersucht. Es ließen sich bei einer Feldstärke von 17,6 T weniger als 100 magnetisch markierte Zellen sicher vom Hirnparenchym abgrenzen. Die histologische Korrelation bestätigte den zellulären Ursprung der beobachteten T2-Hypointensitäten. In einem Rattenmodel des Morbus Parkinson konnte eine spezifische Detektion der intrastriatal injizierten magnetisch markierten embryonalen Stammzellen über einen Zeitraum von 6 Monaten erreicht werden. Es konnte keine signifikante Migration der Zellen festgestellt werden, jedoch fanden sich große interindividuelle Unterschiede in ihrer räumlichen Verteilung. In der histologische Analyse stellten sich auch sechs Monate nach der Transplantation im Bereich des Stichkanals eisenoxidmarkierte Stammzellen dar. In einem Mausmodell der cerebralen Ischämie wurde erstmals die Anreicherung systemisch injizierter magnetisch markierter mononukleärer Zellen kernspintomographisch erfasst. 24 - 48 h nach der Injektion magnetisch markierter Zellen stellten sich T2-gewichtete Signalhypointensitäten im Randbereich der Ischämie dar. Insgesamt zeigte sich in dieser Studie die zelluläre Magnetresonanztomographie zu einem nicht-invasiven Nachweis einer geringen Anzahl magnetisch markierter Zellen über einen langen Zeitraum mit hoher Sensitivität in der Lage. / This thesis is dealing with the imaging of magnetically labeled stem cells in the CNS using magnetic resonance imaging (MRI). Stem cells were efficiently magnetically labeled with very small superparamagnetic iron-oxide particles (VSOP), without any lipofection agents. No significant impact on vitality, proliferation and ability to differentiate could be observed after the magnetic labeling of all cell populations investigated. Magnetically labeled embryonic stem cells were injected into the striatum of rats to evaluate their detection limit by MRI. At field strengths of 17.6 T, less than 100 cells could be discriminated from the brain parenchyma as T2-weighted hypointensities. Histology proved the cellular origin of MRI-signal changes. In a rat model of Parkinsons’s Disease, magnetically labeled embryonic stem cells could be detected by MRI after intrastriatal injection for a time period of more than 6 months. No significant migration of transplanted cells could be observed, however significant inter-individual differences concerning the spatial distribution of cells could be found. Histologically, transplanted iron-oxide-labeled cells could still be detected in the vicinity of the injection tract six months after transplantation. In a mouse model of cerebral ischemia, the enrichment of systemically injected magnetically labeled mononuclear cells was detected non-invasively by MRI. 24 to 48 hours after injection of magnetically labeled cells, T2-weighted hypointense signal changes could be observed in the border zone of the ischemia. Over all, this study showed that cellular MRI is capable of the sensitive non-invasive detection of small numbers of magnetically labeled cells over a long period of time. Stammzelltransplantation Magnetresonanztomographie Neurobildgebung Eisenoxidnanopartikel embryonale Stammzellen molekulare Bildgebung magnetic resonance imaging stem cell transplantation neuroimaging iron-oxide-nanoparticles embryonic stem cells molecular imaging 570 Biowissenschaften, Biologie 32 Biologie YG 5504 YG 5515 YR 2520 ddc:570
8	Expression und biologische Funktion von humanen endogenen Retroviren (HERVs) Büscher, Kristina 29 November 2006 (has links) Daten des humanen Genomprojektes zeigen, dass ca. 8% des gesamten humanen Genoms aus retroviralen Sequenzen besteht. Der überwiegende Teil dieser Proviren ist aufgrund verschiedener Mutationen defekt. Im Gegensatz zu allen anderen HERV Proviren scheinen einige HERV-K Proviren intakt zu sein und besitzen offene Leserahmen für alle viralen Proteine. Die Familie des humanen endogenen Retrovirus K HML2 umfasst ca. 30 eng verwandte Proviren. Zusätzlich zu den Strukturproteinen Gag und Env und der Reversen Transkriptase, exprimiert HERV-K zwei regulatorische Proteine, Rec und Np9. Beide sind im Nukleus lokalisiert und tumorigene Eigenschaften bzw. eine Expression in Assoziation mit Tumorgeweben wurde nachgewiesen. Neben Zelllinien, wie die Teratokarzinomzelllinie GH und einigen Brustkrebszelllinien, für die die Expression von HERV-K mRNA und die Produktion von Viruspartikeln bekannt ist, konnte die Expression von HERV-K Proteinen und Partikeln für Melanomzellen gezeigt werden. Volllängen mRNA von HERV-K war in allen untersuchten humanen Proben nachweisbar. Gespleißtes env und rec war in 39% der Gewebe und in 38% der Melanomzelllinien exprimiert. Zusätzlich werden HERV-H, -R und -W exprimiert. Von den auf spezifische Antikörper gegen HERV-K Proteine untersuchten Seren der Melanompatienten waren 16% positiv für das transmembrane Hüllprotein, jedoch reagierte kein Serum mit Re oder Np9. Da im Zuge der Entstehung von Tumoren immer auch eine Dedifferenzierung der entarteten Zellen diskutiert wird, wurde die Expression von HERVs in undifferenzierten, embryonalen Stammzellen bestimmt. In den untersuchten embryonalen Stammzellen lässt sich Volllängen mRNA, sowie gespleißte env, rec und np9 mRNA nachweisen. Während der Differenzierung zu neuronalen Vorläuferzellen sinkt die Expression jedoch wieder auf ein mit normalen Zellen vergleichbares Niveau. Obwohl gespleißte RNA und virale Proteine von HERV-K vor allem in Tumoren und Tumorzelllinien exprimiert werden, ist deren Funktion während der Tumorentstehung noch immer ungeklärt. Auch die Bedeutung der HERV-K Expression in humanen Stammzellen ist noch unklar, insbesondere in Hinblick auf eine mögliche Tumorigenität. / In contrast to all other human endogenous retroviruses, proviruses of the human endogenous retrovirus family HERV-K have maintained open reading frames for all viral proteins. Although most proviruses are defective, structural proteins Gag and Env, the reverse transcriptase and two regulatory proteins, Rec and Np9, have been described. Rec resembles the Rev protein of HIV and tumourigenic potential was confirmed. Np9 as well is located in the nucleus and expression in association with tumour tissues was observed. Additionally to cell lines known to produce HERV-K virus particles, such as the teratocarcinoma cell line GH and breast cancer cell lines, recently melanoma cells were described to express HERV-K proteins and particles. In order to study the expression of HERV-K, -H, -R and -W, in melanoma cell lines and biopsies primer sets were used. Antisera specific for HERV-K proteins were used for immunohistochemistry and sera from melanoma patients were investigated for HERV-K specific antibodies. Full length mRNAs of all HERVs were found in all human cells. Spliced env and rec of HERV-K were detected in 39% of the melanoma biopsies and in 38% of the melanoma cell lines. Expression of HERV-K in situ was shown by immunohistochemistry. In addition, 16% of the patients sera tested showed antibodies against the HERV-K transmembrane envelope protein, but no antibodies against Np9 or Rec could be detected. A certain dedifferentiation of cells as a consequence of tumour development is discussed. Therefore the expression of HERV-K in undifferentiated embryonic stem cells was investigated. The investigated stem cells showed expression of HERV-K full length, env, rec and np9 mRNA. Although the expression decreased with differentiation to neuronal precursor cells. Even though HERV-K mRNA and proteins were expressed in a high percentage of melanomas their function in tumour development is still unclear. As well as the meaning of the HERV-K expression in embryonic stem cells, particularly for a tumourigenic potential. endogenes Retrovirus HERV-K malignes Melanom Embryonale Stammzellen Rec Np9 embryonic stem cells endogenous retrovirus HERV-K malignant melanoma Rec Np9 570 Biowissenschaften, Biologie 32 Biologie WF 4780 XD 8004 XD 8017 XD 8021 ddc:570
9	Induction and Selection of Sox17-Expressing Endoderm Cells Generated from Murine Embryonic Stem Cells Schroeder, Insa S., Sulzbacher, Sabine, Nolden, Tobias, Fuchs, Jörg, Czarnota, Judith, Meisterfeld, Ronny, Himmelbauer, Heinz, Wobus, Anna M. January 2012 (has links) Embryonic stem (ES) cells offer a valuable source for generating insulin-producing cells. However, current differentiation protocols often result in heterogeneous cell populations of various developmental stages. Here we show the activin A-induced differentiation of mouse ES cells carrying a homologous dsRed-IRES-puromycin knock-in within the Sox17 locus into the endoderm lineage. Sox17-expressing cells were selected by fluorescence-assisted cell sorting (FACS) and characterized at the transcript and protein level. Treatment of ES cells with high concentrations of activin A for 10 days resulted in up to 19% Sox17-positive cells selected by FACS. Isolated Sox17-positive cells were characterized by defini- tive endoderm-specific Sox17/Cxcr4/Foxa2 transcripts, but lacked pluripotency-associated Oct4 mRNA and protein. The Sox17-expressing cells showed downregulation of extraembryonic endoderm (Sox7, Afp, Sdf1)-, mesoderm (Foxf1, Meox1)- and ectoderm (Pax6, NeuroD6)-specific transcripts. The presence of Hnf4α, Hes1 and Pdx1 mRNA demonstrated the expression of primitive gut/foregut cell-specific markers. Ngn3, Nkx6.1 and Nkx2.2 transcripts in Sox17-positive cells were determined as properties of pancreatic endocrine progenitors. Immunocytochemistry of activin A-induced Sox17-positive embryoid bodies revealed coexpression of Cxcr4 and Foxa2. Moreover, the histochemical demonstration of E-cadherin-, Cxcr4-, Sox9-, Hnf1β- and Ngn3-positive epithelial-like structures underlined the potential of Sox17-positive cells to further differentiate into the pancreatic lineage. By reducing the heterogeneity of the ES cell progeny, Sox17-expressing cells are a suitable model to evaluate the effects of growth and differentiation factors and of culture conditions to delineate the differentiation process for the generation of pancreatic cells in vitro. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. info:eu-repo/classification/ddc/610 ddc:610
10	A Model-Based Analysis of Culture-Dependent Phenotypes of mESCs Herberg, Maria, Kalkan, Tüzer, Glauche, Ingmar, Smith, Austin, Roeder, Ingo 11 July 2014 (has links) (PDF) Mouse embryonic stem cells (mESCs) can be maintained in a proliferative and undifferentiated state over many passages (self-renewal) while retaining the potential to give rise to every cell type of the organism (pluripotency). Autocrine FGF4/Erk signalling has been identified as a major stimulus for fate decisions and lineage commitment in these cells. Recent findings on serum-free culture conditions with specific inhibitors (known as 2i) demonstrate that the inhibition of this pathway reduces transcription factor heterogeneity and is vital to maintain ground state pluripotency of mESCs. We suggest a novel mathematical model to explicitly integrate FGF4/Erk signalling into an interaction network of key pluripotency factors (namely Oct4, Sox2, Nanog and Rex1). The envisaged model allows to explore whether and how proposed mechanisms and feedback regulations can account for different expression patterns in mESC cultures. We demonstrate that an FGF4/Erk-mediated negative feedback is sufficient to induce molecular heterogeneity with respect to Nanog and Rex1 expression and thus critically regulates the propensity for differentiation and the loss of pluripotency. Furthermore, we compare simulation results on the transcription factor dynamics in different self-renewing states and during differentiation with experimental data on a Rex1GFPd2 reporter cell line using flow cytometry and qRT-PCR measurements. Concluding from our results we argue that interaction between FGF4/Erk signalling and Nanog expression qualifies as a key mechanism to manipulate mESC pluripotency. In particular, we infer that ground state pluripotency under 2i is achieved by shifting stable expression pattern of Nanog from a bistable into a monostable regulation impeding stochastic state transitions. Furthermore, we derive testable predictions on altering the degree of Nanog heterogeneity and on the frequency of state transitions in LIF/serum conditions to challenge our model assumptions. Embryonale Stammzellen Mäuse Grundrauschen Zelldifferenzierung Signaltransduktion Feedback-Hemmung Durchflusszytometrie Netzwerkanalyse Pluripotenz TU Dresden Publikationsfonds Mouse embryonic stem cells mESCs Background noise (acoustics) Cell differentiation ERK signaling cascade Feedback regulation Flow cytometry Network analysis Pluripotency Signaling networks Technical University Dresden Publication funds ddc:500 ddc:610 rvk:TA 1000 rvk:XA 10000

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