Johannes Danner scite author profile

Argonaute proteins associate with microRNAs and are key components of gene silencing pathways. With such a pivotal role, these proteins represent ideal targets for regulatory post-translational modifications. Using quantitative mass spectrometry, we find that a C-terminal serine/threonine cluster is phosphorylated at five different residues in human and In human, hyper-phosphorylation does not affect microRNA binding, localization, or cleavage activity of Ago2. However, mRNA binding is strongly affected. Strikingly, on Ago2 mutants that cannot bind microRNAs or mRNAs, the cluster remains unphosphorylated indicating a role at late stages of gene silencing. In, the phosphorylation of the conserved cluster of ALG-1 is essential for microRNA function Furthermore, a single point mutation within the cluster is sufficient to phenocopy the loss of its complete phosphorylation. Interestingly, this mutant retains its capacity to produce and bind microRNAs and represses expression when artificially tethered to an mRNA Altogether, our data suggest that the phosphorylation state of the serine/threonine cluster is important for Argonaute-mRNA interactions.

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Importin-β facilitates nuclear import of human GW proteins and balances cytoplasmic gene silencing protein levels

Schraivogel

Schindler

Danner

et al. 2015

Nucleic Acids Res

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MicroRNAs (miRNAs) guide Argonaute (Ago) proteins to distinct target mRNAs leading to translational repression and mRNA decay. Ago proteins interact with a member of the GW protein family, referred to as TNRC6A-C in mammals, which coordinate downstream gene-silencing processes. The cytoplasmic functions of TNRC6 and Ago proteins are reasonably well established. Both protein families are found in the nucleus as well. Their detailed nuclear functions, however, remain elusive. Furthermore, it is not clear which import routes Ago and TNRC6 proteins take into the nucleus. Using different nuclear transport assays, we find that Ago as well as TNRC6 proteins shuttle between the cytoplasm and the nucleus. While import receptors might function redundantly to transport Ago2, we demonstrate that TNRC6 proteins are imported by the Importin-β pathway. Finally, we show that nuclear localization of both Ago2 and TNRC6 proteins can depend on each other suggesting actively balanced cytoplasmic Ago – TNRC6 levels.

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The Long Non-coding RNA lnc-31 Interacts with Rock1 mRNA and Mediates Its YB-1-Dependent Translation

et al. 2018

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SummaryCytoplasmic long non-coding RNAs have been shown to act at many different levels to control post-transcriptional gene expression, although their role in translational control is poorly understood. Here, we show that lnc-31, a non-coding RNA required for myoblast proliferation, promotes ROCK1 protein synthesis by stabilizing its translational activator, YB-1. We find that lnc-31 binds to the Rock1 mRNA as well as to the YB-1 protein and that translational activation requires physical interaction between the two RNA species. These results suggest a localized effect of YB-1 stabilization on the Rock1 mRNA. ROCK1 upregulation by lnc-31, in proliferative conditions, correlates well with the differentiation-repressing activity of ROCK1. We also show that, upon induction of differentiation, the downregulation of lnc-31, in conjunction with miR-152 targeting of Rock1, establishes a regulatory loop that reinforces ROCK1 repression and promotes myogenesis.

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Prevention of dsRNA‐induced interferon signaling by AGO1x is linked to breast cancer cell proliferation

et al. 2020

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Translational readthrough, i.e., elongation of polypeptide chains beyond the stop codon, was initially reported for viral RNA, but later found also on eukaryotic transcripts, resulting in proteome diversification and protein‐level modulation. Here, we report that AGO1x, an evolutionarily conserved translational readthrough isoform of Argonaute 1, is generated in highly proliferative breast cancer cells, where it curbs accumulation of double‐stranded RNAs (dsRNAs) and consequent induction of interferon responses and apoptosis. In contrast to other mammalian Argonaute protein family members with primarily cytoplasmic functions, AGO1x exhibits nuclear localization in the vicinity of nucleoli. We identify AGO1x interaction with the polyribonucleotide nucleotidyltransferase 1 (PNPT1) and show that the depletion of this protein further augments dsRNA accumulation. Our study thus uncovers a novel function of an Argonaute protein in buffering the endogenous dsRNA‐induced interferon responses, different than the canonical function of AGO proteins in the miRNA effector pathway. As AGO1x expression is tightly linked to breast cancer cell proliferation, our study thus suggests a new direction for limiting tumor growth.

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Peptide-Based Inhibition of miRNA-Guided Gene Silencing

Danner

Pai

Wankerl

et al. 2016

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MicroRNAs (miRNAs) are a large class of small noncoding RNAs that regulate the expression of distinct target mRNAs. miRNAs are incorporated into Argonaute (AGO) proteins and guide them to their target mRNAs. Subsequently, AGO proteins recruit a member of the glycine-tryptophan-rich (GW) protein family by direct protein-protein interaction. GW proteins coordinate all downstream processes leading to robust and efficient gene silencing. A short peptide of GW proteins comprising the AGO interaction motif can be used to biochemically isolate endogenous AGO protein complexes. Furthermore, within a cell such a peptide competes with endogenous GW proteins for AGO binding and thus can be used as potent inhibitor of the miRNA pathway. Here, we describe a method that utilizes a GW-based polypeptide (T6B-assay) to validate miRNA-mRNA interactions in tissue culture systems.

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Johannes Danner

Phosphorylation of Argonaute proteins affects mRNA binding and is essential for micro RNA ‐guided gene silencing in vivo

Importin-β facilitates nuclear import of human GW proteins and balances cytoplasmic gene silencing protein levels

The Long Non-coding RNA lnc-31 Interacts with Rock1 mRNA and Mediates Its YB-1-Dependent Translation

Prevention of dsRNA‐induced interferon signaling by AGO1x is linked to breast cancer cell proliferation

Peptide-Based Inhibition of miRNA-Guided Gene Silencing

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