J Robin Lytle

Publications (5)34.29 Total impact

• Source

  Available from: pnas.org

  Article: Target mRNAs are repressed as efficiently by microRNA-binding sites in the 5' UTR as in the 3' UTR.

  J Robin Lytle, Therese A Yario, Joan A Steitz
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  ABSTRACT: In animals, microRNAs (miRNAs) bind to the 3' UTRs of their target mRNAs and interfere with translation, although the exact mechanism of inhibition of protein synthesis remains unclear. Functional miRNA-binding sites in the coding regions or 5' UTRs of endogenous mRNAs have not been identified. We studied the effect of introducing miRNA target sites into the 5' UTR of luciferase reporter mRNAs containing internal ribosome entry sites (IRESs), so that potential steric hindrance by a microribonucleoprotein complex would not interfere with the initiation of translation. In human HeLa cells, which express endogenous let-7a miRNA, the translational efficiency of these IRES-containing reporters with 5' let-7 complementary sites from the Caenorhabditis elegans lin-41 3' UTR was repressed. Similarly, the IRES-containing reporters were translationally repressed when human Ago2 was tethered to either the 5' or 3' UTR. Interestingly, the method of DNA transfection affected our ability to observe miRNA-mediated repression. Our results suggest that association with any position on a target mRNA is mechanistically sufficient for a microribonucleoprotein to exert repression of translation at some step downstream of initiation.
  Proceedings of the National Academy of Sciences 07/2007; 104(23):9667-72. · 9.68 Impact Factor
• Article: Small nuclear RNAs encoded by Herpesvirus saimiri upregulate the expression of genes linked to T cell activation in virally transformed T cells.

  Heidi L Cook, J Robin Lytle, Hannah E Mischo, Ming-Jie Li, John J Rossi, Daniel P Silva, Ronald C Desrosiers, Joan A Steitz
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  ABSTRACT: Seven small nuclear RNAs of the Sm class are encoded by Herpesvirus saimiri (HVS), a gamma Herpesvirus that causes aggressive T cell leukemias and lymphomas in New World primates and efficiently transforms T cells in vitro. The Herpesvirus saimiri U RNAs (HSURs) are the most abundant viral transcripts in HVS-transformed, latently infected T cells but are not required for viral replication or transformation in vitro. We have compared marmoset T cells transformed with wild-type or a mutant HVS lacking the most highly conserved HSURs, HSURs 1 and 2. Microarray and Northern analyses reveal that HSUR 1 and 2 expression correlates with significant increases in a small number of host mRNAs, including the T cell-receptor beta and gamma chains, the T cell and natural killer (NK) cell-surface receptors CD52 and DAP10, and intracellular proteins--SKAP55, granulysin, and NKG7--linked to T cell and NK cell activation. Upregulation of three of these transcripts was rescued after transduction of deletion-mutant-HVS-transformed cells with a lentiviral vector carrying HSURs 1 and 2. These changes indicate an unexpected role for the HSURs in regulating a remarkably defined and physiologically relevant set of host targets involved in the activation of virally transformed T cells during latency.
  Current Biology 06/2005; 15(10):974-9. · 9.65 Impact Factor
• Source

  Available from: ncbi.nlm.nih.gov

  Article: Premature termination codons do not affect the rate of splicing of neighboring introns.

  J Robin Lytle, Joan A Steitz
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  ABSTRACT: Introduction of a premature termination codon (PTC) into an exon of a gene can lead to nonsense-mediated decay of the mRNA, which is best characterized as a cytoplasmic event. However, increasing evidence has suggested that PTCs may also influence the nuclear processing of an RNA transcript, leading to models of nuclear surveillance perhaps involving translating nuclear ribosomes. We used quantitative RT-PCR to measure the in vivo steady-state levels of every exon-intron junction in wild-type, PTC-containing, and missense-containing precursor mRNAs of both the nonrearranging dihydrofolate reductase (DHFR) and the somatically rearranging Ig- micro genes. We find that each exon-intron junction's abundance and, therefore, the rate of intron removal, is not significantly affected by the presence of a PTC in a neighboring exon in either the DHFR or Ig- micro pre-mRNA. Similarly, the abundance of the uncleaved Ig- micro polyadenylation sites does not differ between wild-type and PTC-containing Ig- micro pre-mRNAs. Our Ig- micro data were confirmed by RNase protection analyses, and multiple cell isolates were examined to resolve differences with previously published data on steady-state pre-mRNA levels. We conclude that the presence of a PTC affects the rate of neither splicing nor the cleavage step of 3' end formation during pre-mRNA processing in the nucleus. Our results are discussed with respect to existing evidence for nuclear surveillance mechanisms.
  RNA 05/2004; 10(4):657-68. · 5.09 Impact Factor
• Source

  Available from: cshlp.org

  Article: Domains on the hepatitis C virus internal ribosome entry site for 40s subunit binding.

  J Robin Lytle, Lily Wu, Hugh D Robertson
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  ABSTRACT: The internal ribosome entry site (IRES) of the hepatitis C virus (HCV) RNA is known to interact with the 40S ribosomal subunit alone, in the absence of any additional initiation factors or Met-tRNAi. Previous work from this laboratory on the 80S and 48S ribosomal initiation complexes involving the HCV IRES showed that stem-loop III, the pseudoknot domain, and some coding sequence were protected from pancreatic RNase digestion. Stem-loop II is never protected by these complexes. Furthermore, there is no prior evidence reported showing extensive direct binding of stem-loop II to ribosomes or subunits. Using direct analysis of RNase-protected HCV IRES domains bound to 40S ribosomal subunits, we have determined that stem-loops II and III and the pseudoknot of the HCV IRES are involved in this initial binding step. The start AUG codon is only minimally protected. The HCV-40S subunit binary complex thus involves recognition and binding of stem-loop II, revealing its role in the first step of a multistep initiation process that may also involve rearrangement of the bound IRES RNA as it progresses.
  RNA 09/2002; 8(8):1045-55. · 5.09 Impact Factor
• Article: Specific cleavage of hepatitis C virus RNA genome by human RNase P.

  Anna Nadal, María Martell, J Robin Lytle, Alita J Lyons, Hugh D Robertson, Beatriz Cabot, Juan I Esteban, Rafael Esteban, Jaime Guardia, Jordi Gómez
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  ABSTRACT: We have found that RNase P from HeLa cells specifically and efficiently cleaves hepatitis C virus (HCV) transcripts in vitro. The evidence includes identification of the 5'-phosphate polarity of the newly generated termini at position A(2860) as well as immunological and biochemical assays. Active cleavage has been shown in five dominant sequences of HCV "quasispecies" differing at or near the position of cleavage, demonstrating that this is a general property of HCV RNA. During the analysis, a second cleavage event was found in the 3' domain of the internal ribosome entry site. We have found that HCV RNA competitively inhibits pre-tRNA cleavage by RNase P, suggesting that HCV RNA has structural similarities to tRNA. This finding sets HCV apart from other pathogens causing serious human diseases and represents the first description of human RNase P-viral RNA cleavage. Here we discuss the possible meaning of these RNase P-accessible structures built into the viral genome and their possible role in vivo. Moreover, such structures within the viral genome might be vulnerable to attack by therapeutic strategies.
  Journal of Biological Chemistry 09/2002; 277(34):30606-13. · 4.77 Impact Factor