eprintid: 37864
rev_number: 34
userid: 9061
dir: disk0/00/03/78/64
datestamp: 2020-07-30 21:11:47
lastmod: 2020-07-30 21:11:47
status_changed: 2020-07-30 21:11:47
type: thesis_degree
metadata_visibility: show
contact_email: mby1@pitt.edu
item_issues_id: etd_invalid_date_37864
item_issues_type: etd_invalid_date
item_issues_description: ETD - Invalid Date for Defense Date '2020-04'.  Date must contain Year, Month and Day values.
item_issues_timestamp: 2019-11-21 07:02:13
item_issues_status: autoresolved
item_issues_count: 0
eprint_status: archive
creators_name: Yee, Michael B.
creators_email: mby1@pitt.edu
creators_id: mby1
creators_orcid: 0000-0002-6296-7757
title: Identifying Varicella-Zoster Virus Latent Genomes in an Alternative Neuronal Latency Model
ispublished: unpub
divisions: sch_gsph_infectiousdiseasesmicrobiology
full_text_status: restricted
keywords: VZV, virus, neuron model, latency, reactivation, LUHMES
abstract: Varicella zoster virus (VZV) is the etiologic agent of chickenpox (varicella) upon primary infection and shingles (herpes zoster, HZ) upon reactivation from neuronal latency.  Shingles is a debilitating disease of the elderly and immune impaired that is frequently complicated. Reactivation of VZV causing HZ is painful and can result in a chronic pain state known as postherpetic neuralgia (PHN) that is difficult to alleviate.  HZ has also been linked to encephalitis, meningitis, vasculopathies and increased risk of stroke, all of which emphasize the continued public health demand for better treatments and/or vaccines.  VZV latency and reactivation has not been well characterized because it presents monumental difficulties studying it in a laboratory setting.  Its human-specific restriction requires human neuronal platforms for modeling neurotropism, latency and reactivation.  Importantly, VZV genomes are found not only in neurons of sensory ganglia, but in those of autonomic, enteric and cranial ganglia, and possibly even the CNS.  These latent genomes are difficult to characterize and are usually found only by performing end-stage methods of analyses, when tissues/cells need to be fixed or extracted.  One aspect of this research was to explore methods that would better enable the identification of VZV genomes in latently infected cells and whether they could be applied in a live-cell in vitro setting.  We have previously established that sensory-like neurons derived from human embryonic stem cells (hESC) can host both a productive VZV infection and a model state of VZV latency that can be experimentally reactivated.  However, the maintenance of hESCs and their differentiation into sensory neurons for larger scale applications is exceedingly demanding.  The second goal of this research was to evaluate an alternative neuron-like system that is more easily expandable for large-scale applications.  We evaluated the proliferative human neuronal precursor cell line Lund human mesencephalic (LUHMES) cells.  Differentiated LUHMES can easily be scaled to large numbers and show biochemical, morphological, and functional features of mature neurons.  While both undifferentiated and differentiated LUHMES cells are fully permissive to VZV infection, current studies are addressing the potential of this system to host a VZV latent state, and whether this is experimentally reactivatable.
date: 2020-07-30
date_type: published
pages: 71
institution: University of Pittsburgh
refereed: TRUE
etdcommittee_type: thesis_advisor
etdcommittee_type: committee_member
etdcommittee_type: committee_member
etdcommittee_name: Kinchington, Paul R.
etdcommittee_name: Nimgaonkar, Vishwajit L.
etdcommittee_name: Rappocciolo, Giovanna
etdcommittee_email: kinchingtonp@upmc.edu
etdcommittee_email: vishwajitnl@upmc.edu
etdcommittee_email: giovanna@pitt.edu
etdcommittee_id: kinch
etdcommittee_id: nimga
etdcommittee_id: giovanna
etdcommittee_orcid: 0000-0002-1901-9970
etd_defense_date: 2020-03-31
etd_approval_date: 2020-07-30
etd_submission_date: 2019-11-21
etd_release_date: 2020-07-30
etd_access_restriction: 1_year
etd_patent_pending: FALSE
thesis_type: thesis
degree: MS
citation:   Yee, Michael B.  (2020) Identifying Varicella-Zoster Virus Latent Genomes in an Alternative Neuronal Latency Model.  Master's Thesis, University of Pittsburgh.    (Unpublished)  
document_url: http://d-scholarship-dev.library.pitt.edu/37864/1/YeeM_MSthesis_4_2020.pdf