The HIV 5′ Gag Region Displays a Specific Nucleotide Bias Regulating Viral Splicing and Infectivity

Alternative splicing and the expression of intron-containing mRNAs is one hallmark of HIV gene expression. To facilitate the otherwise hampered nuclear export of non-fully processed mRNAs, HIV encodes the Rev protein, which recognizes its intronic response element and fuels the HIV RNAs into the CRM...

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Autores principales: Grewe, Bastian, Vogt, Carolin, Horstkötter, Theresa, Tippler, Bettina, Xiao, Han, Müller, Bianca, Überla, Klaus, Wagner, Ralf, Asbach, Benedikt, Bohne, Jens
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8227319/
https://www.ncbi.nlm.nih.gov/pubmed/34071819
http://dx.doi.org/10.3390/v13060997
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author Grewe, Bastian
Vogt, Carolin
Horstkötter, Theresa
Tippler, Bettina
Xiao, Han
Müller, Bianca
Überla, Klaus
Wagner, Ralf
Asbach, Benedikt
Bohne, Jens
author_facet Grewe, Bastian
Vogt, Carolin
Horstkötter, Theresa
Tippler, Bettina
Xiao, Han
Müller, Bianca
Überla, Klaus
Wagner, Ralf
Asbach, Benedikt
Bohne, Jens
author_sort Grewe, Bastian
collection PubMed
description Alternative splicing and the expression of intron-containing mRNAs is one hallmark of HIV gene expression. To facilitate the otherwise hampered nuclear export of non-fully processed mRNAs, HIV encodes the Rev protein, which recognizes its intronic response element and fuels the HIV RNAs into the CRM-1-dependent nuclear protein export pathway. Both alternative splicing and Rev-dependency are regulated by the primary HIV RNA sequence. Here, we show that these processes are extremely sensitive to sequence alterations in the 5’coding region of the HIV genomic RNA. Increasing the GC content by insertion of either GFP or silent mutations activates a cryptic splice donor site in gag, entirely deregulates the viral splicing pattern, and lowers infectivity. Interestingly, an adaptation of the inserted GFP sequence toward an HIV-like nucleotide bias reversed these phenotypes completely. Of note, the adaptation yielded completely different primary sequences although encoding the same amino acids. Thus, the phenotypes solely depend on the nucleotide composition of the two GFP versions. This is a strong indication of an HIV-specific mRNP code in the 5′ gag region wherein the primary RNA sequence bias creates motifs for RNA-binding proteins and controls the fate of the HIV-RNA in terms of viral gene expression and infectivity.
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spelling pubmed-82273192021-06-26 The HIV 5′ Gag Region Displays a Specific Nucleotide Bias Regulating Viral Splicing and Infectivity Grewe, Bastian Vogt, Carolin Horstkötter, Theresa Tippler, Bettina Xiao, Han Müller, Bianca Überla, Klaus Wagner, Ralf Asbach, Benedikt Bohne, Jens Viruses Article Alternative splicing and the expression of intron-containing mRNAs is one hallmark of HIV gene expression. To facilitate the otherwise hampered nuclear export of non-fully processed mRNAs, HIV encodes the Rev protein, which recognizes its intronic response element and fuels the HIV RNAs into the CRM-1-dependent nuclear protein export pathway. Both alternative splicing and Rev-dependency are regulated by the primary HIV RNA sequence. Here, we show that these processes are extremely sensitive to sequence alterations in the 5’coding region of the HIV genomic RNA. Increasing the GC content by insertion of either GFP or silent mutations activates a cryptic splice donor site in gag, entirely deregulates the viral splicing pattern, and lowers infectivity. Interestingly, an adaptation of the inserted GFP sequence toward an HIV-like nucleotide bias reversed these phenotypes completely. Of note, the adaptation yielded completely different primary sequences although encoding the same amino acids. Thus, the phenotypes solely depend on the nucleotide composition of the two GFP versions. This is a strong indication of an HIV-specific mRNP code in the 5′ gag region wherein the primary RNA sequence bias creates motifs for RNA-binding proteins and controls the fate of the HIV-RNA in terms of viral gene expression and infectivity. MDPI 2021-05-27 /pmc/articles/PMC8227319/ /pubmed/34071819 http://dx.doi.org/10.3390/v13060997 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Grewe, Bastian
Vogt, Carolin
Horstkötter, Theresa
Tippler, Bettina
Xiao, Han
Müller, Bianca
Überla, Klaus
Wagner, Ralf
Asbach, Benedikt
Bohne, Jens
The HIV 5′ Gag Region Displays a Specific Nucleotide Bias Regulating Viral Splicing and Infectivity
title The HIV 5′ Gag Region Displays a Specific Nucleotide Bias Regulating Viral Splicing and Infectivity
title_full The HIV 5′ Gag Region Displays a Specific Nucleotide Bias Regulating Viral Splicing and Infectivity
title_fullStr The HIV 5′ Gag Region Displays a Specific Nucleotide Bias Regulating Viral Splicing and Infectivity
title_full_unstemmed The HIV 5′ Gag Region Displays a Specific Nucleotide Bias Regulating Viral Splicing and Infectivity
title_short The HIV 5′ Gag Region Displays a Specific Nucleotide Bias Regulating Viral Splicing and Infectivity
title_sort hiv 5′ gag region displays a specific nucleotide bias regulating viral splicing and infectivity
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8227319/
https://www.ncbi.nlm.nih.gov/pubmed/34071819
http://dx.doi.org/10.3390/v13060997
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