Author

Jie XuFollow

Date of Award

Fall 12-18-2013

Degree Type

Dissertation

Degree Name

Doctor of Philosophy (PhD)

Department

Biology

First Advisor

Teryl Frey

Second Advisor

William Walthall

Third Advisor

Yuan Liu

Fourth Advisor

Rodney Nash

Abstract

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.

DOI

https://doi.org/10.57709/4859069

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