Staff View: Rational attenuation of RNA viruses with zinc finger antiviral protein

Rational attenuation of RNA viruses with zinc finger antiviral protein

Attenuation of a virulent virus is a proven approach for generating vaccines but can be unpredictable. For example, synonymous recoding of viral genomes can attenuate replication but sometimes results in pleiotropic effects that confound rational vaccine design. To enable specific, conditional atten...

Full description

Saved in:

Bibliographic Details
Main Authors:	Goncalves-Carneiro, Daniel, Mastrocola, Emily, Lei, Xiao, DaSilva, Justin, Chan, Yoke Fun, Bieniasz, Paul D.
Format:	Article
Published:	Nature Portfolio 2022
Subjects:	QR Microbiology R Medicine
Online Access:	http://eprints.um.edu.my/41106/
Tags:	Add Tag No Tags, Be the first to tag this record!

id	my.um.eprints.41106
record_format	eprints
spelling	my.um.eprints.411062023-09-06T04:36:27Z http://eprints.um.edu.my/41106/ Rational attenuation of RNA viruses with zinc finger antiviral protein Goncalves-Carneiro, Daniel Mastrocola, Emily Lei, Xiao DaSilva, Justin Chan, Yoke Fun Bieniasz, Paul D. QR Microbiology R Medicine Attenuation of a virulent virus is a proven approach for generating vaccines but can be unpredictable. For example, synonymous recoding of viral genomes can attenuate replication but sometimes results in pleiotropic effects that confound rational vaccine design. To enable specific, conditional attenuation of viruses, we examined target RNA features that enable zinc finger antiviral protein (ZAP) function. ZAP recognized CpG dinucleotides and targeted CpG-rich RNAs for depletion, but RNA features such as CpG numbers, spacing and surrounding nucleotide composition that enable specific modulation by ZAP were undefined. Using synonymously mutated HIV-1 genomes, we defined several sequence features that govern ZAP sensitivity and enable stable attenuation. We applied rules derived from experiments with HIV-1 to engineer a mutant enterovirus A71 genome whose attenuation was stable and strictly ZAP-dependent, both in cell culture and in mice. The conditionally attenuated enterovirus A71 mutant elicited neutralizing antibodies that were protective against wild-type enterovirus A71 infection and disease in mice. ZAP sensitivity can thus be readily applied for the rational design of conditionally attenuated viral vaccines. Rational design of live-attenuated RNA viruses with potential as vaccines is enabled by identification of sequence rules for zinc finger antiviral protein. Nature Portfolio 2022-10 Article PeerReviewed Goncalves-Carneiro, Daniel and Mastrocola, Emily and Lei, Xiao and DaSilva, Justin and Chan, Yoke Fun and Bieniasz, Paul D. (2022) Rational attenuation of RNA viruses with zinc finger antiviral protein. Nature Microbiology, 7 (10). 1558+. ISSN 2058-5276, DOI https://doi.org/10.1038/s41564-022-01223-8 <https://doi.org/10.1038/s41564-022-01223-8>. 10.1038/s41564-022-01223-8
institution	Universiti Malaya
building	UM Library
collection	Institutional Repository
continent	Asia
country	Malaysia
content_provider	Universiti Malaya
content_source	UM Research Repository
url_provider	http://eprints.um.edu.my/
topic	QR Microbiology R Medicine
spellingShingle	QR Microbiology R Medicine Goncalves-Carneiro, Daniel Mastrocola, Emily Lei, Xiao DaSilva, Justin Chan, Yoke Fun Bieniasz, Paul D. Rational attenuation of RNA viruses with zinc finger antiviral protein
description	Attenuation of a virulent virus is a proven approach for generating vaccines but can be unpredictable. For example, synonymous recoding of viral genomes can attenuate replication but sometimes results in pleiotropic effects that confound rational vaccine design. To enable specific, conditional attenuation of viruses, we examined target RNA features that enable zinc finger antiviral protein (ZAP) function. ZAP recognized CpG dinucleotides and targeted CpG-rich RNAs for depletion, but RNA features such as CpG numbers, spacing and surrounding nucleotide composition that enable specific modulation by ZAP were undefined. Using synonymously mutated HIV-1 genomes, we defined several sequence features that govern ZAP sensitivity and enable stable attenuation. We applied rules derived from experiments with HIV-1 to engineer a mutant enterovirus A71 genome whose attenuation was stable and strictly ZAP-dependent, both in cell culture and in mice. The conditionally attenuated enterovirus A71 mutant elicited neutralizing antibodies that were protective against wild-type enterovirus A71 infection and disease in mice. ZAP sensitivity can thus be readily applied for the rational design of conditionally attenuated viral vaccines. Rational design of live-attenuated RNA viruses with potential as vaccines is enabled by identification of sequence rules for zinc finger antiviral protein.
format	Article
author	Goncalves-Carneiro, Daniel Mastrocola, Emily Lei, Xiao DaSilva, Justin Chan, Yoke Fun Bieniasz, Paul D.
author_facet	Goncalves-Carneiro, Daniel Mastrocola, Emily Lei, Xiao DaSilva, Justin Chan, Yoke Fun Bieniasz, Paul D.
author_sort	Goncalves-Carneiro, Daniel
title	Rational attenuation of RNA viruses with zinc finger antiviral protein
title_short	Rational attenuation of RNA viruses with zinc finger antiviral protein
title_full	Rational attenuation of RNA viruses with zinc finger antiviral protein
title_fullStr	Rational attenuation of RNA viruses with zinc finger antiviral protein
title_full_unstemmed	Rational attenuation of RNA viruses with zinc finger antiviral protein
title_sort	rational attenuation of rna viruses with zinc finger antiviral protein
publisher	Nature Portfolio
publishDate	2022
url	http://eprints.um.edu.my/41106/
_version_	1778161626631897088
score	13.209306

Rational attenuation of RNA viruses with zinc finger antiviral protein

Similar Items