Characterisation of the p53 response pathway and the cellular outcomes evoked following irradiation of primary fibroblasts with different wavelengths of UV light

McFeat, Gillian

January 2001

No description available.

612.014484

Mammalian cells

Remodelling recombinant glycoproteins made in CHO cells by transfection of glycosyltranferases

Jassal, Ramesh Kumar

January 1999

No description available.

615.1

Biological drugs; Mammalian cells

Role of the RNAi pathway in influenza a virus infected mammalian cells

Yu, Yi-Hsin, Biotechnology & Biomolecular Sciences, Faculty of Science, UNSW

January 2008

The interferon (lFN) signalling and RNA interference (RNAi) pathways are the major antiviral pathways in animals and plants, respectively. Although the mechanism of RNAi remains to be completely characterised, the genes that encode the proteins involved in this process have been identified in the plant, fungi and animal kingdoms (Fagard et al., 2000, Grishok et aI., 2000, Hall et al., 2003, Kanellopoulou et al., 2005, Kolb et al., 2005); with comparative analyses indicating that RNAi is an evolutionarily conserved mechanism. Several studies have identified RNAi suppressors encoded by animal viruses, suggesting an antiviral role for the RNAi pathway in animals as well as plants (Andersson et al., 2005, Bennasser et al., 2006, Garcia et al., 2006, Li et al., 2004, Lichner et al., 2003, Lingel et al., 2005, Lu & Cullen, 2004, Wang et al., 2006). However, most of these studies were performed in non-mammalian systems and as yet, there is no direct evidence indicating that the RNAi pathway plays a significant antiviral role during the infection of mammalian cells. Interestingly, several viruses have now been shown to express their own microRNA (miRNA) in infected cells (Grey et al., 2005, Pfeffer et al., 2005, Pfeffer et al., 2004, Samols et al., 2005, Sullivan et al., 2005). Further, in the case of hepatitis C virus (HCV), there is evidence that the virus usurps the host cell miRNAs to enhance viral replication (Jopling et al., 2005). The principal aim of this project was to investigate the role of RNAi in mammalian cells during viral infection, particularly infection with the influenza A virus. This thesis is divided into six major chapters followed by a brief general discussion. Chapter 1 contains a general introduction to the RNAi pathway. It describes the history of the discovery of RNAi and summarizes the known and proposed antiviral roles of the RNAi pathway in plants and mammalian cells. Chapter 2 describes the general materials and methods used for this project. There are four main result chapters, each dealing with a specific experimental system. Each chapter is divided into a brief introduction, specific materials and methods used, followed by presentation of the experimental results and a brief discussion. Chapter 3 describes the development of an in vitro Dicer activity assay to study the effect of viral proteins on the activity of the mammalian Dicer protein. It was demonstrated that crude cell lysates derived from influenza A virus infected cells impaired the activity of Dicer and this observation was not due to degradation of the Dicer protein by virally-induced proteases. Chapter 4 describes the use of a GFP reporter assay for screening potential RNAi suppressors. This assay is suitable for studying viral proteins in isolation. The effect of the influenza NS1 protein on the RNAi pathway in HEK293 cells was investigated and it was shown that NS1 could exert modest, but nevertheless significant, suppression of the RNAi pathway. Northern studies, performed to examine the processing of shRNA in the presence of NS1, demonstrated that NSI suppressed the RNAi mechanism through interfering with the maturation ofshRNA into siRNA. Chapter 5 describes the effect of over-expressing components of the RNAi pathway on influenza A virus infection. In these experiments, Exportin 5, which encodes a protein involved in the transport of pre-miRNA/shRNA into the cytoplasm, was over-expressed during influenza A virus infection. Reduced viral infection was observed in cells over-expressing Exportin 5, suggesting that this treatment protects cells from virus infection. Chapter 6 describes the expressed small RNA profile during influenza A virus infection in MDCK cells. Novel canine miRNA homologues were identified through cloning and sequencing. No definitive evidence for virally-derived siRNA/miRNA was found but a general reduction of endogenous miRNA expression was detected.

RNAi pathway.

RNA.

NS1.

Virus.

Mammalian cells.

Retargeting of pre-set regions on chromosome for high gene expression in mammalian cells

Jiao, Peng, Chang, Christine, Kral, Kelly, Rogg, Jonathan, Wyhs, Nicolas, Wang, Daniel I.C.

01 1900

We have developed a system to hunt and reuse special gene integration sites that allow for high and stable gene expression. A vector, named pRGFP8, was constructed. The plasmid pRGFP8 contains a reporter gene, gfp2 and two extraneous DNA fragments. The gene gfp2 makes it possible to screen the high expression regions on the chromosome. The extraneous DNA fragments can help to create the unique loci on the chromosome and increase the gene targeting frequency by increasing the homology. After transfection into Chinese hamster ovary cells (CHO) cells, the linearized pRGFP8 can integrate into the chromosome of the host cells and form the unique sites. With FACS, 90 millions transfected cells were sorted and the cells with strongest GFP expression were isolated, and then 8 stable high expression GFP CHO cell lines were selected as candidates for the new host cell. Taking the unique site created by pRGFP8 on the chromosome in the new host cells as a targeting locus, the gfp2 gene was replaced with the gene of interest, human ifngamma, by transfecting the targeting plasmid pRIH-IFN. Then using FACS, the cells with the dimmest GFP fluorescence were selected. These cells showed they had strong abilities to produce the protein of interest, IFN-gamma. During the gene targeting experiment, we found there is positive correlation between the fluorescence density of the GFP CHO host cells and the specific production rate of IFN-gamma. This result shows that the strategy in our expression system is correct: the production of the interesting protein increases with the increase fluorescence of the GFP host cells. This system, the new host cell lines and the targeting vector, can be utilized for highly expressing the gene of interest. More importantly, by using FACS, we can fully screen all the transfected cells, which can reduce the chances of losing the best cells. / Singapore-MIT Alliance (SMA)

Gene retargeting

GFP

high expression

mammalian cells

Localisation signals within the c-myc and c-fos 3'untranslated regions

Dalgleish, Gillian Denise

January 2000

No description available.

572.8

Mammalian cells; mRNAs; Messenger RNA

Role of the RNAi pathway in influenza a virus infected mammalian cells

Yu, Yi-Hsin, Biotechnology & Biomolecular Sciences, Faculty of Science, UNSW

January 2008

The interferon (lFN) signalling and RNA interference (RNAi) pathways are the major antiviral pathways in animals and plants, respectively. Although the mechanism of RNAi remains to be completely characterised, the genes that encode the proteins involved in this process have been identified in the plant, fungi and animal kingdoms (Fagard et al., 2000, Grishok et aI., 2000, Hall et al., 2003, Kanellopoulou et al., 2005, Kolb et al., 2005); with comparative analyses indicating that RNAi is an evolutionarily conserved mechanism. Several studies have identified RNAi suppressors encoded by animal viruses, suggesting an antiviral role for the RNAi pathway in animals as well as plants (Andersson et al., 2005, Bennasser et al., 2006, Garcia et al., 2006, Li et al., 2004, Lichner et al., 2003, Lingel et al., 2005, Lu & Cullen, 2004, Wang et al., 2006). However, most of these studies were performed in non-mammalian systems and as yet, there is no direct evidence indicating that the RNAi pathway plays a significant antiviral role during the infection of mammalian cells. Interestingly, several viruses have now been shown to express their own microRNA (miRNA) in infected cells (Grey et al., 2005, Pfeffer et al., 2005, Pfeffer et al., 2004, Samols et al., 2005, Sullivan et al., 2005). Further, in the case of hepatitis C virus (HCV), there is evidence that the virus usurps the host cell miRNAs to enhance viral replication (Jopling et al., 2005). The principal aim of this project was to investigate the role of RNAi in mammalian cells during viral infection, particularly infection with the influenza A virus. This thesis is divided into six major chapters followed by a brief general discussion. Chapter 1 contains a general introduction to the RNAi pathway. It describes the history of the discovery of RNAi and summarizes the known and proposed antiviral roles of the RNAi pathway in plants and mammalian cells. Chapter 2 describes the general materials and methods used for this project. There are four main result chapters, each dealing with a specific experimental system. Each chapter is divided into a brief introduction, specific materials and methods used, followed by presentation of the experimental results and a brief discussion. Chapter 3 describes the development of an in vitro Dicer activity assay to study the effect of viral proteins on the activity of the mammalian Dicer protein. It was demonstrated that crude cell lysates derived from influenza A virus infected cells impaired the activity of Dicer and this observation was not due to degradation of the Dicer protein by virally-induced proteases. Chapter 4 describes the use of a GFP reporter assay for screening potential RNAi suppressors. This assay is suitable for studying viral proteins in isolation. The effect of the influenza NS1 protein on the RNAi pathway in HEK293 cells was investigated and it was shown that NS1 could exert modest, but nevertheless significant, suppression of the RNAi pathway. Northern studies, performed to examine the processing of shRNA in the presence of NS1, demonstrated that NSI suppressed the RNAi mechanism through interfering with the maturation ofshRNA into siRNA. Chapter 5 describes the effect of over-expressing components of the RNAi pathway on influenza A virus infection. In these experiments, Exportin 5, which encodes a protein involved in the transport of pre-miRNA/shRNA into the cytoplasm, was over-expressed during influenza A virus infection. Reduced viral infection was observed in cells over-expressing Exportin 5, suggesting that this treatment protects cells from virus infection. Chapter 6 describes the expressed small RNA profile during influenza A virus infection in MDCK cells. Novel canine miRNA homologues were identified through cloning and sequencing. No definitive evidence for virally-derived siRNA/miRNA was found but a general reduction of endogenous miRNA expression was detected.

RNAi pathway.

RNA.

NS1.

Virus.

Mammalian cells.

A baseline evaluation of the cytotoxicity of gold nanoparticles in different types of mammalian cells for future radiosensitization studies

De Bruyn, Shana

January 2020

Magister Scientiae (Medical Bioscience) - MSc(MBS) / Recently nanoparticles (NPs) have been introduced and used in combination with therapeutic approaches to develop nanotechnology-enabled medicine. These nanostructures allow for the exploitation of the physiochemical properties which may be beneficial in cancer treatment. The use of NPs in nanomedicine has proven successful in modern chemotherapeutics and has demonstrated promising potential in in vivo and in vitro radiosensitization studies. This is a baseline study aimed to determine the cytotoxic effects of AuNPs for potential radiosensitization analysis. The study analysed the effects of different AuNP sizes (30, 50 and 80nm), concentrations (5, 10 and 15 μg/ml) over various time periods in CHOK1 and A549 cells.

Gold nanoparticles

Radiosensitization

Cytotoxicity

Nanotechnology

Mammalian cells

Chemogenetic control of gene expression and protein function with small molecules

Dotson, Hannah Lin

23 May 2022

Control of gene expression is essential for synthetic biology. Drug-inducible systems allow for gene expression levels to be precisely regulated through the administration of exogenous chemical inducers, and by combining these systems, more complex circuits with multiple inputs and outputs can be designed. However, the number of existing orthogonal drug-inducible systems is limited. Therefore, there remains a need for new, small-molecule-inducible systems that are orthogonal to both existing systems and native cellular function. Here, we focus on the development and applications of two small-molecule inducible systems for use in basic research, synthetic systems, and therapeutics: the ligand-inducible connection (LInC) system and the HaXS8-inducible system. In the LInC system, the NS3/4a protease from hepatitis C virus is used to regulate the linkage between genetically fused DNA-binding elements and transcriptional effector domains, which remain linked only in the presence of an NS3/4a protease inhibitor. The antiviral drugs which are used as inhibitors for NS3-based systems provide ideal small-molecule inputs for synthetic biology applications, as they are designed to be orthogonal to native biological function and have been tested for clinical use in humans. We demonstrate the construction and validation of a LInC transcription factor (TF) system, as well as further extension of the system with an “all-in-one” single vector design. We then continue on to describe the application of a small molecule (HaXS8) heterodimer system based on the SNAP-tag and HaloTag domains to control gene expression and protein behavior. We demonstrate the construction and validation of several HaXS8-inducible proteins, including TFs, Cre recombinase, and caspase-9. Together, our work on these two systems provides additional orthogonal methods of small molecule-inducible gene expression and protein function for use in control of cellular behavior. / 2024-05-23T00:00:00Z

Biomedical engineering

Mammalian cells

Protein engineering

Multiple Forms of Dihydrofolate Reductase in Cultured Mammalian Cells

Hiebert, Murray Bernard

05 1900

<p> Dihydrofolate reductase from a subline of the L1210 lymphoma was purified by affinity chromatography using substituted Sepharose -4B to which was coupled methotrexate, a specific, tight binding inhibitor of the enzyme. The purified enzyme was subjected to disc gel electrophoresis at pH 8.5. At least two bands of activity were detected on the gel by the formation of a reduced formazan. Their ratios were dependent on enzyme concentration. Similar bands were found in the presence of EDTA (10^-6M), 4M and SM urea. When a substrate, NADPH (5xl0^-5M), was added to the buffers used in electrophoresis, three bands of enzyme activity were present in a fixed ratio which was independent of enzyme concentration. Protein bands showed a different but constant ratio. When folate replaced dihydrofolate as substrate in the assay mixture, the bands of activity corresponded at high concentrations of the enzyme. When activity was detected in the presence of an increasing concentration of methotrexate, different inhibition of the bands resulted. Preliminary experiments with crude extracts of the same subline gave activity profiles with multiple peaks.</p> / Thesis / Master of Science (MSc)

A WHOLE CELL BASED BIOSENSOR FOR MONITORING PHYSIOLOGICAL TOXINS AND EARLY SCREENING OF CANCER

Ghosh, Gargi

01 January 2008

Recently a whole cell based biosensor has been developed in our laboratory that consists of a monolayer of human umbilical vein endothelial cells (HUVECs) on the asymmetric cellulose triacetate (CTA) membrane of an ion selective electrode (ISE). When a confluent cell monolayer is formed across the membrane, response from the sensor is inhibited due to inhibited ion transport across the membrane. When the cell based biosensor is exposed to permeability modifying agents, the permeability across the cell monolayer is altered facilitating more ion transport and as a result the response from the sensor increases. This sensor response can be related to the concentration of these agents. One objective of this research was to investigate the ability of the sensor to detect a physiological toxin, alpha toxin from Staphylococcus aureus. Studies demonstrated that the biosensor can detect 0.1ng/ml alpha toxin. Considering the fact that the concentration of this toxin is 100-250 ng/ml in whole blood in humans, this biosensor has the ability to act as the diagnostic tool for staphylococcal diseases. Another part of this research was to investigate the ability of the biosensor to measure angiogenesis by measuring the changes in permeability induced by cytokines such as vascular endothelial growth factor (VEGF), basic fibroblast growth factor (bFGF), hepatocyte growth factor (HGF) and tumor necrosis factor andamp;aacute; (TNF- andamp;aacute;) individually and in combination. The sensor response was then compared with the common in vitro assays for angiogenesis. The study demonstrated that at the concentrations studied the sensor response in the presence of cytokines was much higher than that observed for other angiogenesis assays, thereby bolstering the potential of the biosensor to act as a quick screening tool for angiogenesis. Furthermore, epithelial cell based sensor responses to the same cytokines were compared with the responses from endothelial cell based sensor and the mechanisms behind the increased sensor response were elucidated. Finally, to investigate the ability of the sensor to screen cancer, the biosensor was exposed to the serum from healthy individuals and cancer patients. The results showed that the sensor can distinguish between healthy individuals and cancer patients and the results correlate with the stages of cancer.