SRPK2: A Differentially Expressed SR Protein-specific Kinase Involved in Mediating the Interaction and Localization of Pre-mRNA Splicing Factors in Mammalian Cells

Wang, Huan-You; Lin, Wen; Dyck, Jacqueline A.; Yeakley, Joanne M.; Songyang, Zhou; Cantley, Lewis C.; Fu, Xiang‐Dong

doi:10.1083/jcb.140.4.737

Cited by 285 publications

(347 citation statements)

References 62 publications

(132 reference statements)

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“…addition, the SR proteins are phosphorylated predominately on serine residues in the RS domain [14,16,17], presumably by SR protein-specific kinases, including the SR protein kinases (SRPKs) [17,18] and the Cdc2\Cdc28-like kinases (CLK\STY) [16]. The phosphorylation affects the cellular localization and the protein-RNA interactions of the SR proteins [19].…”

Section: Introductionmentioning

confidence: 99%

Interactions between two fission yeast serine/arginine-rich proteins and their modulation by phosphorylation

Tang

Käufer

Lin

2002

Biochemical Journal

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The unexpected low number of genes in the human genome has triggered increasing attention to alternative pre-mRNA splicing, and serine\arginine-rich (SR) proteins have been correlated with the complex alternative splicing that is a characteristic of metazoans. SR proteins interact with RNA and splicing protein factors, and they also undergo reversible phosphorylation, thereby regulating constitutive and alternative splicing in mammals and Drosophila. However, it is not clear whether the features of SR proteins and alternative splicing are present in simple and genetically tractable organisms, such as yeasts. In the present study, we show that the SR-like proteins Srp1 and Srp2, found in the fission yeast Schizosaccharomyces pombe, interact with each other and the interaction is modulated by protein phosphorylation. By using Srp1 as bait in a yeast two-hybrid

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Section: Introductionmentioning

confidence: 99%

Interactions between two fission yeast serine/arginine-rich proteins and their modulation by phosphorylation

Tang

Käufer

Lin

2002

Biochemical Journal

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“…A number of mammalian kinases have been shown to cause disassembly of nuclear speckles and relocalization of splicing factors, and to subsequently affect splicing factor activity. SRPK-1/2, Clk-1/2/3/4, cdc2-kinase, cyclin Ecdk2, topoisomerase I, U1 70-kDa associated kinase, cGMPdependent kinase, and lamin B-receptor kinase were all shown to phosphorylate SR proteins and other splicing factors in vitro (Woppmann et al, 1993;Gui et al, 1994;Colwill et al, 1996;Nikolakaki et al, 1996;Rossi et al, 1996;Nayler et al, 1997;Duncan et al, 1998;Kuroyanagi et al, 1998;Okamoto et al, 1998;Seghezzi et al, 1998;Wang et al, 1998;Koizumi et al, 1999;Wang et al, 1999). In addition, some of these kinases were shown to affect the splicing activity of such factors (Mermoud et al, 1994;Cao et al, 1997;Xiao and Manley, 1998;Prasad et al, 1999).…”

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confidence: 99%

“…How all of these enzymes work in concert in vivo, if at all, is unknown. Cell-and tissue-specific differences in expression of these kinases (Nayler et al, 1997;Kuroyanagi et al, 1998;Wang et al, 1998;Papoutsopoulou et al, 1999) can only provide a partial explanation. A more likely hypothesis is that different kinases are recruited to nuclear speckles during different cell states and phosphorylate splicing factors in a manner specific to their biochemical properties.…”

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confidence: 99%

Nuclear Relocalization of the Pre-mRNA Splicing Factor PSF during Apoptosis Involves Hyperphosphorylation, Masking of Antigenic Epitopes, and Changes in Protein Interactions

Shav‐Tal

Cohen

Lapter

et al. 2001

MBoC

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The spatial nuclear organization of regulatory proteins often reflects their functional state. PSF, a factor essential for pre-mRNA splicing, is visualized by the B92 mAb as discrete nuclear foci, which disappeared during apoptosis. Because this mode of cell death entails protein degradation, it was considered that PSF, which like other splicing factors is sensitive to proteolysis, might be degraded. Nonetheless, during the apoptotic process, PSF remained intact and was N-terminally hyperphosphorylated on serine and threonine residues. Retarded gel migration profiles suggested differential phosphorylation of the molecule in mitosis vs. apoptosis and under-phosphorylation during blockage of cells at G1/S. Experiments with the use of recombinant GFP-tagged PSF provided evidence that in the course of apoptosis the antigenic epitopes of PSF are masked and that PSF reorganizes into globular nuclear structures. In apoptotic cells, PSF dissociated from PTB and bound new partners, including the U1-70K and SR proteins and therefore may acquire new functions. INTRODUCTIONSplicing factors are found within the nucleus both in a diffuse form and in distinct domains termed interchromatin granules (IG) or "speckles" (Spector, 1993). These functional compartments are spatially dynamic with regard to movement and composition (Eils et al., 2000). Splicing factors within IGs are highly mobile and are constantly associating and dissociating from their compartments (Phair and Misteli, 2000). The mAb, B92, which recognizes the polypyrimidine tract binding protein (PTB)-associated splicing factor (PSF), produces typical specked nuclear pattern in immunostaining. These PSF speckles disappear during granulocytic differentiation (Lee et al., 1996;Shav-Tal et al., 2000). We recently showed that this disappearance is associated with partial degradation (Shav-Tal et al., 2000) and by the formation of alternative nuclear structures (Shav-Tal et al., 2001). The present study indicates that PSF speckles disappear also through a different mechanism, involving conformational changes that cause breakdown of PSF speckles and relocalization of the molecule in the nucleus. The functional nature of speckles is a matter of some controversy (for review, see Park and De Boni, 1999). These structures have been suggested to play a role in storage and recycling of splicing factors (Jimenez-Garcia and Spector, 1993), whereas a portion may act as reservoirs for the recruitment to active sites of transcription (Huang and Spector, 1996;Zeng et al., 1997). This view does not predict a direct involvement of speckles in pre-mRNA splicing. On the other hand, it has been shown that nascent mRNA transcripts and transcription sites are closely associated with speckles, that transcription occurs at the surface of speckles (Clemson and Lawrence, 1996), and that microinjected pre-mRNAs have high affinity to speckles (Wang et al., 1991). It has thus been proposed that speckles can act coordinately in transcription and splicing and that pre-mRNA splicing can take place bo...

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“…In the nucleus, factors involved in pre-mRNA processing are concentrated in speckles-dynamic structures (Misteli et al, 1997) that are sensitive to phosphorylation (Nayler et al, 1998b). A number of kinases, phosphorylating RS domains, have been described, among them a U1 70K-associated kinase (Woppmann et al, 1993), SRPK1 (Gui et al, 1993), and SRPK2 (Wang et al, 1998). In addition, four kinases termed CLK (cdc2-like kinases) have been shown to phosphorylate SR proteins and to regulate their subnuclear localization (Colwill et al, 1996a,b;Nayler et al, 1997Nayler et al, , 1998b.…”

Section: Introductionmentioning

confidence: 99%

Regulation of Alternative Splicing of Human Tau Exon 10 by Phosphorylation of Splicing Factors

Hartmann

Rujescu

Giannakouŕos

et al. 2001

Molecular and Cellular Neuroscience

103

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SRPK2: A Differentially Expressed SR Protein-specific Kinase Involved in Mediating the Interaction and Localization of Pre-mRNA Splicing Factors in Mammalian Cells

Cited by 285 publications

References 62 publications

Interactions between two fission yeast serine/arginine-rich proteins and their modulation by phosphorylation

Interactions between two fission yeast serine/arginine-rich proteins and their modulation by phosphorylation

Nuclear Relocalization of the Pre-mRNA Splicing Factor PSF during Apoptosis Involves Hyperphosphorylation, Masking of Antigenic Epitopes, and Changes in Protein Interactions

Regulation of Alternative Splicing of Human Tau Exon 10 by Phosphorylation of Splicing Factors

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