Global ETD Search

41	The Role of the Claudin 6 Cytoplasmic Tail In Epidermal Differentiation and the Role of Cdx In Endodermal Development Enikanolaiye, Adebola January 2015 (has links) The mammalian skin provides a necessary barrier between the organism and the environment, defending against loss of water and solutes, preventing the invasion of pathogens as well as protecting against chemical and physical assault. Claudin (Cldn)-based Tight Junctions (TJs) are the main functional part of the skin barrier. In particular, Cldn6 through its cytoplasmic tail has been shown to be important for barrier function. In other to further investigate the role of the Cldn6 tail in TJ-function, we developed Cldn6 mouse mutants carrying varying truncations of the Cldn6 tail. Both of these mice present with epidermal differentiation perturbations and delayed barrier function that is repaired later in life. These studies support the importance of the tail portion of the Cldn molecules in epidermal differentiation and barrier function. In addition, both of these mouse models are useful for the study of barrier function in preterm infants and in aging, with the hope of developing novel therapeutics for the alleviation of barrier dysfunction. Cdx is a family of homeodomain (HD) transcription factors (TFs) essential for many key developmental processes. In particular, Cdx2 is important for the establishment and maintenance of posterior identity in the developing endoderm. In spite of this, only a few Cdx targets in the developing endoderm have been discovered. In addition, the interplay between Cdx and its targets within the endoderm is poorly understood. In this study, we show that the forkhead box transcription factor, Foxa2 is a Cdx2 target. We also show that Foxa2 and Cdx2 physically and genetically interact to regulate a subset of genes that are implicated in endodermal development. These studies help to further our understanding of endoderm biology with the goal of developing new strategies to diagnose and treat diseases associated with defective endoderm development. Skin Epidermis Tight Junction Claudin Epidermal Barrier Endoderm Transcription Factor Cdx Foxa2
42	Characterization of the Visceral Endoderm Components in Early Post-Implantation Mouse Embryo Development: A Dissertation Huang, Tingting 28 February 2014 (has links) Early post-implantation vertebrate embryos are shaped by complex cellular and molecular mechanisms. In mice, the visceral endoderm, an extraembryonic cell lineage that appears before gastrulation, provides several important functions such as nutrition and mechanical protection. My thesis research focused on the role of the visceral endoderm in embryo patterning, a newly discovered function for this tissue. My results showed that an interplay between two subpopulations of visceral endoderm the anterior and posterior visceral endoderm, located on the opposite sides of the developing conceptus, are critical for the establishment of the anteroposterior body axis of the embryo. I also found that senescence-associated β-galactosidase activity delineates the visceral endoderm marking apical vacuole, a lysosomal-like organelle. This however indicates the nutritional function of visceral endoderm cells rather than a senescent population. My studies highlight the fundamental role of extraembryonic tissues in patterning mammalian embryos as opposed to housekeeping roles. They also reveal important difference when conducting studies at the organismal level rather than in cells in culture. Mice Endoderm Body Patterning Embryonic Development Dissertations, UMMS Cellular and Molecular Physiology Developmental Biology
43	Generation of Alveolar Epithelial Spheroids via Isolated Progenitor Cells from Human Pluripotent Stem Cells / ヒト多能性幹細胞からの肺胞前駆細胞の分化誘導とその単離を介した肺胞上皮スフェロイドの作成 Gotoh, Shimpei 23 January 2015 (has links) Final publication is available at http://dx.doi.org/10.1016/j.stemcr.2014.07.005. Shimpei Gotoh, Isao Ito, Tadao Nagasaki, Yuki Yamamoto, Satoshi Konishi, Yohei Korogi, Hisako Matsumoto, Shigeo Muro, Toyohiro Hirai, Michinori Funato, Shin-Ichi Mae, Taro Toyoda, Aiko Sato-Otsubo, Seishi Ogawa, Kenji Osafune, Michiaki Mishima, Generation of Alveolar Epithelial Spheroids via Isolated Progenitor Cells from Human Pluripotent Stem Cells, Stem Cell Reports, Volume 3, Issue 3, 9 September 2014, Pages 394-403, ISSN 2213-6711. / 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第18681号 / 医博第3953号 / 新制\|\|医\|\|1007(附属図書館) / 31614 / 京都大学大学院医学研究科医学専攻 / (主査)教授妻木範行, 教授江藤浩之, 教授瀬原淳子 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM pluripotent stem cells differentiation endoderm alveolar reporter carboxypeptidase M NKX2-1 490
44	Investigating the Roles of Neurogenin 3 in Human Pancreas and Intestine Development and Disease McGrath, Patrick Sean 03 June 2016 (has links) No description available. Developmental Biology pluripotent stem cells endocrine cells pancreas intestine diabetes endoderm
45	SOFT TISSUE STIFFNESS INFLUENCES EARLY COMMITMENT OF MOUSE EMBRYONIC STEM CELLS TOWARDS ENDODERMAL LINEAGE Karamil, Seda January 2015 (has links) Chronic obstructive pulmonary disease (COPD) is one of the most common lung diseases and the third leading cause of death in the US, estimated to increase in magnitude in the future. Current treatment approaches are palliative in nature and restricted to controlling symptoms and reducing the risk of complications. Lung transplantation is an option for certain patients, but this option is limited by the shortage of donor organs and the possibility of rejection and the need for life-long immune-suppression. Therefore, current studies focus on cell based therapies for lung repair and regeneration. In addressing the issue of cell sourcing for such approaches, I tested the hypothesis that the efficiency of directed pulmonary differentiation of mouse embryonic stem cells (mESC) can be enhanced by employing certain micro-environmental cues, found in the developing lung. Such micro-environmental cues will provide appropriate physicochemical signals at the right time during the embryonic development and thus modulate fate decisions of progenitor cells during tissue assembly and maturation. In this study, I explored the effects of matrix stiffness on cell fate decisions in mESC, first into definitive endoderm and then into lung alveolar epithelial cells. I engineered bio-activated polyacrylamide (PA) gels with varying elastic moduli, mimicking those of physiologic tissues, and covalently modified the surfaces with fibronectin to provide optimal stem cell adhesion. My studies demonstrated, for the first time, a biphasic stiffness-dependent enhancement of endodermal differentiation of mESCs, with an optimum at ~ 20 kPa. This effect was qualitatively similar in three different mESC lines. By contrast, increasing matrix stiffness favored mESC differentiation towards a mesodermal phenotype. The enhanced endodermal differentiation of mESCs was abolished in the presence of a specific inhibitor of ROCK, suggesting that this process is mediated through cytoskeletal signaling. The subsequent differentiation of mESC-derived endodermal cells towards pulmonary epithelial cells was no longer dependent on the stiffness of the matrix. In this dissertation I demonstrate for the first time the feasibility of utilizing developmental and physiological / physicochemical cues, such as matrix stiffness, to selectively modulate and enhance mESC differentiation towards endodermal and pulmonary lineages. The impact of the results will be relevant for optimizing cell-based lung therapies and for effectively engineering lung and other endoderm-derived organs. / Bioengineering Engineering, Biomedical Definitive Endoderm Embryonic Stem Cells Fate Desicions Lung Martix Stiffness Mechanotransduction
46	The role of pou2/spiel-ohne-grenzen (spg) in brain and endoderm development of the zebrafish, Danio rerio Reim, Gerlinde 04 August 2003 (has links) (PDF) The central theme of development, how cells are organized into functional structures and assembled into whole organisms, is addressed by developmental biology. One important feature of embryonic development is pattern formation, which is the generation of a particular arrangement of cells in three-dimensional space at a given point of time. Central to this work is the model system of the zebrafish, Danio rerio. The aim of the first part of this study was to try to understand how a distinct part of the embryonic brain called midbrain-hindbrain boundary (MHB), a region that acts as an organizer for the adjacent brain regions, is established in vertebrates. spiel-ohne-grenzen (spg) is one mutant which interferes with MHB development. Here, I addressed the role of pou2 in brain development by molecular, phenotypical and functional analysis. By genetic complementation and mapping I could elucidate the molecular nature of this mutant and found that the pou2 gene encoding the POU domain transcription factor is affected in spg mutant embryos. By chromosomal syntenic conservation, phylogenetic sequence comparison, and expression and functional data I imply that pou2 is the orthologue of the mammalian Oct4 (Pou5F1) gene. I find by detailed expression and transplantation analysis that pou2 is cell autonomously required within the neuroectoderm to activate genes of the MHB and hindbrain primordium, like pax2.1, wnt1, gbx2 or krox20. By gain-of-function experiments I demonstrate that pou2 synergizes with Fgf8 signaling in order to activate particularly the hindbrain primordium. Since pou2 is already provided to the embryo by the mother, I generated embryos which lack maternal and zygotic pou2 function (MZspg) to reveal a possible earlier than neuroectodermal role of pou2. In the second part of this work I demonstrate that pou2 is a key factor controlling endoderm differentiation. By expression and gain-of-function analysis I suggest a cell autonomous function for Pou2 in the first step of endodermal differentiation. By gain-of-function experiments involving the gene encoding the HMG transcription factor Casanova (Cas) I show that both Cas and Pou2 are necessary to activate expression of the endodermal differentiation marker sox17 in a mutually dependent way, and that the ability of Cas to ectopically induce sox17 strictly requires Pou2. I conclude that both maternal and zygotic pou2 function is necessary for commitment of endodermal progenitor cells to differentiate into endodermal precursor cells. Endoderm Kompetenz Mittel-Hinterhirn Grenze Musterbildung fgf8 maternal-zygotische Funktion pou2 competence endoderm fgf8 maternal-zygotic function midbrain-hindbrain boundary pattern formation pou2 ddc:32 rvk:WW 2620 Entoderm Gehirn Hinterhirn Maternaler Effekt Mittelhirn Molekularembryologie Musterbildung Pou-Proteinfamilie Zebrabärbling
47	Role of Oct4 in pXEN cell differentiation and MET process Han, Dongjun 29 July 2021 (has links) Primitive extraembryonale Endoderm (pXEN) Stam-Zelllinien der Ratte repraesentieren wahrscheinlich die festgelegten Vorläufer des extraembryonalen. Die im mesenchymalen Zustand gehaltenen pXEN-Zellen können in vitro weiter zu parietalen und viszeralen Endoderm-ähnlichen Zellen differenzieren. pXEN-Zellen zusätzlich halten moderate Konzentrationen des ICM-Markers Oct4 aufrecht. Die Bedeutung von Oct4 in pXEN-Zellen ist jedoch unbekannt. Bei höheren Zelldichten, beobachteten wir eine erhöhte Oct4-Expression und gleichzeitig eine Tendenz zu Epithelialisierung (MET) und viszeral endodermaler (VE) Differenzierung. Um zu klären, ob die Oct4-Expression kausal beteiligt ist, modulierten wir die Oct4-Konzentration. Transienter Knockdown von Oct4 reduzierte tendenziell die Expression von MET / VE-assoziierten Genen; umgekehrt förderte die Doxycycline-induzierte Expression eines menschlichen Oct4-Transgens die MET / VE-Differenzierung und verhinderte die Bildung charakteristischer Gang-Strukturen. Im letzteren Fall ging dem MET eine anfängliche Zell-Verlängerung und eine erhöhte Zellmotilität voraus. Da ein GSK3-Inhibitor und Activin A auch den MET / VE-Phänotyp stimulierten, fragten wir uns, ob Oct4 über die Wnt/β-Catenin oder TGFβ Signalwege wirkt. Die verschiedene Schritte der Wnt/β-Catenin Signalgebung hemmen, blockierten die hOct4-induzierte MET- und VE-Expression nicht. Im Gegensatz dazu verhinderte Repsox, ein Inhibitor von Alk5 (TGFBR1), das hOct4-induzierte MET und die Expression von MET- und VE-Genen und stimulierte eher die Expression von parietalen Endoderm (PE) Genen. Zusammengefasst zeigen diese Daten eine Rolle für Oct4 bei der MET / VE-Differenzierung auf, wahrscheinlich durch Stimulation eines TGFβ Signalweges. Weiterführende Experimente sind erforderlich um zu bestimmen, wie die zwei Prozesse der MET- und VE-Differenzierung innerhalb der extraembryonalen Endoderm-Linie unterschieden und in Beziehung gesetzt werden. / Rat primitive extraembryonic endoderm (pXEN) cell lines appear to represent the committed precursors of the extraembryonic endoderm. The pXEN cells maintained in the mesenchymal state can further differentiate to the parietal endoderm and visceral endoderm like-cells in vitro. In addition, pXEN cells maintain moderate levels of the ICM marker Oct4, a transcription factor that plays important roles in pluripotency, plasticity, and differentiation. However, the significance of Oct4 in pXEN cell lineage specification is unknown. We observed that rat pXEN cells show increased Oct4 expression at higher densities, a condition that also promotes their epithelialization (MET) and visceral endodermal (VE) differentiation. In order to elucidate whether the Oct4 expression is causally involved, we modulated the Oct4 levels. Transient knockdown of Oct4 tended to reduce the expression of MET/VE-associated genes; conversely, the doxycycline-induced expression of a human Oct4 transgene promoted MET/VE differentiation and prevented the formation of characteristic duct structures. In the latter case, the MET was preceded by an initial elongation and increased cell motility. Since GSK3 inhibitor and Activin A also stimulated the MET/VE phenotype, we then asked whether Oct4 acts through the Wnt/β-catenin or TGFβ pathways. Wnt inhibitors did not block the hOct4-induced MET and VE expression. By contrast, Repsox, an inhibitor of Alk5 (TGFBR1), prevented the hOct4-induced MET and the expression of MET and VE genes and rather stimulated the expression of parietal endoderm (PE) genes. Taken together, these data indicate a role for Oct4 in MET/VE differentiation via stimulation of TGFβ signaling. Further work is needed to determine how the two MET and VE differentiation processes are distinguished and related within the extraembryonic endoderm lineage. Oct4 Stammzelle Oct4 Stem cell 570 Biologie WX 6678 WX 6438 WX 6638 ddc:570
48	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
49	Elucidating the influence of chromatin topology on cellular identity in murine pre-implantation development Loof, Gesa 22 June 2021 (has links) Präzise regulierte Genexpression, ist der Schlüssel zu erfolgreicher Embryonal-entwicklung. Die Expression von Zelltyp-spezifischen Transkriptionsfaktoren kann durch räumliche Interaktionen von Promotoren und Enhancern im Nukleus kontrolliert werden, aber auch durch 3D Faltung der DNA in größere organisatorische Einheiten wie “Topologically Associating Domains” (TADs) oder “A/B compartments”. Um die 3D Faltung in den Zelltypen des prä-implantations Embryos zu untersuchen, nutze ich ES und XEN Zellen, die stark dem Epiblast und dem primitiven Endoderm in der inneren Zellmasse des E4.5 Embryos ähneln. Um den Zusammenhang zwischen 3D DNA Faltung und zellulärer Identität zu erforschen, habe ich GAM, ATAC-seq und RNA-seq Daten von ES und XEN Zellen produziert. Um die Genom-Architektur im Embryo zu untersuchen, habe ich außerdem die GAM Methode an den Mausembryo angepasst und kann dadurch erstmals genomweit DNA-Faltung in den spezifischen Zelltypen der inneren Zellmasse des prä-implantations Embryos zeigen. ES und XEN Zellen zeigen viele differentiell exprimierte Gene, sowie starke Veränderungen in der Chromatin-Organisation, beispielweise in der Bildung von reprimierten Chromatinnetzwerken in ESCs, die wichtige XEN Gene wie Gata6 und Lama1 enthalten, während diese nicht aktiv sind. XEN-spezifische Genexpression ist oft mit der Präsenz von XEN-spezifischen “TAD boundaries” gekoppelt. Der Sox2 Locus zeigt eine ESC-spezifische Organisation mit aktiven Genen, und Regionen die von den Transkriptionsfaktoren SOX2, NANOG und OCT4 gebunden sind. Die starke Reorganisation der Genom-Architektur in wichtigen Loci wie Gata6 und Sox2 konnte ich mit in vivo GAM Daten bestätigen und finde ähnliche Unterschiede zwischen den beiden Zelltypen der inneren Zellmasse wie im in vitro Model. Diese Ergebnisse zeigen, wie wichtig es ist, Zelltypen getrennt zu untersuchen und, dass eine Verbindung zwischen zellulärer Identität und der Faltung des Genoms in der Embryonalentwicklung besteht. / Tightly controlled gene regulation is key to functional metazoan embryonic development. The expression of cell-fate determining transcription factors orchestrates the establishment of the various lineages of the embryo. Gene expression is often regulated via specific chromatin organisation. To investigate cell type-specific differences in chromatin folding in early embryonic development, I used in vitro models of the two distinct cell populations in the blastocyst ICM. In mouse ES and XEN cells, I mapped 3D genome conformation using Genome Architecture Mapping (GAM), chromatin accessibility using ATAC-seq, and gene expression using total RNA-seq. To enable the mapping of 3D genome folding directly in the blastocyst ICM, I adapted GAM for cell type-specific selection of nuclei, by integrating immunofluorescence detection of markers, and generated the first genome-wide chromatin contact maps that distinguish ICM cell types. I report that the ES and XEN cell lineages undergo abundant large scale rearrangements of genome architecture and exhibit high numbers of differentially expressed genes. For example, extra-embryonic endoderm genes, such as Lama1 and Gata6, form silent hubs in ESCs, potentially connecting maintenance of pluripotency to 3D structure of the genome. Further, I show that the expression of XEN cell-specific genes relates to the formation of XEN cell-specific TAD boundaries. Chromatin contacts at the Sox2 locus exhibit an ESC-specific organisation around binding of pluripotency transcription factors OCT4, NANOG and SOX2, into hubs of high gene activity. The observations detected in in vitro models, were investigated in smaller GAM datasets produced using the in vivo counterparts in the ICM. Overall, in vivo data confirmed the high degree of chromatin rearrangement among the two cell types, specifically in loci of lineage driving genes. The findings from in vivo data further underscore the connection of genome topology and cellular identity. Pluripotenz Embryonalentwicklung extraembryonales Endoderm Genom-Architektur Chromatin-Faltung Blastozyste embryonic development pluripotency pre-implantation development blastocyst genome architecture genome architecture mapping extra-embryonic endoderm 570 Biologie WE 4500 WX 6401 WX 6501 ddc:570
50	Hépatocytes matures dérivés de cellules souches in vitro : améliorer la différenciation des cellules souches pluripotentes induites humaines en copiant l’organogénèse hépatique M'Callum, Marie-Agnès 04 1900 (has links) No description available. Différentiation Cellules souches Pluripotence Endoderme Hépatocytes Stem Cells Differenciation Pluripotency Potential Endoderm Hepatocytes

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