TY - JOUR A1 - Monzon-Casanova, Elisa A1 - Steiniger, Birte A1 - Schweigle, Stefanie A1 - Clemen, Holger A1 - Zdzieblo, Daniela A1 - Starick, Lisa A1 - Mueller, Ingrid A1 - Wang, Chyung-Ru A1 - Rhost, Sara A1 - Cardell, Susanna A1 - Pyz, Elwira A1 - Herrmann, Thomas T1 - CD1d Expression in Paneth Cells and Rat Exocrine Pancreas Revealed by Novel Monoclonal Antibodies Which Differentially Affect NKT Cell Activation N2 - Background: CD1d is a nonpolymorphic MHC class I-like molecule which presents nonpeptide ligands, e.g. glycolipids, to NKT cells. These cells are known to have multiple effects on innate and adaptive immune responses and on the development of pathological conditions. In order to analyze CD1d expression and function in the rat, the first rat CD1dspecific monoclonal antibodies (mAbs) were generated. Methodology/Principal Findings: Two mAbs, WTH-1 and WTH-2, were generated which bound equally well to cell surfaceexpressed rat and mouse CD1d. Their non-overlapping epitopes were mapped to the CD1d heavy chain. Flow cytometry and immunohistological analyses revealed a nearly identical degree and pattern of CD1d expression for hematopoieitic cells of both species. Notable is also the detection of CD1d protein in mouse and rat Paneth cells as well as the extremely high CD1d expression in acinar exocrine cells of the rat pancreas and the expression of CD4 on rat marginal zone B cells. Both mAbs blocked a-galactosylceramide recognition by primary rat and mouse NKT cells. Interestingly, the two mAbs differed in their impact on the activation of various autoreactive T cell hybridomas, including the XV19.2 hybridoma whose activation was enhanced by the WTH-1 mAb. Conclusions/Significance: The two novel monoclonal antibodies described in this study, allowed the analysis of CD1d expression and CD1d-restricted T cell responses in the rat for the first time. Moreover, they provided new insights into mechanisms of CD1d-restricted antigen recognition. While CD1d expression by hematopoietic cells of mice and rats was extremely similar, CD1d protein was detected at not yet described sites of non-lymphatic tissues such as the rat exocrine pancreas and Paneth cells. The latter is of special relevance given the recently reported defects of Paneth cells in CD1d2/2 mice, which resulted in an altered composition of the gut flora. KW - Krebs Y1 - 2010 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-68477 ER - TY - THES A1 - Zdzieblo, Daniela T1 - Das Polycomb group Protein PCGF6 ist ein neuer und essentieller Faktor der iPS Reprogrammierung und kann in Kombination mit Oct4, Klf4 und c-Myc den Transkriptionsfaktor Sox2 ersetzen T1 - The Polycomb group protein PCGF6 is a new and essential factor for iPS reprogramming that can replace the transcription factor Sox2 in combination with Oct4, Klf4 and c-Myc N2 - Embryonale Stammzellen (ESCs) sind durch zwei charakteristische Eigenschaften definiert. Neben einer kontinuierlichen Selbsterneuerungskapazität weisen ESCs die Fähigkeit auf, in alle Zelltypen der drei Keimblätter differenzieren zu können. Diese Eigenschaften werden unter anderem durch ein Netzwerk wichtiger Pluripotenzfaktoren als auch durch epigenetische Mechanismen reguliert, welche die Transkription von Pluripotenz- und Differenzierungsgenen kontrollieren. In murinen ESCs sind an der Repression von Differenzierungsgenen auch Polycomb group (PcG) Proteine beteiligt. Diese Proteine bauen zwei Chromatin-modifizierende Komplexe auf, die als Polycomb repressive complex 1 bzw. 2 (PRC1 bzw. PRC2) bezeichnet werden. Nach dem klassischen Modell der Polycombfunktion, katalysieren PRC1 und PRC2 gemeinsam zwei charakteristische Histonmodifikationen, die zur Repression PRC-spezifischer Zielgene beitragen. Zahlreiche Studien in den letzten Jahren belegen, dass der Proteinaufbau der PRC1 Komplexe stark variieren kann, wobei die Familie der Polycomb group RING finger (Pcgf) Proteine eine wichtige Rolle spielt. In diesem Zusammenhang definieren einzelne Pcgf Paraloge (Pcgf1 – 6) verschiedene PRC1 Varianten (PRC1.1 – 1.6), die Komplex-spezifische Bindestellen im Genom aufweisen. Diese Erkenntnisse lassen auf unterschiedliche Mechanismen der PRC1 Varianten und Pcgf Paralog-spezifische Funktionen schließen, die zum jetzigen Zeitpunkt nur wenig erforscht sind. Für manche Pcgf Paraloge sind wichtige Rollen in verschiedenen Stammzelltypen und während der iPS Reprogrammierung bekannt. Pcgf1 (Nspc1), Pcgf2 (Mel18) und Pcgf4 (Bmi1) zeigen eine Funktion in verschiedenen adulten Stammzellen. Pcgf4 spielt darüber hinaus eine wichtige Rolle in der murinen iPS Reprogrammierung. Für Pcgf6 (Mblr) wird eine Pluripotenz-assoziierte Funktion angenommen, denn Pcgf6 ist das einzige Pcgf Paralog, das eine erhöhte Expression in murinen ESCs aufweist, die jedoch im Verlauf der ESC-Differenzierung absinkt. Außerdem zeigen murine Pcgf6 KD ESCs eine verminderte Expression der Pluripotenzgene Oct4, Sox2 und Nanog, eine De-Repression mesodermaler und Testes-spezifischer Gene als auch eine erhöhte Tendenz zur hämatopoetischen Differenzierung. Wie genau Pcgf6 an der Regulation dieser Prozesse in murinen ESCs beteiligt ist, ist nicht bekannt. In der hier vorliegenden Dissertation wurde die Funktion von Pcgf6 in der murinen iPS Reprogrammierung untersucht. Da bereits für Pcgf4 eine Rolle in der Reprogrammierung somatischer Zellen gezeigt wurde und Pcgf6 eine erhöhte Expression in ESCs aufweist, wurde auch für Pcgf6 eine Funktion in der iPS Reprogrammierung angenommen. Zunächst konnte in dieser Arbeit gezeigt werden, dass Pcgf6 während der iPS Reprogrammierung verstärkt exprimiert wird und in iPS Zellen eine ESC-ähnliche Expression aufweist. Darüber hinaus konnte Pcgf6 in Kombination mit Oct4, Klf4 und c-Myc spezifisch den Transkriptionsfaktor Sox2 in der iPS Reprogrammierung ersetzen. Zudem wurden für OPKM-induzierte iPS Zellen charakteristische Eigenschaften pluripotenter Zellen nachgewiesen. Außerdem konnte eine Rolle von Pcgf6 als Enhancer-Faktor für die iPS Reprogrammierung ausgeschlossen werden, da die Überexpression von Pcgf6 zusammen mit den OSKM Faktoren keine additiven Effekte auf die Reprogrammierungseffizienz erzielte. Im Gegensatz dazu führte der Knockdown (KD) von Pcgf6 in embryonalen Mausfibroblasten (MEFs) zu verminderten Effizienzen nach OSKM Reprogrammierung. Darüber hinaus handelte es sich bei der Mehrheit der AP+ Kolonien, die unter Pcgf6 KD Konditionen entstanden, um partiell-reprogrammierte iPS Zellen. Zusammengefasst zeigen die Ergebnisse der hier vorliegenden Arbeit, dass Pcgf6 ein neuer und essentieller Faktor der iPS Reprogrammierung ist, der in Kombination mit Oct4, Klf4 und c-Myc spezifisch den Transkriptionsfaktor Sox2 ersetzen kann. N2 - Embryonic stem cells (ESCs) are characterized by their ability for continuous self-renewal maintaining the undifferentiated cell state and their capacity to generate all differentiated cell types of the three germ layers. Regulators of these characteristics include a protein interaction network of pluripotency-specific factors and epigenetic mechanisms that together control the transcription of pluripotency- and differentiation-associated genes. Among the interaction partners of the pluripotency-specific protein network in murine ESCs are Polycomb group (PcG) proteins. These proteins assemble in two complexes termed Polycomb group repressive complex 1 and 2 (PRC1 and PRC2). In the classical model, PRC1 and PRC2 act hierarchically together in catalyzing two characteristic histone modifications thereby contributing to the repression of PRC-specific target genes like differentiation-associated genes in ESCs. Recently, it has been shown that there are numerous PRC1 variants that differ in their protein composition. In this context, the family of Polycomb group RING finger (Pcgf) proteins (Pcgf1 – 6) defines distinct PRC1 variants (PRC1.1 – 1.6) that exhibit complex-specific genomic binding sites. Together, this indicates diverse mechanisms of PRC1 variants and Pcgf Paralog-specific functions that are not well understood. Pcgf Paralogs are known to play essential roles in various stem cell types and during iPS reprogramming. Pcgf1 (Nspc1), Pcgf2 (Mel18) and Pcgf4 (Bmi1) function in diverse adult stem cells. Further, Pcgf4 plays a role in murine iPS Reprogramming. For Pcgf6 (Mblr), a pluripotency-associated function is assumed. Pcgf6 is the only Pcgf paralog with an elevated expression in murine ESCs and when ESCs differentiate Pcgf6 expression decreases. In addition, following Pcgf6 KD in ESCs the expression of Oct4, Sox2 and Nanog declines while mesodermal and testes-specific genes become de-repressed. Furthermore, Pcgf6 KD ESCs are more prone for hematopoietic lineage differentiation. The precise mechanisms by which Pcgf6 controls these processes in murine ESCs are not known. In this work, I investigated the function of Pcgf6 in murine iPS reprogramming. I assumed a role for Pcgf6 in iPS reprogramming because it is highly expressed in ESCs and it was recently shown that Pcgf4 plays a role in the reprogramming of somatic cells. The data of my work show that Pcgf6 expression is increased in iPS reprogramming and that Pcgf6 exhibits an ESC-like gene expression pattern in iPS cells. Furthermore, Pcgf6 was able to replace the transcription factor Sox2 in combination with Oct4, Klf4 and c-Myc. In addition, OPKM-induced iPS cells showed pluripotency-specific characteristics. The overexpression of Pcgf6 together with the OSKM factors did not result in significantly increased reprogramming efficiencies indicating that Pcgf6 does not function as an enhancer-factor. However, Pcgf6 knockdown (KD) in mouse embryonic fibroblasts (MEFs) resulted in decreased efficiencies after iPS reprogramming. Additionally, the majority of AP+ colonies formed after OSKM reprogramming of Pcgf6 KD MEFs represented partially reprogrammed iPS cells, as they did not exhibit ESC-like morphologies and reduced expression levels of Oct4, Sox2 and Nanog. Together, the data of my work show that Pcgf6 is a new and essential factor in iPS reprogramming that can specifically replace the transcription factor Sox2 in combination with Oct4, Klf4 and c-Myc. KW - Stammzelle KW - iPS Reprogrammierung KW - Differenzierung KW - Repression KW - Reprogramming Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-106870 ER - TY - JOUR A1 - Schwedhelm, Ivo A1 - Zdzieblo, Daniela A1 - Appelt-Menzel, Antje A1 - Berger, Constantin A1 - Schmitz, Tobias A1 - Schuldt, Bernhard A1 - Franke, Andre A1 - Müller, Franz-Josef A1 - Pless, Ole A1 - Schwarz, Thomas A1 - Wiedemann, Philipp A1 - Walles, Heike A1 - Hansmann, Jan T1 - Automated real-time monitoring of human pluripotent stem cell aggregation in stirred tank reactors JF - Scientific Reports N2 - The culture of human induced pluripotent stem cells (hiPSCs) at large scale becomes feasible with the aid of scalable suspension setups in continuously stirred tank reactors (CSTRs). Innovative monitoring options and emerging automated process control strategies allow for the necessary highly defined culture conditions. Next to standard process characteristics such as oxygen consumption, pH, and metabolite turnover, a reproducible and steady formation of hiPSC aggregates is vital for process scalability. In this regard, we developed a hiPSC-specific suspension culture unit consisting of a fully monitored CSTR system integrated into a custom-designed and fully automated incubator. As a step towards cost-effective hiPSC suspension culture and to pave the way for flexibility at a large scale, we constructed and utilized tailored miniature CSTRs that are largely made from three-dimensional (3D) printed polylactic acid (PLA) filament, which is a low-cost material used in fused deposition modelling. Further, the monitoring tool for hiPSC suspension cultures utilizes in situ microscopic imaging to visualize hiPSC aggregation in real-time to a statistically significant degree while omitting the need for time-intensive sampling. Suitability of our culture unit, especially concerning the developed hiPSC-specific CSTR system, was proven by demonstrating pluripotency of CSTR-cultured hiPSCs at RNA (including PluriTest) and protein level. KW - Biomedical engineering KW - Stem-cell biotechnology Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-202649 VL - 9 ER - TY - JOUR A1 - Brachner, Andreas A1 - Fragouli, Despina A1 - Duarte, Iola F. A1 - Farias, Patricia M. A. A1 - Dembski, Sofia A1 - Ghosh, Manosij A1 - Barisic, Ivan A1 - Zdzieblo, Daniela A1 - Vanoirbeek, Jeroen A1 - Schwabl, Philipp A1 - Neuhaus, Winfried T1 - Assessment of human health risks posed by nano-and microplastics is currently not feasible JF - International Journal of Environmental Research and Public Health N2 - The exposure of humans to nano-and microplastic particles (NMPs) is an issue recognized as a potential health hazard by scientists, authorities, politics, non-governmental organizations and the general public. The concentration of NMPs in the environment is increasing concomitantly with global plastic production and the usage of plastic materials. NMPs are detectable in numerous aquatic organisms and also in human samples, therefore necessitating a risk assessment of NMPs for human health. So far, a comprehensive risk assessment of NMPs is hampered by limited availability of appropriate reference materials, analytical obstacles and a lack of definitions and standardized study designs. Most studies conducted so far used polystyrene (PS) spheres as a matter of availability, although this polymer type accounts for only about 7% of total plastic production. Differently sized particles, different concentration and incubation times, and various biological models have been used, yielding hardly comparable data sets. Crucial physico-chemical properties of NMPs such as surface (charge, polarity, chemical reactivity), supplemented additives and adsorbed chemicals have been widely excluded from studies, although in particular the surface of NMPs determines the interaction with cellular membranes. In this manuscript we give an overview about the critical parameters which should be considered when performing risk assessments of NMPs, including novel reference materials, taking into account surface modifications (e.g., reflecting weathering processes), and the possible role of NMPs as a substrate and/or carrier for (pathogenic) microbes. Moreover, we make suggestions for biological model systems to evaluate immediate toxicity, long-term effects and the potential of NMPs to cross biological barriers. We are convinced that standardized reference materials and experimental parameters along with technical innovations in (nano)-particle sampling and analytics are a prerequisite for the successful realization of conclusive human health risk assessments of NMPs. KW - nanoplastics KW - nanoparticles KW - microplastics KW - microparticles KW - human exposure KW - biological barriers KW - biofilm KW - microbe carrier KW - toxicity KW - neurotoxicity Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-219423 SN - 1660-4601 VL - 17 IS - 23 ER - TY - JOUR A1 - Berger, Constantin A1 - Zdzieblo, Daniela T1 - Glucose transporters in pancreatic islets JF - Pflügers Archiv - European Journal of Physiology N2 - The fine-tuning of glucose uptake mechanisms is rendered by various glucose transporters with distinct transportcharacteristics. In the pancreatic islet, facilitative diffusion glucose transporters (GLUTs), and sodium-glucosecotransporters (SGLTs) contribute to glucose uptake and represent important components in the glucose-stimulatedhormone release from endocrine cells, therefore playing a crucial role in blood glucose homeostasis. This reviewsummarizes the current knowledge aboutcell type-specific expression profiles as well as proven and putative functionsof distinct GLUT and SGLT family members in the human and rodent pancreatic islet and further discusses their possibleinvolvement in onset and progression ofdiabetes mellitus. In context of GLUTs, we focus on GLUT2, characterizing themain glucose transporter in insulin-secretingβ-cells in rodents. In addition, we discuss recent data proposing that otherGLUT family members, namely GLUT1 and GLUT3, render this task in humans. Finally, we summarize latest infor-mation about SGLT1 and SGLT2 as representatives of the SGLT family that have been reported to be expressed predominantly in the α-cell population with a suggested functional role in the regulation of glucagon release KW - Glucose transport KW - Pancreatic islet KW - β-Cell KW - α-Cell KW - GLUTs KW - SGLTs Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-232738 SN - 0031-6768 VL - 472 ER - TY - JOUR A1 - Däullary, Thomas A1 - Imdahl, Fabian A1 - Dietrich, Oliver A1 - Hepp, Laura A1 - Krammer, Tobias A1 - Fey, Christina A1 - Neuhaus, Winfried A1 - Metzger, Marco A1 - Vogel, Jörg A1 - Westermann, Alexander J. A1 - Saliba, Antoine-Emmanuel A1 - Zdzieblo, Daniela T1 - A primary cell-based in vitro model of the human small intestine reveals host olfactomedin 4 induction in response to Salmonella Typhimurium infection JF - Gut Microbes N2 - Infection research largely relies on classical cell culture or mouse models. Despite having delivered invaluable insights into host-pathogen interactions, both have limitations in translating mechanistic principles to human pathologies. Alternatives can be derived from modern Tissue Engineering approaches, allowing the reconstruction of functional tissue models in vitro. Here, we combined a biological extracellular matrix with primary tissue-derived enteroids to establish an in vitro model of the human small intestinal epithelium exhibiting in vivo-like characteristics. Using the foodborne pathogen Salmonella enterica serovar Typhimurium, we demonstrated the applicability of our model to enteric infection research in the human context. Infection assays coupled to spatio-temporal readouts recapitulated the established key steps of epithelial infection by this pathogen in our model. Besides, we detected the upregulation of olfactomedin 4 in infected cells, a hitherto unrecognized aspect of the host response to Salmonella infection. Together, this primary human small intestinal tissue model fills the gap between simplistic cell culture and animal models of infection, and shall prove valuable in uncovering human-specific features of host-pathogen interplay. KW - intestinal enteroids KW - biological scaffold KW - Salmonella Typhimurium KW - OLFM4 KW - NOTCH KW - filamentous Salmonella Typhimurium KW - bacterial migration KW - bacterial virulence KW - 3D tissue model KW - olfactomedin 4 KW - infection Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-350451 VL - 15 IS - 1 ER -