Identification of the Polypyrimidine Tract Binding Protein-associated Splicing Factor·p54(nrb) Complex as a Candidate DNA Double-strand Break Rejoining Factor

Bladen, Catherine L.; Udayakumar, Durga; Takeda, Yoshihiko; Dynan, William S.

doi:10.1074/jbc.m412758200

Cited by 102 publications

(113 citation statements)

References 37 publications

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“…61 Also, this complex might participate in DNA repair as a DNA double-strand break rejoining factor. 72 More recently, p54 nrb /PSF with the single Alu containing RNA where the majority (73%) of messengers distributed only in the cytoplasm. Binding to p54 nrb positively correlated with both promiscuous editing and selective nuclear retention.…”

Section: How Is Nuclear Retention Achieved and Regulated?mentioning

confidence: 99%

Gene regulation by SINES and inosines: biological consequences of A-to-I editing of Alu element inverted repeats

Carmichael¹

2008

Cell Cycle

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Section: How Is Nuclear Retention Achieved and Regulated?mentioning

confidence: 99%

Gene regulation by SINES and inosines: biological consequences of A-to-I editing of Alu element inverted repeats

Carmichael¹

2008

Cell Cycle

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“…More recently, SFPQ/NONO were shown to be stimulatory factors for U snRNA export (Izumi et al 2014) and DNA topoisomerase I (Straub et al 1998(Straub et al , 2000 together with a role in the nonhomologous end joining response to DNA double strand breaks (Bladen et al 2005). SFPQ also acts as a transcriptional regulator recruiting Sin3a, which in turn recruits histone deacetylase (HDAC) thus repressing transcription (Mathur et al 2001;Sewer et al 2002;Dong et al 2007).…”

Section: Introductionmentioning

confidence: 99%

Arginine methylation and citrullination of splicing factor proline- and glutamine-rich (SFPQ/PSF) regulates its association with mRNA

Snijders

Hautbergue

Bloom

et al. 2015

RNA

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Splicing factor proline-and glutamine-rich (SFPQ) also commonly known as polypyrimidine tract-binding protein-associatedsplicing factor (PSF) and its binding partner non-POU domain-containing octamer-binding protein (NONO/p54nrb), are highly abundant, multifunctional nuclear proteins. However, the exact role of this complex is yet to be determined. Following purification of the endogeneous SFPQ/NONO complex, mass spectrometry analysis identified a wide range of interacting proteins, including those involved in RNA processing, RNA splicing, and transcriptional regulation, consistent with a multifunctional role for SFPQ/NONO. In addition, we have identified several sites of arginine methylation in SFPQ/PSF using mass spectrometry and found that several arginines in the N-terminal domain of SFPQ/PSF are asymmetrically dimethylated. Furthermore, we find that the protein arginine N-methyltransferase, PRMT1, catalyzes this methylation in vitro and that this is antagonized by citrullination of SFPQ. Arginine methylation and citrullination of SFPQ/PSF does not affect complex formation with NONO. However, arginine methylation was shown to increase the association with mRNA in mRNP complexes in mammalian cells. Finally we show that the biochemical properties of the endogenous complex from cell lysates are significantly influenced by the ionic strength during purification. At low ionic strength, the SFPQ/NONO complex forms large heterogeneous protein assemblies or aggregates, preventing the purification of the SFPQ/NONO complex. The ability of the SFPQ/NONO complex to form varying protein assemblies, in conjunction with the effect of post-translational modifications of SFPQ modulating mRNA binding, suggests key roles affecting mRNP dynamics within the cell.

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“…It has been shown to act as a transcriptional regulator in several different cases, such as regulation of growth factor stimulated gene expression, 33,34 as a corepressor acting through Sin3A to recruit histone deacetylases (HDACs) and induce silencing, 35 and as part of a complex that activates the human CYP17 promoter in response to cAMP stimulation. 36,37 PSF has also been implicated in the regulation of topoisomerase I activity, 27,38 as a DNA doublestranded break repair factor, 39 and in nuclear retention of hyper-edited RNAs. 40 Lastly, PSF has been shown to repress the expression of HIV-1 gag/pol and env mRNAs through cis-acting instability elements (INS) that target degradation.…”

Section: Introductionmentioning

confidence: 99%

The Splicing Factor PSF is Part of a Large Complex That Assembles in the Absence of pre-mRNA and Contains All 5 snRNPs

Peng¹,

Hawkins²,

Link³

et al. 2006

RNA Biology

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Previously published online as a RNA Biology E-publication: http://www.landesbioscience.com/journals/rnabiology/abstract.php?id=3017 KEY WORDS Research PaperThe Splicing Factor PSF is Part of a Large Complex that Assembles in the Absence of pre-mRNA and Contains All 5 snRNPs ABSTRACT PSF (PTB-associated splicing factor) is a large nuclear protein that has been implicated in numerous processes including transcription and RNA splicing. It has been shown to directly associate with U5 snRNA and has also been found within numerous purified splicing complexes. Here, we show that when HeLa nuclear extracts are adjusted to splicing conditions, PSF is found as part of a large complex that contains all five snRNPs and most known splicing factors. Formation of the complex does not require addition of exogenous pre-mRNA substrate and occurs at 4˚C but is salt sensitive. Sedimentation experiments and identification of individual components by mass spectrometry revealed association with multiple nuclear factors, most of which overlap with spliceosome components.

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Identification of the Polypyrimidine Tract Binding Protein-associated Splicing Factor·p54(nrb) Complex as a Candidate DNA Double-strand Break Rejoining Factor

Cited by 102 publications

References 37 publications

Gene regulation by SINES and inosines: biological consequences of A-to-I editing of Alu element inverted repeats

Gene regulation by SINES and inosines: biological consequences of A-to-I editing of Alu element inverted repeats

Arginine methylation and citrullination of splicing factor proline- and glutamine-rich (SFPQ/PSF) regulates its association with mRNA

The Splicing Factor PSF is Part of a Large Complex That Assembles in the Absence of pre-mRNA and Contains All 5 snRNPs

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