Viral infections are known to hijack the transcription and translation of the host cell. However, the extent to which viral proteins coordinate these perturbations remains unclear. Here we used a model system, the human T-cell leukemia virus type 1 (HTLV-1), and systematically analyzed the transcriptome and interactome of key effectors oncoviral proteins Tax and HBZ. We showed that Tax and HBZ target distinct but also common transcription factors. Unexpectedly, we also uncovered a large set of interactions with RNA-binding proteins, including the U2 auxiliary factor large subunit (U2AF2), a key cellular regulator of pre-mRNA splicing. We discovered that Tax and HBZ perturb the splicing landscape by altering cassette exons in opposing manners, with Tax inducing exon inclusion while HBZ induces exon exclusion. Among Tax- and HBZ-dependent splicing changes, we identify events that are also altered in Adult T cell leukemia/lymphoma (ATLL) samples from two independent patient cohorts, and in well-known cancer census genes. Our interactome mapping approach, applicable to other viral oncogenes, has identified spliceosome perturbation as a novel mechanism coordinated by Tax and HBZ to reprogram the transcriptome.
SUMMARYWhile viral infections are known to hijack the transcription and translation of the host cell, the extent to which encoded viral proteins coordinate these perturbations remains unclear. Here we demonstrate that the oncoviral proteins Tax and HBZ interact with specific components of the spliceosome machinery, including the U2 auxiliary factor large subunit (U2AF2), and the complementary factor for APOBEC-1 (A1CF), respectively. Tax and HBZ perturb the splicing landscape in T-cells by altering cassette exons in opposing manners, with Tax inducing exon inclusion while HBZ induces exon exclusion. Among Tax- and HBZ-dependent splicing changes, we identify events that are also altered in Adult T cell leukemia (ATL) patients, and in well-known cancer census genes. Our interactome mapping approach, applicable to other viral oncogenes, has identified spliceosome perturbation as a novel mechanism coordinately used by Tax and HBZ to reprogram the transcriptome.HighlightsTax and HBZ interact with RNA-binding proteins as well as transcription factorsHTLV-1 encoded proteins Tax and HBZ alter the splicing landscape in T-cellsTax and HBZ expression affect alternative splicing of 33 and 63 cancer genes, respectivelyOpposing roles for Tax and HBZ in deregulation of gene expressionGraphical abstract
SUMMARYHuman T-cell leukemia virus type-1 (HTLV-1) is the first pathogenic retrovirus discovered in human. Although HTLV-1-induced diseases are well characterized and linked to the encoded Tax-1 protein, there is currently no strategy to target Tax-1 functions with small molecules. Here, we report a comprehensive interaction map between Tax-1 and human PDZ domain-containing proteins (hPDZome), and we show that Tax-1 interacts with one-third of them. This includes proteins involved in cell cycle, cell-cell junction and cytoskeleton organization, as well as in membrane complexes assembly. Using nuclear magnetic resonance (NMR) spectroscopy, we have determined the structural basis of the interaction between the C-terminal PDZ binding motif (PBM) of Tax-1, and the PDZ domains of DLG1 and syntenin-1. Finally, we have used molecular modeling and mammalian cell-based assays to demonstrate that Tax-1/PDZ-domain interactions are amenable to small-molecule inhibition. Thus, our work provides a framework for the design of targeted therapies for HTLV-1-induced diseases.Highlightscomprehensive interactome map of HTLV-1 Tax / human PDZ proteinsbasis of Tax-1 PBM binding to human DLG1 and syntenin-1 PDZ domains”.significance of inhibiting Tax-1 functionsof the Tax-1 / PDZ interfaceGraphical abstract
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