Cameron L. Noland scite author profile

Summary RNA-mediated gene silencing in human cells requires the accurate generation of ∼22-nucleotide microRNAs (miRNAs) from double-stranded RNA substrates by the endonuclease Dicer. Although the phylogenetically conserved RNA-binding proteins TRBP and PACT are known to contribute to this process, their mode of Dicer binding and their genome-wide effects on miRNA processing have not been determined. We solved the crystal structure of a human Dicer–TRBP interaction complex comprising two domains of previously unknown structure. Interface residues conserved between TRBP and PACT show that the proteins bind to Dicer in a similar manner and by mutual exclusion. Based on the structure, a catalytically active Dicer that cannot bind TRBP or PACT was designed and introduced into Dicer-deficient mammalian cells, revealing selective defects in guide strand selection. These results demonstrate the role of Dicer-associated RNA binding proteins in maintenance of gene silencing fidelity.

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Palmitoylation of TEAD Transcription Factors Is Required for Their Stability and Function in Hippo Pathway Signaling

Noland¹,

Gierke²,

Schnier³

et al. 2016

Structure

202

223

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The Hippo signaling pathway is responsible for regulating the function of TEAD family transcription factors in metazoans. TEADs, with their co-activators YAP/TAZ, are critical for controlling cell differentiation and organ size through their transcriptional activation of genes involved in cell growth and proliferation. Dysregulation of the Hippo pathway has been implicated in multiple forms of cancer. Here, we identify a novel form of regulation of TEAD family proteins. We show that human TEADs are palmitoylated at a universally conserved cysteine, and report the crystal structures of the human TEAD2 and TEAD3 YAP-binding domains in their palmitoylated forms. These structures show a palmitate bound within a highly conserved hydrophobic cavity at each protein's core. Our findings also demonstrate that this modification is required for proper TEAD folding and stability, indicating a potential new avenue for pharmacologically regulating the Hippo pathway through the modulation of TEAD palmitoylation.

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Structural insights into RNA processing by the human RISC-loading complex

Wang

Noland

Siridechadilok

et al. 2009

Nat Struct Mol Biol

228

212

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Targeted gene silencing by RNA interference (RNAi) requires loading of a short guide RNA (siRNA or miRNA) into an Argonaute protein to form the functional center of an RNA-induced silencing complex (RISC). In humans, Argonaute2 (Ago2) assembles with the guide RNA-generating enzyme Dicer and the RNA-binding protein TRBP to form a RISC-loading complex (RLC) necessary for efficient transfer of nascent siRNAs and miRNAs from Dicer to Ago2. Here we show, using single-particle electron microscopy analysis, that human Dicer exhibits an L-shaped structure. Withn the RLC Dicer's N-terminal DExH/D domain, located at the short base branch, interacts with TRBP, while its C-terminal catalytic domains in the main body are proximal to Ago2. A model generated by docking the available atomic structures of Dicer and Argonaute homologs into the RLC reconstruction suggests a mechanism for siRNA transfer from Dicer to Ago2.

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Differential roles of human Dicer-binding proteins TRBP and PACT in small RNA processing

et al. 2013

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During RNA interference and related gene regulatory pathways, the endonuclease Dicer cleaves precursor RNA molecules to produce microRNAs (miRNAs) and short interfering RNAs (siRNAs). Human cells encode a single Dicer enzyme that can associate with two different double-stranded RNA (dsRNA)-binding proteins, protein activator of PKR (PACT) and trans-activation response RNA-binding protein (TRBP). However, the functional redundancy or differentiation of PACT and TRBP in miRNA and siRNA biogenesis is not well understood. Using a reconstituted system, we show here that PACT and TRBP have distinct effects on Dicer-mediated dsRNA processing. In particular, we found that PACT in complex with Dicer inhibits the processing of pre-siRNA substrates when compared with Dicer and a Dicer–TRBP complex. In addition, PACT and TRBP show non-redundant effects on the production of different-sized miRNAs (isomiRs), which in turn alter target-binding specificities. Experiments using chimeric versions of PACT and TRBP suggest that the two N-terminal RNA-binding domains of each protein confer the observed differences in dsRNA substrate recognition and processing behavior of Dicer–dsRNA-binding protein complexes. These results support the conclusion that in humans, Dicer-associated dsRNA-binding proteins are important regulatory factors that contribute both substrate and cleavage specificity during miRNA and siRNA production.

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Cameron L. Noland

Dicer-TRBP Complex Formation Ensures Accurate Mammalian MicroRNA Biogenesis

Palmitoylation of TEAD Transcription Factors Is Required for Their Stability and Function in Hippo Pathway Signaling

Structural insights into RNA processing by the human RISC-loading complex

Differential roles of human Dicer-binding proteins TRBP and PACT in small RNA processing

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