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Induction of Apoptosis by Rubella Virus Non-Structural Replicase and Rescue by CapsidKanak, Alison Elizabeth 29 September 2008 (has links)
As a model for studying apoptosis associated with pathogenesis of congenital rubella syndrome, bicistronic rubella virus (RUBV) replicons expressing an antibiotic resistance gene in the presence (925-IN) or absence (IN-IN) of RUBV capsid protein (C) were constructed. Apoptosis was assessed by detection of caspase activation, chromatin fragmentation, and flow cytometry. 925-IN cells grew similarly to Vero, but IN-IN cells demonstrated caspase activation, chromatin fragmentation and cell cycle arrest. Whereas Vero cells transfected with P150 exhibited rapid apoptosis not detected in transfected Vero cells stably expressing C, neither exhibited cell cycle alterations, indicating a cell cycle stall not associated with apoptosis. Finally, two human epithelial cells, HEK293 and A549, transfected with P150 failed to exhibit apoptosis, indicating that while replicon-transfected Vero cells are useful for studying apoptosis and cell cycle arrest, the results are not applicable to other cell types.
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Induction of Apoptosis by Rubella Virus Non-Structural Replicase and Rescue by CapsidKanak, Alison Elizabeth 29 September 2008 (has links)
As a model for studying apoptosis associated with pathogenesis of congenital rubella syndrome, bicistronic rubella virus (RUBV) replicons expressing an antibiotic resistance gene in the presence (925-IN) or absence (IN-IN) of RUBV capsid protein (C) were constructed. Apoptosis was assessed by detection of caspase activation, chromatin fragmentation, and flow cytometry. 925-IN cells grew similarly to Vero, but IN-IN cells demonstrated caspase activation, chromatin fragmentation and cell cycle arrest. Whereas Vero cells transfected with P150 exhibited rapid apoptosis not detected in transfected Vero cells stably expressing C, neither exhibited cell cycle alterations, indicating a cell cycle stall not associated with apoptosis. Finally, two human epithelial cells, HEK293 and A549, transfected with P150 failed to exhibit apoptosis, indicating that while replicon-transfected Vero cells are useful for studying apoptosis and cell cycle arrest, the results are not applicable to other cell types.
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The molecular evolution and epidemiology of Rubella virusCloete, Leendert J. January 2014 (has links)
>Magister Scientiae - MSc / Despite widespread rubella virus (RV) vaccination programs, annually RV still
causes severe congenital defects in an estimated 100,000 children globally. A
concerted attempt to eradicate RV is currently underway and analytical tools to
monitor the global decline of the last remaining RV lineages will be useful for
assessing the effectiveness of this endeavour. Importantly, RV evolves rapidly
enough that much of its epidemiological information might be inferable from RV
genomic sequence data.
Using BEASTv1.8.0, I analysed publically available RV sequence data to estimate
genome-wide and gene-specific nucleotide substitution rates, to test whether the
current estimates of RV substitution rates are representative of the entire RV genome.
During these investigations, I specifically accounted for possible confounders of
nucleotide substitution rate estimates, such as temporally biased sampling, sporadic
recombination, and natural selection favouring either increased or decreased genetic
diversity (estimated by the PARRIS and FUBAR methods) at nucleotide sites within
RV nucleic acid secondary structures (predicted by the NASP method).
I determined that RV nucleotide substitution rates range from 1.19×10-3
substitutions/site/year (in the E1 region) to 7.52×10-4 substitutions/site/year (in the
P150 region). I found that these differences between nucleotide substitution rate
estimates in various RV gene regions are largely attributable to temporal sampling
biases, such that datasets containing a higher proportion of recently sampled
sequences will tend to have inflated estimates of mean substitution rates. Although
there exists little evidence of positive selection or natural genetic recombination in RV, I revealed that RV genomes possess extensive biologically functional nucleic
acid secondary structures and that purifying selection acting to maintain these
structures contributes substantially to variations in estimated nucleotide substitution
rates across RV genomes.
Although both temporal sampling biases and purifying selection favouring the
conservation of RV nucleic acid secondary structures have an appreciable impact on
substitution rate estimates, I find that these biases do not preclude the use of RV
sequence data to date ancestral sequences and evaluate the associated RV
phylodynamics. The combination of uniformly high substitution rates across the RV
genome and strong temporal signal within the available sequence data enabled me to
analyse the epidemiological and demographical dynamics of this virus during these
attempts to eradicate it. By implementing a generalized linear model (GLM) and
symmetrical model of discretized phylogeographic spread, I was able to identify
several predictive variables of geographical RV spread and detect transmission
linkages between distinct geographical regions. These results suggest that, in addition
to strengthened vaccination strategies, there also needs to be an increased effort to
educate people about the effects of vaccination and risks of RV infection.
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Cellular responses to Rubella virus infection of neural progenitors derived from human embryonic stem cellsXu, Jie 18 December 2013 (has links)
Rubella virus (RUBV) is a significant human pathogen. RUBV infection takes an enormous toll due to congenital rubella syndrome (CRS), a constellation of birth defects including blindness, hearing defects and mental retardation. Little is known about RUBV-induced teratogenesis due to the absence of useful models. This research is now enabled by the availability of human embryonic stem cells (hESCs) and hESC-derived precursor cell lines. Human neural progenitor cells (hNPCs) serve as a particularly relevant model due to the symptoms and complications of CRS related to neural system development. The overarching question addressed in this dissertation is: what is the mechanism underlying the development of neurological abnormalities seen in CRS? In this context, we investigated the cellular responses of hNPCs to RUBV infection comprehensively by: 1) assessing susceptibility of the cells to RUBV infection; 2) analyzing the effect of infection on cell proliferation; and 3) examining the impact of RUBV infection on differentiation of hNPCs into neuronal and astroglial lineages . We found that hNPCs are susceptible to RUBV infection and that the percentage of infected cells closely mimics CRS in which few cells harbor virus. The virus was able to persist in culture for up to one month without significant alteration of cell morphology and stemness marker expression. In addition, RUBV infection moderately attenuated the proliferation of undifferentiated hNPCs by triggering cell cycle arrest, but not apoptosis or other cell death events commonly seen upon virus infection. This lack of apoptosis appeared to be due in part to virus-induced anti-apoptotic suppression. Interestingly, the virus only had a marginal effect on the induction of cell differentiation into both neuronal and astroglial phenotypes. In fact, RUBV infection promoted terminal differentiation of the culture due to depletion of precursor cells. With differentiation, viral replication was suppressed. We thus propose a model for RUBV-induced neurological defects in which the virus acts by depleting precursor cell pools. The results of this study provide clues for elucidating the mechanisms of RUBV teratogenicity at the cellular level and serves as a potential reference study for elucidating mechanisms of teratogenesis induced by other infectious agents.
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Cellular responses to Rubella virus infection of neural progenitors derived from human embryonic stem cellsXu, Jie 18 December 2013 (has links)
Rubella virus (RUBV) is a significant human pathogen. RUBV infection takes an enormous toll due to congenital rubella syndrome (CRS), a constellation of birth defects including blindness, hearing defects and mental retardation. Little is known about RUBV-induced teratogenesis due to the absence of useful models. This research is now enabled by the availability of human embryonic stem cells (hESCs) and hESC-derived precursor cell lines. Human neural progenitor cells (hNPCs) serve as a particularly relevant model due to the symptoms and complications of CRS related to neural system development. The overarching question addressed in this dissertation is: what is the mechanism underlying the development of neurological abnormalities seen in CRS? In this context, we investigated the cellular responses of hNPCs to RUBV infection comprehensively by: 1) assessing susceptibility of the cells to RUBV infection; 2) analyzing the effect of infection on cell proliferation; and 3) examining the impact of RUBV infection on differentiation of hNPCs into neuronal and astroglial lineages . We found that hNPCs are susceptible to RUBV infection and that the percentage of infected cells closely mimics CRS in which few cells harbor virus. The virus was able to persist in culture for up to one month without significant alteration of cell morphology and stemness marker expression. In addition, RUBV infection moderately attenuated the proliferation of undifferentiated hNPCs by triggering cell cycle arrest, but not apoptosis or other cell death events commonly seen upon virus infection. This lack of apoptosis appeared to be due in part to virus-induced anti-apoptotic suppression. Interestingly, the virus only had a marginal effect on the induction of cell differentiation into both neuronal and astroglial phenotypes. In fact, RUBV infection promoted terminal differentiation of the culture due to depletion of precursor cells. With differentiation, viral replication was suppressed. We thus propose a model for RUBV-induced neurological defects in which the virus acts by depleting precursor cell pools. The results of this study provide clues for elucidating the mechanisms of RUBV teratogenicity at the cellular level and serves as a potential reference study for elucidating mechanisms of teratogenesis induced by other infectious agents.
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The MARS pilot project: implementing real-time measles and rubella surveillance during elimination phase in CanadaEisBrenner, Tracie 14 January 2014 (has links)
OBJECTIVES: Measles and rubella are nationally notifiable, vaccine-preventable diseases targeted for elimination by the Pan American Health Organization (PAHO). To support national and international elimination efforts, surveillance optimization is important to ensure rapid case detection, document endemic
transmission interruption, identify susceptible populations and inform immunization strategies. While current national surveillance captures confirmed-case data, its performance cannot be
assessed using PAHO-recommended surveillance indicators as suspect-case investigation data are required for their estimation. In Canada, the investigation of clinically-suspect measles-like illness (MLI) is highly dependent on laboratory evidence, providing an opportunity to use laboratory data to
estimate MLI investigation rates. The Measles and Rubella Surveillance (MARS) pilot project was developed to address existing surveillance challenges with the central hypothesis that (I) ‘it is
feasible to develop and implement a real‐time, web‐based measles and rubella surveillance system in the Canadian setting’, and the following sub‐hypotheses: (II) ‘implementation of real‐time
surveillance in MARS pilot provinces will result in increased timeliness of national measles and rubella surveillance when compared with established confirmed-case surveillance’, and (III) ‘it is
possible to use augmented laboratory data to estimate the performance of national measles and rubella surveillance using adapted PAHO indicators’.
METHODS: A MARS application was designed to support centralized real-time measles/ rubella investigation reporting and alerting with integration of non-nominal laboratory and epidemiological data, then
developed and piloted using the web-based Canadian Network for Public Health Intelligence platform in British Columbia, Alberta and Newfoundland from June/2011-May/2012. Pre- and post-pilot laboratory surveys were conducted to retrospectively assess national surveillance performance in
‘outbreak’ and ‘non-outbreak’ settings during the 2005‐2011 and pilot years using various surveillance indicators and attributes. Measles IgM serology testing was used as a laboratory-based proxy for MLI investigation to support indicator estimation.
RESULTS: Real-time, integrated surveillance was successfully implemented in MARS pilot provinces as modeled within the context of established reporting roles, and surveillance indicators and attributes were
estimated using augmented laboratory data. MARS surveillance was more timely than confirmed-case surveillance, and real-time MARS reports exceeded all laboratory-related PAHO targets evaluated: 100% met ‘sample collection’ and ‘receipt’ timelines, and 91.7% met ‘result' timelines (Targets:≥80%); 99.8% of all MLI investigations were discarded (Target:≥95%). A national ‘non-outbreak’ baseline rate of 14 MLI investigations/100 000 population was estimated, whereas MARS pilot sites averaged 22 MLI investigations/100 000 population during the pilot year. While ‘non-outbreak’
investigation rates varied between provinces, all annual provincial and national rates estimated for the 2005‐2011 and MARS pilot years exceeded the PAHO investigation target of ≥2 suspected cases/100 000 population in settings attempting elimination.
CONCLUSIONS: The MARS model supported more timely and integrated national measles and rubella surveillance, and enabled indicator‐based performance assessment. Results underscore the importance of laboratory data when evaluating and documenting surveillance performance to support elimination
efforts. Consideration should be given to national MARS implementation and its use as a model adaptable to the case-based surveillance of other nationally notifiable diseases.
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