This proposal seeks competitive renewal of my GM049369, which has been supporting our basic research in regulated gene expression by RNA binding proteins (RBPs) in the past two decades. We will focus on two families of RBPs, SR proteins and RBFoxs, which have been best characterized for their functions in regulated pre-mRNA splicing. However, our recent studies show that they are also directly involved in transcriptional control through interacting with regulatory RNAs in mammalian cells. Built on these paradigm-shifting discoveries, we propose to test a series of hypotheses by pursuing three specific aims. The first is to elucidate synergistic interactions of SR proteins in the cell to test the hypothesis that SR proteins are engaged in network interactions to establish their specificity in interacting with cis-acting RNA elements in mammalian genomes.
The second aim to pursue the newly established function of SR proteins in transcriptional control. We are particularly interested in testing the idea that SR proteins are directly involved in the regulation of transcription bubbles at gene promoters to gauge the levels of gene expression.
The third aim i s to dissect the mechanism for RBFox2 to regulate global targeting of the polycomb complex. The grand hypothesis we will test is that RBPs are broadly involved in transcriptional control through interacting with diverse regulatory RNAs in mammalian genomes. As all genes we are studying have been tightly linked to various human diseases, particularly cancer, the proposed research will not only elucidate new regulatory paradigms, but also provide the theoretical foundation for developing new therapeutics against specific human diseases.

Public Health Relevance

This grant will focus on SR proteins and RBFox2 as models to study the functions of RNA binding proteins in mammalian genomes at both the transcriptional and post-transcriptional levels. The proposed research is based on several new regulatory paradigms we recently uncovered. As all genes we are studying are linked to specific diseases in humans, our basic research will establish the foundation for developing effective treatment strategies against diverse diseases, particularly cancers.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM049369-24
Application #
9307855
Study Section
Molecular Genetics A Study Section (MGA)
Program Officer
Bender, Michael T
Project Start
1993-05-01
Project End
2019-06-30
Budget Start
2017-07-01
Budget End
2018-06-30
Support Year
24
Fiscal Year
2017
Total Cost
Indirect Cost
Name
University of California, San Diego
Department
Other Basic Sciences
Type
Schools of Medicine
DUNS #
804355790
City
La Jolla
State
CA
Country
United States
Zip Code
92093
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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
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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
Wei, Chaoliang; Xiao, Rui; Chen, Liang et al. (2016) RBFox2 Binds Nascent RNA to Globally Regulate Polycomb Complex 2 Targeting in Mammalian Genomes. Mol Cell 62:982

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