Tomoko Okada scite author profile

RNA silencing is a conserved mechanism in which small RNAs trigger various forms of sequence-specific gene silencing by guiding Argonaute complexes to target RNAs by means of base pairing. RNA silencing is thought to have evolved as a form of nucleic-acid-based immunity to inactivate viruses and transposable elements. Although the activity of transposable elements in animals has been thought largely to be restricted to the germ line, recent studies have shown that they may also actively transpose in somatic cells, creating somatic mosaicism in animals. In the Drosophila germ line, Piwi-interacting RNAs arise from repetitive intergenic elements including retrotransposons by a Dicer-independent pathway and function through the Piwi subfamily of Argonautes to ensure silencing of retrotransposons. Here we show that, in cultured Drosophila S2 cells, Argonaute 2 (AGO2), an AGO subfamily member of Argonautes, associates with endogenous small RNAs of 20-22 nucleotides in length, which we have collectively named endogenous short interfering RNAs (esiRNAs). esiRNAs can be divided into two groups: one that mainly corresponds to a subset of retrotransposons, and the other that arises from stem-loop structures. esiRNAs are produced in a Dicer-2-dependent manner from distinctive genomic loci, are modified at their 3' ends and can direct AGO2 to cleave target RNAs. Mutations in Dicer-2 caused an increase in retrotransposon transcripts. Together, our findings indicate that different types of small RNAs and Argonautes are used to repress retrotransposons in germline and somatic cells in Drosophila.

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MALAT‐1 enhances cell motility of lung adenocarcinoma cells by influencing the expression of motility‐related genes

Tano

Mizuno

Okada³

et al. 2010

FEBS Letters

386

299

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a b s t r a c tMALAT-1, a long non-coding RNA, is associated with metastasis, but its role in the metastatic process remains unknown. Here, we show that short-interfering RNA-mediated MALAT-1 silencing impaired in vitro cell motility of lung cancer cells and influenced the expression of numerous genes. In these genes, knockdown of any one of CTHRC1, CCT4, HMMR, or ROD1 clearly inhibited cell migration. In MALAT-1 knockdown cells, pre-mRNA levels were decreased in some but not all genes. Thus, our findings suggest that MALAT-1 is a novel class of non-coding RNA that promotes cell motility through transcriptional and post-transcriptional regulation of motility related gene expression.

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Functional involvement of Tudor and dPRMT5 in the piRNA processing pathway in Drosophila germlines

Nishida

Okada

Kawamura

et al. 2009

EMBO J

185

237

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In Drosophila, the PIWI proteins, Aubergine (Aub), AGO3, and Piwi are expressed in germlines and function in silencing transposons by associating with PIWI-interacting RNAs (piRNAs). Recent studies show that PIWI proteins contain symmetric dimethyl-arginines (sDMAs) and that dPRMT5/Capsuleen/DART5 is the modifying enzyme. Here, we show that Tudor (Tud), one of Tud domaincontaining proteins, associates with Aub and AGO3, specifically through their sDMA modifications and that these three proteins form heteromeric complexes. piRNA precursor-like molecules are detected in these complexes. The expression levels of Aub and AGO3, along with their degree of sDMA modification, were not changed by tud mutations. However, the population of transposon-derived piRNAs associated with Aub and AGO3 was altered by tud mutations, whereas the total amounts of small RNAs on Aub and AGO3 was increased. Loss of dprmt5 did not change the stability of Aub, but impaired its association with Tud and lowered piRNA association with Aub. Thus, in germline cells, piRNAs are quality-controlled by dPRMT5 that modifies PIWI proteins, in tight association with Tud.

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Fucoxanthin regulates adipocytokine mRNA expression in white adipose tissue of diabetic/obese KK-A mice

Hosokawa

Miyashita

Nishikawa

et al. 2010

Archives of Biochemistry and Biophysics

166

144

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Tomoko Okada

Drosophila endogenous small RNAs bind to Argonaute 2 in somatic cells

MALAT‐1 enhances cell motility of lung adenocarcinoma cells by influencing the expression of motility‐related genes

Functional involvement of Tudor and dPRMT5 in the piRNA processing pathway in Drosophila germlines

Fucoxanthin regulates adipocytokine mRNA expression in white adipose tissue of diabetic/obese KK-A mice

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