Therese A. Yario scite author profile

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.internal ribosome entry sites ͉ repression ͉ method of transfection ͉ let-7 miRNP ͉ translation efficiency

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Down-Regulation of a Host MicroRNA by a Herpesvirus saimiri Noncoding RNA

Cazalla

Yario

Steitz

2010

Science

438

424

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T cells transformed by Herpesvirus saimiri express seven viral U-rich noncoding RNAs of unknown function called HSURs. We noted that conserved sequences in HSURs 1 and 2 constitute potential binding sites for three host-cell microRNAs (miRNAs). Coimmunoprecipitation experiments confirmed that HSURs 1 and 2 interact with the predicted miRNAs in virally transformed T cells. The abundance of one of these miRNAs, miR-27, is dramatically lowered in transformed cells, with consequent effects on the expression of miR-27 target genes. Transient knockdown and ectopic expression of HSUR 1 demonstrate that it directs degradation of mature miR-27 in a sequence-specific and binding-dependent manner. This viral strategy illustrates use of a ncRNA to manipulate host-cell gene expression via the miRNA pathway.

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Formation of triple-helical structures by the 3′-end sequences of MALAT1 and MENβ noncoding RNAs

Brown

Valenstein

Yario

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

268

334

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Stability of the long noncoding-polyadenylated nuclear (PAN) RNA from Kaposi's sarcoma-associated herpesvirus is conferred by an expression and nuclear retention element (ENE). The ENE protects PAN RNA from a rapid deadenylation-dependent decay pathway via formation of a triple helix between the U-rich internal loop of the ENE and the 3′-poly(A) tail. Because viruses borrow molecular mechanisms from their hosts, we searched highly abundant human long-noncoding RNAs and identified putative ENE-like structures in metastasis-associated lung adenocarcinoma transcript 1 (MALAT1) and multiple endocrine neoplasia-β (MENβ) RNAs. Unlike the PAN ENE, the U-rich internal loops of both predicted cellular ENEs are interrupted by G and C nucleotides and reside upstream of genomically encoded A-rich tracts. We confirmed the ability of MALAT1 and MENβ sequences containing the predicted ENE and A-rich tract to increase the levels of an intronless β-globin reporter RNA. UV thermal denaturation profiles at different pH values support formation of a triple-helical structure composed of multiple U•A-U base triples and a single C•G-C base triple. Additional analyses of the MALAT1 ENE revealed that robust stabilization activity requires an intact triple helix, strong stems at the duplex-triplex junctions, a G-C base pair flanking the triplex to mediate potential A-minor interactions, and the 3′-terminal A of the A-rich tract to form a blunt-ended triplex lacking unpaired nucleotides at the duplextriplex junction. These examples of triple-helical, ENE-like structures in cellular noncoding RNAs, are unique.RNA stability | RNA tertiary interactions

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Therese A. Yario

Target mRNAs are repressed as efficiently by microRNA-binding sites in the 5′ UTR as in the 3′ UTR

Down-Regulation of a Host MicroRNA by a Herpesvirus saimiri Noncoding RNA

Formation of triple-helical structures by the 3′-end sequences of MALAT1 and MENβ noncoding RNAs

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