2'-Fluoro-modified phosphorothioate oligonucleotide can cause rapid degradation of P54nrb and PSF. Shen, W; Liang, XH; Sun, H; Crooke, ST Nucleic acids research
43
4569-78
2015
概要を表示する
Synthetic oligonucleotides are used to regulate gene expression through different mechanisms. Chemical modifications of the backbone of the nucleic acid and/or of the 2' moiety of the ribose can increase nuclease stability and/or binding affinity of oligonucleotides to target molecules. Here we report that transfection of 2'-F-modified phosphorothioate oligonucleotides into cells can reduce the levels of P54nrb and PSF proteins through proteasome-mediated degradation. Such deleterious effects of 2'-F-modified oligonucleotides were observed in different cell types from different species, and were independent of oligonucleotide sequence, positions of the 2'-F-modified nucleotides in the oligonucleotides, method of delivery or mechanism of action of the oligonucleotides. Four 2'-F-modified nucleotides were sufficient to cause the protein reduction. P54nrb and PSF belong to Drosophila behavior/human splicing (DBHS) family. The third member of the family, PSPC1, was also reduced by the 2'-F-modified oligonucleotides. Preferential association of 2'-F-modified oligonucleotides with P54nrb was observed, which is partially responsible for the protein reduction. Consistent with the role of DBHS proteins in double-strand DNA break (DSB) repair, elevated DSBs were observed in cells treated with 2'-F-modified oligonucleotides, which contributed to severe impairment in cell proliferation. These results suggest that oligonucleotides with 2'-F modifications can cause non-specific loss of cellular protein(s). | | 25855809
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p54nrb/NONO regulates cyclic AMP-dependent glucocorticoid production by modulating phosphodiesterase mRNA splicing and degradation. Lu, JY; Sewer, MB Mol Cell Biol
35
1223-37
2015
概要を表示する
Glucocorticoid production in the adrenal cortex is activated in response to an increase in cyclic AMP (cAMP) signaling. The nuclear protein p54(nrb)/NONO belongs to the Drosophila behavior/human splicing (DBHS) family and has been implicated in several nuclear processes, including transcription, splicing, and RNA export. We previously identified p54(nrb)/NONO as a component of a protein complex that regulates the transcription of CYP17A1, a gene required for glucocorticoid production. Based on the multiple mechanisms by which p54(nrb)/NONO has been shown to control gene expression and the ability of the protein to be recruited to the CYP17A1 promoter, we sought to further define the molecular mechanism by which p54(nrb)/NONO confers optimal cortisol production. We show here that silencing p54(nrb)/NONO expression in H295R human adrenocortical cells decreases the ability of the cells to increase intracellular cAMP production and subsequent cortisol biosynthesis in response to adrenocorticotropin hormone (ACTH) stimulation. Interestingly, the expression of multiple phosphodiesterase (PDE) isoforms, including PDE2A, PDE3A, PDE3B, PDE4A, PDE4D, and PDE11A, was induced in p54(nrb)/NONO knockdown cells. Investigation of the mechanism by which silencing of p54(nrb)/NONO led to increased expression of select PDE isoforms revealed that p54(nrb)/NONO regulates the splicing of a subset of PDE isoforms. Importantly, we also identify a role for p54(nrb)/NONO in regulating the stability of PDE transcripts by facilitating the interaction between the exoribonuclease XRN2 and select PDE transcripts. In summary, we report that p54(nrb)/NONO modulates cAMP-dependent signaling, and ultimately cAMP-stimulated glucocorticoid biosynthesis by regulating the splicing and degradation of PDE transcripts. | | 25605330
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Phosphorothioate oligonucleotides can displace NEAT1 RNA and form nuclear paraspeckle-like structures. Shen, W; Liang, XH; Crooke, ST Nucleic Acids Res
42
8648-62
2014
概要を表示する
Nuclear paraspeckles are built co-transcriptionally around a long non-coding RNA, NEAT1. Here we report that transfected 20-mer phosphorothioate-modified (PS) antisense oligonucleotides (ASOs) can recruit paraspeckle proteins to form morphologically normal and apparently functional paraspeckle-like structures containing no NEAT1 RNA. PS-ASOs can associate with paraspeckle proteins, including P54nrb, PSF, PSPC1 and hnRNPK. NEAT1 RNA can be displaced by transfected PS-ASO from paraspeckles and rapidly degraded. Co-localization of PS-ASOs with P54nrb was observed in canonical NEAT1-containing paraspeckles, in perinucleolar caps upon transcriptional inhibition, and importantly, in paraspeckle-like or filament structures lacking NEAT1 RNA. The induced formation of paraspeckle-like and filament structures occurred in mouse embryonic stem cells expressing little or no NEAT1 RNA, suggesting that PS-ASOs can serve as seeding molecules to assemble paraspeckle-like foci in the absence of NEAT1 RNA. Moreover, CTN, an RNA reported to be functionally retained in paraspeckles, was also observed to localize to paraspeckle-like structures, implying that paraspeckle-like structures assembled on PS-ASOs are functional. Together, our results indicate that functional paraspeckles can form with short nucleic acids other than NEAT1 RNA. | Immunoprecipitation | 25013176
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