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1	EXPANDING THE TRUHD CELL LIBRARY OF HUNTINGTON’S DISEASE / EXPANDING THE TRUHD CELL LIBRARY OF HUNTINGTON’S DISEASE: CAPTURING THE PRODROMAL STAGE OF DISEASE AND EXAMINING HOW KINETIN AFFECTS HUNTINGTIN EXPRESSION Sheikh Muhammad, Hassaan 11 1900 (has links) Huntington’s disease (HD) is a late-onset neurodegenerative disorder caused by the expansion of the CAG repeat in the HTT allele. This forms an expanded huntingtin protein which disrupts various cellular processes including DNA damage repair pathways. Many models have been developed to study HD. This includes the TruHD cells which are immortal patient-derived fibroblasts that retain characteristics of their original primary culture. However, the current TruHD cell library is limited. In this project, we expanded the library of TruHD cells, characterized their basal growth rate and huntingtin levels, identified a standard set of cells for future experiments, and amended the TruHD name to better guide future investigations. Furthermore, we developed and optimized qPCR as a tool for the TruHD cells. N6-furfuryladenine was also assessed and determined to not modulate HTT mRNA levels and not induce apoptosis in control cells. / Thesis / Master of Science (MSc) Huntingtin TruHD Huntington's Disease Cellular Immortalization
2	Investigating the role of microglia in neural development and synaptic maintenance Yeh, Hana 04 February 2022 (has links) Maternal immune activation (MIA) disrupts the central innate immune system during a critical neurodevelopmental period. Microglia are the primary innate immune cells in the brain and can mediate neurodevelopment, but the direct influence of microglia on the MIA phenotype remains largely unknown. Here, we show that MIA can lead to long-lasting effects on microglial phenotype, neuronal circuitry, and behaviors. Transcriptomic analysis revealed aberrant expression of neurogenic genes in MIA microglia. We found that microglia repopulation by colony-stimulating factor receptor 1 (CSF1R) inhibition reversed MIA-induced social deficits and corrected expression of the newly identified MIA-associated neuritogenic molecules in microglia. In vitro whole-cell patch-clamp recording and immunohistochemistry revealed that microglia repopulation restored MIA-induced changes in intrinsic excitability, dendritic spine density, and microglia-neuron interactions of layer V intrinsically bursting pyramidal neurons in the prefrontal cortex. Maternal inflammation therefore alters microglial phenotypes and changes neuronal functions by mediating microglia-neuron interactions. We found that Wingless-related MMTV integration site 5a (WNT5a) is a critical regulator of this microglia-neuron communication. Studies have shown that the neurotrophic factor WNT5a plays a critical role in neurodevelopment, and here we demonstrate that WNT5a is one of the neuritogenic genes significantly upregulated in embryonic MIA microglia. We showed using microarray analysis that the microglial secretome can promote neural stem cell differentiation through various pathways, including Wnt pathways. Live imaging of neuron-microglia co-culture demonstrated that microglia enhanced neurite development and dendritic spine density and that this was diminished by microglial Wnt5a silencing using siRNA transfection. Multi-electrode array recordings revealed that microglia co-culture increased spontaneous neuronal firing rate. Thus, microglia can secrete WNT5a and regulate dendritic spine development, maintenance, and neural circuitry. These results indicate that altered expression of microglial WNT5a due to pathogenic states such as inflammation can lead to abnormal neuronal activity. To further elucidate microglia biology, we developed an inducible immortalized murine microglial cell line using a tetracycline expression system. The addition of doxycycline can induce rapid cell proliferation for the expansion of cell colonies. Upon withdrawal of doxycycline, this monoclonal microglial cell line can differentiate and resemble in vivo microglia physiology as assessed by expression of microglial genes, innate immune response, chemotaxis, and phagocytic capabilities. This cell line becomes a convenient and useful method to study microglia in vitro. / 2024-02-03T00:00:00Z Neurosciences CSF1R inhibition immortalization Maternal immune activation Microglia Transcriptome Wnt5a
3	The immortalization process of T cells : with focus on the regulation of telomere length and telomerase activity Degerman, Sofie January 2010 (has links) Cellular immortalization is a major hallmark of cancer and is a multi-step process that requires numerous cell-type specific changes, including inactivation of control mechanisms and stabilization of telomere length. The telomeres at the chromosome ends are essential for genomic stability, and limit the growth potential of most cells. With each cell division, telomeres are shortened. Short telomeres may induce an irreversible growth arrest stage called senescence, or a growth crisis stage characterized by high genomic instability and cell death. Only very rarely do cells escape from crisis and become immortal, a stage that has been associated with the activation of the telomerase enzyme which can elongate and stabilize the telomeres. The processes leading to senescence bypass, growth crisis escape and finally immortalization are only beginning to be elucidated. Most of our knowledge of the immortalization process is based on analyses of human fibroblast and epithelial cell cultures immortalized by genetic modification. In this thesis, spontaneously immortalized human T lymphocytes derived from patients with Nijmegen Breakage Syndrome and a healthy individual were used to identify critical events for senescence bypass and immortalization. Genetic analysis showed a clonal progression and non-random genetic changes including the amplification of chromosomal region 2p13-21 as an early event in the immortalization process. Telomere length gradually shortened at increasing population doublings and growth crisis was associated with critically short telomeres. The clone(s) that escaped growth crisis demonstrated a logarithmic growth curve, very short telomeres and, notably, no increase in telomerase activity or expression of the telomerase catalytic gene, hTERT. Instead, upregulation of telomerase activity and telomere length stabilization were late events in T lymphocyte immortalization. Escape from crisis was associated with downregulation of DNA damage response genes and altered expression of cell cycle regulators and genes controlling the cellular senescence program. These data indicated that a number of layers of regulation are important in the process of immortalization and to provide further mechanistic detail, epigenetic analysis was carried out. Genome wide methylation array analysis identified early and step-wise methylation changes during the immortalization process. Interestingly, applying these findings to tumors of T cell origin revealed commonly methylated CpG sites in transformed cells. Deregulated gene expression of the polycomb complexes may have contributed to the epigenetic changes observed. Taken together, our analysis of spontaneously immortalized T cell cultures identified several steps in the immortalization process including genetic, epigenetic, gene expression and telomere/telomerase regulatory events, contributing further insights to the complexity of cancer cell immortalization. immortalization senescence T cells Nijmegen breakage syndrome telomere telomerase hTERT generic aberrations methylation MEDICINE MEDICIN
4	Immortalized human hepatocyte, an alternate model for the study of the propagation of HCV in vivo and in vitro Mohajerani, Seyed Amir 06 1900 (has links) The chimeric Alb-uPA SCID mouse that has been transplanted with human hepatocytes is a model to facilitate in vivo study of HCV. We explored further development of the model by using repopulation with immortalized human hepatocytes (IHH) in place of primary human hepatocyte (PHH) transplantation to support HCV infection. In vitro HCV studies typically utilize a human hepatoma cell line (Huh7) and rely on transfection with transcribed genomic RNA derived from a unique HCV strain (JFH1). Unfortunately, this system has not been successful in support of infection with serum-derived HCV (HCVser). IHH may offer an alternative since their differentiation status remains close to that of PHH. IHH transfected with HCV RNA (H77 or JFH1) or infected with HCVser showed stable intracellular and supernatant HCV RNA by real-time RT-PCR. IHH showed intracellular HCV NS3 proteins. HCV transfected or infected IHH secrete infectious HCVcc for in vivo and vitro. / Experimental Surgery
5	Modifying the common marmoset monkey (Callithrix jacchus) genome: transgenesis and targeted gene modification in vivo and in vitro Kahland, Tobias Sören 20 November 2015 (has links) No description available. 570 Common marmoset Transgenesis Targeted gene modification In vitro fertilization CRISPR/Cas9 hTERT Immortalization EOS-EiP piggyBac iPS cells Biologie (PPN619462639)
6	Immortalized human hepatocyte, an alternate model for the study of the propagation of HCV in vivo and in vitro Mohajerani, Seyed Amir Unknown Date No description available.
7	Fuzzy Robots: Utopian Ideals, The Immortalization Of Youth, And The Innocence Of Childhood. Caps, Elizabeth 01 January 2009 (has links) Ideals, aesthetics, forms, and concepts have resurfaced in various cultures throughout time. I am interested in the idea of the recurring themes that exist in the collective unconscious. I create monolithic figures that exhibit these archetypal qualities. Heavily influenced by film, animation, video games, and contemporary art, I create figures and paintings that are manifestations of my subconscious. These manifestations personify utopian ideals, the immortalization of youth, and the innocence of childhood. Art Painting Sculpture Digital Art Rapid Prototyping Subconscious Utopian Ideals Immortalization of Youth Innocence of Childhood Archetype Collective Unconscious Art and Design
8	Effect of human papillomavirus 16 immortalization on retinoic acid regulation of epidermal growth factor responsiveness and differentiation of normal ectocervical epithelial cells Sizemore, Nywana January 1995 (has links) No description available. Biology, Cell
9	Differential Expression of Surface Markers in Mouse Bone Marrow Mesenchymal Stromal Cell Subpopulations with Distinct Lineage Commitment Anastassiadis, Konstantinos, Rostovskaya, Maria 18 January 2016 (has links) (PDF) Bone marrow mesenchymal stromal cells (BM MSCs) represent a heterogeneous population of progenitors with potential for generation of skeletal tissues. However the identity of BM MSC subpopulations is poorly defined mainly due to the absence of specific markers allowing in situ localization of those cells and isolation of pure cell types. Here, we aimed at characterization of surface markers in mouse BM MSCs and in their subsets with distinct differentiation potential. Using conditionally immortalized BM MSCs we performed a screening with 176 antibodies and high-throughput flow cytometry, and found 33 markers expressed in MSCs, and among them 3 were novel for MSCs and 13 have not been reported for MSCs from mice. Furthermore, we obtained clonally derived MSC subpopulations and identified bipotential progenitors capable for osteo- and adipogenic differentiation, as well as monopotential osteogenic and adipogenic clones, and thus confirmed heterogeneity of MSCs. We found that expression of CD200 was characteristic for the clones with osteogenic potential, whereas SSEA4 marked adipogenic progenitors lacking osteogenic capacity, and CD140a was expressed in adipogenic cells independently of their efficiency for osteogenesis. We confirmed our observations in cell sorting experiments and further investigated the expression of those markers during the course of differentiation. Thus, our findings provide to our knowledge the most comprehensive characterization of surface antigens expression in mouse BM MSCs to date, and suggest CD200, SSEA4 and CD140a as markers differentially expressed in distinct types of MSC progenitors. Knochenmarkszellen Zellimmortalisation Zelldifferenzierung Mesenchymal stem cells Cloning Cell immortalization Bone marrow cells Cell differentiation Flow cytometry Adipocyte differentiation Selection markers ddc:610 rvk:XA 10000
10	Establishment of in vitro-infection models for Chlamydia trachomatis based on human primary cells and primary tissue Zielecki, Julia 10 November 2011 (has links) Zellkultursysteme mit Krebszelllinien werden seit Langem zur Untersuchung der Interakti-on zwischen Pathogenen und ihren Wirtszellen eingesetzt. Diese Systeme eignen sich aufgrund der reduzierten Komplexität für die Analyse einzelner Faktoren, spiegeln jedoch nicht den Zustand primärer Zellen oder die komplexe Gewebestruktur wieder. Um die Beschränkungen zu umgehen, wurden in dieser Arbeit neue Modelle etabliert auf der Grundlage von reversibel immortalisierten humanen Primärzellen und ex vivo Kultur von intaktem humanem Eileitergewebe. Infektionen mit dem humanpathogenen Bakterium Chlamydia trachomatis, welches chronische Schmerzen oder Unfruchtbarkeit auslösen kann, wurden in diesen Modellen untersucht. Reversible Immortalisierung wurde mit pri-mären human Eileiterzellen (FT Zellen) und humanen Nabelschnurzellen (HUVEC) durchgeführt. Das System basiert auf lentiviralem Gentransfer und dem Cre-lox-System. HUVEC Zellen wurden mit Kombinationen der Onkoproteine hTERT, SV40T und Bmi1 immortalisiert. Immortalisierung von FT Zellen wurde mit SV40T und Bmi1 erreicht. Eine Analyse der FT Zelllinien zeigte Veränderungen des Karyotyps durch die Immortalisie-rung. Bemerkenswerterweise konnten die Stammzellmarker CD44 und Oct4 in FT Zellen nachgewiesen werden. Ex vivo Gewebekultur humaner Eileiter wurde als stabiles Infekti-onsmodel für Chlamydia trachomatis etabliert. Mittels hochauflösender Konfokal-mikroskopie wurde gezeigt, dass die Infektion mit C. trachomatis tiefgreifende Verände-rungen im Epithel der Mukosa auslöst und zum Verlust der Zelladhäsion und Zellpolarität führt. Ein erhöhter Anteil apoptotischer Zellen wurde nach Infektion mit Serovar D beo-bachtet, einem klinischen Isolat des Genitaltraktes. Dieses Ergebnis steht im Gegensatz zu Infektionen mit dem Laborstamm Serovar L2. Phänotypische Veränderungen in nicht infizierten Zellen weisen auf die Existenz parakriner Signalwege während der akuten In-fektion und Veränderung der epithelialen Homeostase hin. / Cell culture systems with cancer-derived cell lines have long been used to study the interaction between pathogens and their host cells. Due to reduced complexity these systems are convenient for the analysis of single factors; however, they do not represent the condition of primary cells or the complex tissue structure. To circumvent these limitations new models were established in this study on the basis of reversibly immortalized human primary cells and ex vivo culture of intact human fallopian tube tissue. Infections with the human pathogenic bacterium Chlamydia trachomatis, which can lead to chronic pain or infertility, were analyzed in these models. Reversible immortalization was applied to primary human fallopian tube (FT) cells and human umbilical vein cells (HUVEC). This system is based on lentiviral gene transfer and the Cre-lox-system. HUVEC cells were immortalized with a combination of two of the oncoproteins hTERT, SV40T and Bmi1. Immortalization of FT cells was achieved with SV40T and Bmi1. Analysis of FT cell lines revealed changes of the karyotype induced by immortalization. Remarkably, the stem cell markers CD44 and Oct4 were detected in FT cells. Ex vivo tissue culture of human fallopian tubes was established as stable and reliable infection model for Chlamydia trachomatis. Via high resolution confocal analysis the infection with C. trachomatis was discovered to trigger profound changes in the epithelial mucosa, causing loss of cell adhesion and polarity. Interestingly, an increase in the rate of apoptotic cells was observed after infection with serovar D, a clinical genital tract isolate. This finding is in contrast to infections with serovar L2, a laboratory strain. Phenotypic changes in non-infected cells suggest the existence of paracrine signalling during acute infection and change in epithelial homeostasis. Chlamydia trachomatis Primärzellen Reversible Immortalisierung Eileiter Chlamydia trachomatis primary cells reversible immortalization fallopian tube 570 Biowissenschaften, Biologie 32 Biologie WX 6639 ddc:570

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