Folding to a well-defined conformation is essential for the function of structured ribonucleic acids (RNAs) like the ribosome and tRNA. Structured elements in the untranslated regions (UTRs) of specific messenger RNAs (mRNAs) are known to control expression. The importance of unstructured regions adopting multiple conformations, however, is still poorly understood. High-resolution SHAPE-directed Boltzmann suboptimal sampling of the Homo sapiens Retinoblastoma 1 (RB1) 5 ′ UTR yields three distinct conformations compatible with the experimental data. Private single nucleotide variants (SNVs) identified in two patients with retinoblastoma each collapse the structural ensemble to a single but distinct well-defined conformation. The RB1 5 ′ UTRs from Bos taurus (cow) and Trichechus manatus latirostris (manatee) are divergent in sequence from H. sapiens (human) yet maintain structural compatibility with high-probability base pairs. SHAPE chemical probing of the cow and manatee RB1 5 ′ UTRs reveals that they also adopt multiple conformations. Luciferase reporter assays reveal that 5 ′ UTR mutations alter RB1 expression. In a traditional model of disease, causative SNVs disrupt a key structural element in the RNA. For the subset of patients with heritable retinoblastoma-associated SNVs in the RB1 5 ′ UTR, the absence of multiple structures is likely causative of the cancer. Our data therefore suggest that selective pressure will favor multiple conformations in eukaryotic UTRs to regulate expression.
The host eIF4F translation initiation complex plays a critical role the translation of capped mRNAs. Although human cytomegalovirus (HCMV) infection increases the abundance and activity of the host eIF4F complex, the requirement for eIF4F components in HCMV replication and mRNA translation has not been directly tested. In this study, we found that decreasing the abundance or activity of eIF4F from the start of infection inhibits HCMV replication. However, as infection progresses, viral mRNA translation and replication becomes increasingly resistant to eIF4F inhibition. During the late stage of infection the association of representative immediate-early, early, and late mRNAs with polysomes was not affected by eIF4F disruption. In contrast, eIF4F inhibition decreased the translation of representative host eIF4F-dependent mRNAs during the late stage of infection. A global analysis of the translation efficiency of HCMV mRNAs during the late stage of infection found that eIF4F disruption had a minimal impact on the association of HCMV mRNAs with polysomes but significantly diminished the translation efficiency of eIF4F-dependent host transcripts. Together, our data show that the translation of host eIF4F-dependent mRNAs remains dependent on eIF4F activity during HCMV infection. However, during the late stage of infection the translation efficiency of viral mRNAs does not correlate with the abundance or activity of the host eIF4F complex.
Human cytomegalovirus (HCMV) was recently shown to encode a large number of spliced mRNAs. While the nuclear export of unspliced viral transcripts has been extensively studied, the role of host mRNA export factors in HCMV mRNA trafficking remains poorly defined. We found that the eIF4AIII RNA helicase, a component of the exon junction complex, was necessary for efficient virus replication. Depletion of eIF4AIII limited viral DNA accumulation, export of viral mRNAs from the nucleus, and the production of progeny virus. However eIF4AIII was dispensable for the association of viral transcripts with ribosomes. We found that pateamine A, a natural compound that inhibits both eIF4AI/II and eIF4AIII, has potent antiviral activity and inhibits HCMV replication throughout the virus lytic cycle. Our results demonstrate that eIF4AIII is required for efficient HCMV replication, and suggest that eIF4A family helicases may be a new class of targets for the development of host-directed antiviral therapeutics.
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