Role of Viral Splicing Elements and Cellular RNA Binding Proteins in Regulation of HIV-1 Alternative RNA Splicing

Stoltzfus, C. Martin; Madsen, Joshua

doi:10.2174/157016206775197655

Cited by 127 publications

(169 citation statements)

References 85 publications

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“…There are multiple splicing enhancer elements in exons 4 and 5 (16). Whereas SC35 binds to enhancer ESE2 (24), potential binding sites for ASF/SF2, SRp40, and SRp55 were identified in GAR (25).…”

Section: Discussionmentioning

confidence: 99%

“…Generally, the family of serine-and arginine-rich proteins (SR proteins) target enhancer sequences, and silencer sequences are targeted by heterogeneous nuclear ribonucleoproteins (15). There are several enhancers and silencers on HIV-1 pre-mRNA (16). A silencer in exon 3 called ESSV inhibits the vpr splice acceptor SA3 (10,17).…”

mentioning

confidence: 99%

“…Recent studies have shown that the relative concentrations of SR proteins are of paramount importance for production of sufficient quantities of the various HIV-1 mRNAs (16). SR proteins have also been shown to be potential targets for novel therapy against HIV-1 infection (28).…”

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confidence: 99%

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Serine- and Arginine-rich Proteins 55 and 75 (SRp55 and SRp75) Induce Production of HIV-1 vpr mRNA by Inhibiting the 5′-Splice Site of Exon 3

Tranell

Fenyõ

Schwartz

2010

Journal of Biological Chemistry

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HIV-1 non-coding exon 3 can either be spliced to exons 4, 4a, 4b, 4c, and 5 to generate tat, rev, and nef mRNAs or remain unspliced to produce the 13a7 vpr mRNA. Here we show that serine-and arginine-rich proteins 55 and 75 (SRp55 and SRp75) inhibit splicing from the 5-splice site of exon 3 thereby causing an accumulation of the partially unspliced 13a7 vpr mRNA. In contrast, serineand arginine-rich protein 40 (SRp40) induces splicing from exon 3 to exon 4, thereby promoting the production of the 1347 tat mRNA. We demonstrate that SRp55 stimulates vpr mRNA production by interacting with the previously identified HIV-1 splicing enhancer named GAR and inhibiting its function. This inhibition requires both serine arginine-rich and RNA-binding domains of SRp55, indicating that production of HIV-1 vpr mRNA depends on the interaction of SRp55 with an unknown factor.To produce all the mRNAs that are needed for HIV-1 to be infectious it uses alternative splicing. The full-length 9-kb transcript contains several splice sites, including four 5Ј-splice sites, also called splice donors (SD1-4) 2 and eight 3Ј-splice sites, also called splice acceptors (SA2-3, -4a-c, -5, and -7) (supplemental Fig. 1A), which can all be used in different combinations to create more than 35 differently spliced mRNAs (supplemental Fig. 1, B and C) (1-6). Cloning and expression of individual HIV-1 mRNAs have revealed that mRNAs spliced to SA3 produce Vpr, those spliced to SA4 produce Tat, those spliced to SA4a and -4b produce Rev and Nef, and those spliced to SA5 produce Nef (1,2,7,8). mRNAs spliced to SA2 are believed to produce Vif (5, 7). Two additional mRNAs that are believed to produce Rev and Nef are spliced to SA4c or to SA7, respectively (4). To produce the correct amounts of all mRNAs, the splice acceptors in HIV-1 are sub-optimal because of short and interrupted polypyrimidine tracts, non-canonical branch points, and inhibitory sequences that down-regulate the usage of several splice sites (6, 9 -13).Enhancer or silencer sequences regulate alternative splicing by up-regulating or down-regulating the usage of a splice site (14). Generally, the family of serine-and arginine-rich proteins (SR proteins) target enhancer sequences, and silencer sequences are targeted by heterogeneous nuclear ribonucleoproteins (15). There are several enhancers and silencers on HIV-1 pre-mRNA (16). A silencer in exon 3 called ESSV inhibits the vpr splice acceptor SA3 (10, 17). Two silencers in exon 4, named ESS2 and ESS2p, inhibit splicing into exon 4 thereby inhibiting the production of tat mRNA (18,19). SA7 is used by all mRNAs in the 2-kb class. In exon 7 a silencer called ESS3 blocks U2 small nuclear ribonucleoprotein, thereby suppressing SA7 (19 -21). An intronic silencer that blocks SA7 is located in the intron, directly upstream of exon 7 (22). An enhancer element called ESE3 that activates SA7 is located close to ESS3 in exon 7 (9, 21, 23). An enhancer in exon 4 has been named ESE2, because it attenuates ESS2 and thereby enhances splicing into SA4 (24)...

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Serine- and Arginine-rich Proteins 55 and 75 (SRp55 and SRp75) Induce Production of HIV-1 vpr mRNA by Inhibiting the 5′-Splice Site of Exon 3

Tranell

Fenyõ

Schwartz

2010

Journal of Biological Chemistry

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“…AS is not entirely restricted to eukaryotes, as retroviruses depend on AS for critical events in their life cycle (Pollard and Malim, 1998). Patterns of AS vary among viral strains, perhaps in functionally important ways (Stoltzfus and Madsen, 2006).…”

Section: Alternative Splicing As a Mechanism For Generating Phenotypimentioning

confidence: 99%

Quantitative and evolutionary biology of alternative splicing: how changing the mix of alternative transcripts affects phenotypic plasticity and reaction norms

Marden

2006

Heredity

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Alternative splicing (AS) of pre-messenger RNA is a common phenomenon that creates different transcripts from a single gene, and these alternative transcripts affect phenotypes. The majority of AS research has examined tissue and developmental specificity of expression of particular AS transcripts, how this specificity affects cell function, and how aberrant AS is related to disease. Few studies have examined quantitative between-individual variation in AS within a cell or tissue type, or in relation to phenotypes, but the results are compelling: quantitative variation in AS affects plastic traits such as stress, anxiety, fear, egg production, muscle performance, energetics and plant growth. Genomic analyses of AS are also at a nascent stage, but have revealed a number of significant evolutionary patterns. Growing knowledge of upstream genes and kinases that regulate AS provides the as-yet little explored potential to examine how these genes and pathways respond to environmental and genotype variables. Research in this area can provide glimpses of a labyrinth of genetic architectures that have rarely been considered in evolutionary and organismal biology, or in quantitative genetics. The scarcity of contribution to knowledge about AS from these fields is illustrated by the fact that heritability of quantitative variation in AS has not yet been determined for any gene in any organism. New research tactics that incorporate quantitative analyses of AS will allow organismal and evolutionary biologists to attain a fuller mechanistic understanding of many of the traits they study, and may lead to more rapid discovery of functionally important polymorphisms.

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“…20 Alternatively, these minute sequence changes may abrogate an intron splicing silencer in hsvtk2 otherwise present in hsvtk1 and 3. 21,22 It is noteworthy that the region of the hsvtk gene described to contain the SA 554 has been recently identified as an unusually short-sequence functioning as an internal ribosome entry site (IRES, 557-CCGUG CUGGCGU-568). 23 Although this IRES sequence is Rearrangements in retrovirally encoded hsvtk genes X Wang et al conserved between the three hsvtk variants discussed above, this secondary structure in conjunction with the nucleotide differences between the variants may be important in the appearance of a recombinogenic hot spot in hsvtk1.…”

Section: Discussionmentioning

confidence: 99%

Quantitative analysis of clinically relevant mutations occurring in lymphoid cells harboring γ-retrovirus-encoded hsvtk suicide genes

et al. 2008

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The in vivo regulation of T lymphocyte activity by the activation of a suicide mechanism is an essential paradigm for the safety of adoptive cell therapies. In light of reports showing that g-retroviral vector-encoded herpes simplex virus thymidine kinase (hsvtk) undergoes recombination, we undertook a thorough investigation of the genomic stability of SFG-based vectors using two variants of the wild-type hsvtk gene. In a large panel of independent clones, we demonstrate that both hsvtk genes undergo recombination with molecular signatures indicative of template switching in GC-rich regions displaying homology at the deletion junctions or RNA splicing. In the absence of ganciclovir selection, the frequency of recombination is 3% per retroviral replication cycle. Our results underscore the importance of the five nucleotide difference between the two hsvtk genes that account for the presence of recombinogenic hot spots in one variant and not the other, indicating that the probability of RNA splicing is influenced by minute nucleotide changes in sequences adjacent to the splice donor and acceptor sites. Furthermore, our mutational analysis in an unbiased panel of human lymphoid cells (that is, without immune or ganciclovirmediated selective pressure) provides a robust in vitro assay to predict and quantify clinically relevant mutations in hsvtk suicide genes, which can be applied to studying and improving the stability of any transgene expressed in g-retroviral or lentiviral vectors.

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Role of Viral Splicing Elements and Cellular RNA Binding Proteins in Regulation of HIV-1 Alternative RNA Splicing

Cited by 127 publications

References 85 publications

Serine- and Arginine-rich Proteins 55 and 75 (SRp55 and SRp75) Induce Production of HIV-1 vpr mRNA by Inhibiting the 5′-Splice Site of Exon 3

Serine- and Arginine-rich Proteins 55 and 75 (SRp55 and SRp75) Induce Production of HIV-1 vpr mRNA by Inhibiting the 5′-Splice Site of Exon 3

Quantitative and evolutionary biology of alternative splicing: how changing the mix of alternative transcripts affects phenotypic plasticity and reaction norms

Quantitative analysis of clinically relevant mutations occurring in lymphoid cells harboring γ-retrovirus-encoded hsvtk suicide genes

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