Abstract

Recent studies have shown that a large family of splicing factors containing a serine/arginine-rich domain plays important roles in both constitutive and regulated splicing. The family members are generally referred to as SR proteins. SR proteins are phosphoproteins and increasing evidence suggests that they are targets for phosphorylation regulation in pre-mRNA splicing. To study this regulation, we have recently identified and cloned a cell cycle regulated kinase, SRPK1, that appears to be specific for SR proteins in mammalian cells. We have demonstrated that SRPK1 is responsible for the cell cycle dependent reorganization of a nuclear structure (the nuclear speckles) where SR proteins and other splicing factors are concentrated. Because a significant amount of SRPK1 is present in the nucleus in interphase cells, we focus in this proposal on investigating the interphase function and regulation of SRPK1.
Our specific Aim 1 is to address the function of SRPK1 in splicing by a series of in vitro experiments. We plan to determine the role of SRPK1 in splicing, and the effect of SR protein phosphorylation by SRPK1 on splice site selection. In addition, we will determine whether SRPK1 is a component of the spliceosome, and how SRPK1 is involved in splicing itself. Once the role of SRPK1 in splicing is established, we will, in Aim 2, address the regulation of SRPK1. Although SRPK1 contains a nuclear localization signal and a fraction of the kinase is present in the nucleus, a unique sequence in SRPK1 appears to function as a cytoplasmic retention signal that is responsible for the accumulation of a population of SRPK1 in the cytoplasm in interphase. Therefore, SRPK1 may be regulated by nuclear translocation. We plan to determine the minimal sequence required for the cytoplasmic localization of SRPK1 by deletion and linker scanning mutagenesis, and to identify a potential cytoplasmic anchor protein(s) that interacts with the retention signal. Further, we will examine the functional consequence of the nuclear translocation on splicing in vivo.
In Aim 3, we will study another mechanism of SRPK1 regulation by a specific inhibitor. We plan to purify the inhibitor and examine the mechanisms of inhibition. We will also investigate the role of the inhibitor in the regulation of splicing and splice site selection. Our ultimate goal is to explore the possibility that signals may be transduced through SRPK1,to regulate pre-mRNA splicing in the nucleus.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM052872-04
Application #
2910193
Study Section
Molecular Biology Study Section (MBY)
Project Start
1996-05-01
Project End
2001-04-30
Budget Start
1999-05-01
Budget End
2001-04-30
Support Year
4
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

Name
University of California San Diego
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
077758407
City
La Jolla
State
CA
Country
United States
Zip Code
92093

  Publications

Zhang, Kai; Zhang, Xiaorong; Cai, Zhiqiang et al. (2018) A novel class of microRNA-recognition elements that function only within open reading frames. Nat Struct Mol Biol 25:1019-1027
Chen, Liang; Chen, Jia-Yu; Huang, Yi-Jou et al. (2018) The Augmented R-Loop Is a Unifying Mechanism for Myelodysplastic Syndromes Induced by High-Risk Splicing Factor Mutations. Mol Cell 69:412-425.e6
Zhou, Zhihong; Qiu, Jinsong; Liu, Wen et al. (2018) The Akt-SRPK-SR Axis Constitutes a Major Pathway in Transducing EGF Signaling to Regulate Alternative Splicing in the Nucleus. Mol Cell 71:872
Hatcher, John M; Wu, Guowei; Zeng, Chuyue et al. (2018) SRPKIN-1: A Covalent SRPK1/2 Inhibitor that Potently Converts VEGF from Pro-angiogenic to Anti-angiogenic Isoform. Cell Chem Biol 25:460-470.e6
Jiang, Li; Shao, Changwei; Wu, Qi-Jia et al. (2017) NEAT1 scaffolds RNA-binding proteins and the Microprocessor to globally enhance pri-miRNA processing. Nat Struct Mol Biol 24:816-824
Gou, Lan-Tao; Kang, Jun-Yan; Dai, Peng et al. (2017) Ubiquitination-Deficient Mutations in Human Piwi Cause Male Infertility by Impairing Histone-to-Protamine Exchange during Spermiogenesis. Cell 169:1090-1104.e13
Fu, Xiang-Dong (2017) Exploiting the Hidden Treasure of Detained Introns. Cancer Cell 32:393-395
Fu, Xiang-Dong (2017) Both sides of the same coin: Rac1 splicing regulating by EGF signaling. Cell Res 27:455-456
Li, Xiao; Zhou, Bing; Chen, Liang et al. (2017) GRID-seq reveals the global RNA-chromatin interactome. Nat Biotechnol 35:940-950
Aubol, Brandon E; Wu, Guowei; Keshwani, Malik M et al. (2016) Release of SR Proteins from CLK1 by SRPK1: A Symbiotic Kinase System for Phosphorylation Control of Pre-mRNA Splicing. Mol Cell 63:218-228

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