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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

TheEnvelope Glycoproteins of Gammaretroviruses and Type-D Betaretroviruses are Tetherin Antagonists:

Sinha, Anindita January 2018 (has links)
Thesis advisor: Welkin E. Johnson / Tetherin/BST2 is an interferon-inducible antiviral factor that restricts the egress of numerous enveloped viruses including HIV-1. Consequently, many viruses have evolved mechanisms to actively or passively evade restriction by tetherin. Most studies conducted to date focused on the tetherin-evasion mechanism of complex retroviruses like HIV and SIV, which encode accessory proteins like Vpu and Nef respectively to counteract tetherin-mediated restriction. However, there is a wide gap in knowledge in understanding how simple retroviruses (that includes alpharetroviruses, some betaretroviruses and gammaretroviruses) that lack obvious accessory proteins like HIV-1 Vpu and SIV-Nef, evade restriction by tetherin. In this dissertation, I have established that Simian retrovirus type-3, a prototypical type-D betaretrovirus, isolated from Asian macaques, is restricted by human tetherin but not by rhesus macaque tetherin. This differential sensitivity indicated that SRV-3 has a mechanism to evade tetherin-mediated restriction. I have identified the SRV-3 envelope (Env) glycoprotein as the viral determinant of tetherin antagonism, and have also found that SRV-3 envelope expression in-trans was sufficient to rescue a heterologous virus from tetherin. SRV-3 Env resulted in cell-surface down-modulation of rhesus tetherin, and this mechanism of tetherin-antagonism is independent of the SRV-3 Env trafficking pathway. The target specificity of SRV-3 Env overlapped a stretch of five residues (G14DIWK18) in the rhesus tetherin cytoplasmic tail that are absent from human tetherin. Additionally, I was able to show that SRV-3 Env physically interacts with rhesus tetherin by targeting the G14DIWK18 motif. SRV-3 belongs to a large supergroup of retroviruses, called the RDR Interference Supergroup. Due to this reason, I screened additional RDR envelope glycoproteins for their ability to antagonize a panel of tetherin homologs. All the RDR envelopes tested were sensitive to human tetherin but exhibited anti-tetherin activity when tested against a panel of tetherin homologs from squirrel monkey, baboon, dog and cat. I also found that several non-RDR gammaretroviral envelope glycoproteins also have anti-tetherin function. Thus, tetherin-antagonism is not just restricted to the envelope glycoproteins of retroviruses in the RDR interference supergroups but extends to other non-RDR gammaretroviruses as well. To my knowledge, this is the first characterization of gamma-type envelopes as tetherin antagonists. Thus, in the absence of a dedicated tetherin antagonist, many simple retroviruses in the beta- and gammaretrovirus genera may evade tetherin-mediated restriction through neo-functionalization of their envelope glycoproteins. We speculate that the evolutionary success of the gamma-type envelope may be due, at least in part, to this anti-tetherin function. / Thesis (PhD) — Boston College, 2018. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Biology.

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