Arginine methylation facilitates the nuclear export of hnRNP proteins

Shen, Elisa C.; Henry, Michael F.; Weiss, Valerie H.; Valentini, Sandro Roberto; Silver, Pamela A.; Lee, Margaret

doi:10.1101/gad.12.5.679

Cited by 264 publications

(293 citation statements)

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“…Yeast PRMT1 (Rmt1) is recruited to actively transcribed genes during elongation, and its activity is also important for heterogenous nuclear ribonucleoprotein (hRNP)-mediated mRNA processing and export. This is evident from studies, which show that loss of Rmt1 results in accumulation of mRNA transcripts in the nucleus, and slows the process of mRNA maturation and export, because methylation of the hRNPs, Np13, and Hrp1 is required for their nuclear export (Shen et al, 1998;Yu et al, 2004). In humans, PRMT1 was identified by homology to yeast Hmt1/Rmt1.…”

Section: Protein Arginine Methyltransferasesmentioning

confidence: 89%

Interplay between chromatin remodelers and protein arginine methyltransferases

Pal

Sif

2007

Journal Cellular Physiology

138

124

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Chromatin modifying enzymes have emerged as key regulators of all DNA based processes, which control cell growth, development, and differentiation. Recently, it has become clear that different chromatin remodeling and histone-modifying activities are involved in transcriptional activation and repression. Among the enzymes involved in regulating chromatin structure is the family of protein arginine methyltransferases (PRMTs) that specializes in methylating both histones as well as key cellular proteins. There are eleven different PRMT genes (PRMT1-11) whose biological function remains under explored. PRMTs regulate various cellular processes such as DNA repair and transcription, RNA processing, signal transduction, and nucleo-cytoplasmic localization. Like histone lysine methylation, methylation of histone arginine residues can either induce or inhibit transcription depending on the residue being modified and the type of methylation being introduced. In this review, we will focus on the latest findings and biological roles of ATP-dependent chromatin remodeling complexes and PRMT enzymes, and how their aberrant expression is linked to cancer.

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Section: Protein Arginine Methyltransferasesmentioning

confidence: 89%

Interplay between chromatin remodelers and protein arginine methyltransferases

Pal

Sif

2007

Journal Cellular Physiology

138

124

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“…The predicted molecular weight of PABP2 is ;33 kDa (Nemeth et al+, 1995) and therefore, if the protein is present in the cell as free monomers, it is expected to passively diffuse through the pores and therefore equilibrate between the nucleus and the cytoplasm+ However, our finding that PABP2 targets to the nucleus a fusion protein (luciferase-PABP2, predicted molecular weight ;90 kDa) that is too large to cross the pores by simple diffusion provides evidence for involvement of a carrier-mediated mechanism+ This is further supported by the result that PABP2 binds directly and specifically to the nuclear import receptor transportin+ Until a few years ago, nuclear import studies were centered on proteins carrying either a mono-or a bipartite NLS being recognized by a heterodimeric carrier named importin a/b+ However, recent work led to the discovery of a second pathway for protein import mediated by an importin-b-related protein, termed transportin in mammals (Pollard et al+, 1996) and Kap104p in yeast (Aitchison et al+, 1996)+ In mammals transportin mediates import of a subset of hnRNP proteins, the best characterized of which is hnRNP A1 (Pollard et al+, 1996;Siomi et al+, 1997)+ The signal within hnRNP A1 that mediates its nuclear import is a stretch of 38 C-terminal amino acids termed the M9 domain (Siomi & Dreyfuss, 1995)+ Because hnRNP proteins are very abundant (10 6 -10 7 copies per cell), it has been speculated that transportin has evolved as a specialized carrier for these high abundance substrates, contrasting with the importin-a/b carrier that recognizes a broad range of cargoes but with most members present at relatively low abundance (Nigg, 1997)+ The data presented here demonstrate that PABP2 binds directly to transportin, thus providing evidence that PABP2 is a novel substrate for this carrier+ Importantly, PABP2 dissociates from transportin in the presence of RanGTP, suggesting that, in vivo, the high concentration of RanGTP in the nucleus triggers release of the cargo (PABP2) into the nucleoplasm, as previously demonstrated for the importin-a/b-mediated import pathway Izaurralde et al+, 1997b;Siomi et al+, 1997)+ The data also suggest that the NLS of PABP2 is contained in its C-terminal domain+ However, the C-terminal sequence of PABP2 (Fig+ 3, bottom diagram) shows no apparent homology with the M9 signal, raising the possibility that it represents a novel type of NLS+ An interesting feature of the C-terminus of PABP2 is that it is very rich in arginine residues, almost all of which are dimethylated (Smith et al+, 1999)+ N G ,N Gdimethylarginine is also a common modified amino acid in hnRNP proteins (Beyer et al+, 1977;Boffa et al+, 1977), and more recently, arginine methylation was shown to be important for the nuclear export of shuttling hnRNP proteins in yeast (Shen et al+, 1998)+ Therefore, an important question to be addressed in future studies is whether dimethylated arginines in the C-terminal domain of PABP2 play a role in transport of the protein in and out of the nucleus+…”

Section: Discussionmentioning

confidence: 99%

Deciphering the cellular pathway for transport of poly(A)-binding protein II

Calado

Kutay

Kühn³

et al. 2000

RNA

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Poly(A)-binding protein II (PABP2)is an abundant nuclear protein that binds with high affinity to nascent poly(A) tails, stimulating their extension and controlling their length. In the cytoplasm, a distinct protein (PABP1) binds to poly(A) tails and participates in mRNA translation and stability. How cytoplasmic PABP1 substitutes for nuclear PABP2 is still unknown. Here we report that PABP2 shuttles back and forth between nucleus and cytoplasm by a carrier-mediated mechanism. A potential novel type of nuclear localization signal exists at the C-terminus of the protein, a domain that is highly enriched in methylated arginines. PABP2 binds directly to transportin in a RanGTP-sensitive manner, suggesting an involvement of this transport receptor in mediating import of the protein into the nucleus. Although PABP2 is small enough to diffuse passively through the nuclear pores, protein fusion experiments reveal the existence of a facilitated export pathway. Accordingly, no transport of PABP2 to the cytoplasm occurs at 4 8C. In contrast, export of PABP2 continues in the absence of transcription, indicating that transport to the cytoplasm is independent of mRNA traffic. Thus, rather than leaving the nucleus as a passive passenger of mRNAs, the data suggest that PABP2 interacts with the nuclear export machinery and may therefore contribute to mRNA transport.

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“…The role of arginine methylation in regulating the export of shuttling proteins has been well documented (2,3,11,20,21,23,28,30). It has also been reported that arginine methylation regulates the import of several regulatory proteins with diverse functions, including Sam68, an RNA binding protein involved in export of unspliced HIV RNAs (9); RNA helicase A, which is involved in unwinding doubled-stranded RNA and DNA (29); high-molecular-weight forms of fibroblast growth factor 2 (25); and adenovirus 100K protein, which inhibits translation of cellular mRNA in the cytoplasm and regulates virion assembly in the nucleus (15).…”

mentioning

confidence: 99%

“…PRMT1 is the main methyltransferase in human cells (24), and this enzyme usually recognizes arginines within a glycine-argininerich region, which is a motif that is present in many RNA and DNA binding proteins. Arginine methylation has been shown to be important for modulating protein-protein interactions (3,14,21,32,33), for regulating export of shuttling proteins (11,20,28,35), and for regulating nuclear importation of several regulatory proteins in mammalian cells (9,15,25,29).…”

mentioning

confidence: 99%

Arginine Methylation of the RGG Box Does Not Appear To Regulate ICP27 Import during Herpes Simplex Virus Infection

Souki

Hernandez

Sandri‐Goldin

2011

J Virol

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Arginine methylation can regulate protein import and export and can modulate protein interactions. Herpes simplex virus 1 (HSV-1) ICP27 is a shuttling protein involved in viral mRNA export. We previously reported that ICP27 is methylated on three arginines within its RGG box and that arginine methylation regulates ICP27 export and its interaction with SRPK1 and Aly/REF. Here, we report that ICP27 was efficiently imported into the nucleus when hypomethylated as determined by Fluorescence Recovery After Photobleaching (FRAP). Furthermore, coimmunoprecipitation of ICP27 with ␤-importin was not significantly affected by ICP27 hypomethylation. Thus, ICP27 import does not appear to be regulated by arginine methylation.

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Arginine methylation facilitates the nuclear export of hnRNP proteins

Cited by 264 publications

References 60 publications

Interplay between chromatin remodelers and protein arginine methyltransferases

Interplay between chromatin remodelers and protein arginine methyltransferases

Deciphering the cellular pathway for transport of poly(A)-binding protein II

Arginine Methylation of the RGG Box Does Not Appear To Regulate ICP27 Import during Herpes Simplex Virus Infection

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