Abstract
The multifunctional DNA- and RNA-associated Y-box protein 1 (YB-1) specifically binds to splicing recognition motifs and regulates alternative splice site selection. Here, we identify the arginine/serine-rich SRp30c protein as an interacting protein of YB-1 by performing a two-hybrid screen against a human mesangial cell cDNA library. Co-immunoprecipitation studies confirm a direct interaction of tagged proteins YB-1 and SRp30c in the absence of RNA via two independent protein domains of YB-1. A high affinity interaction is conferred through the N-terminal region. We show that the subcellular YB-1 localization is dependent on the cellular SRp30c content. In proliferating cells, YB-1 localizes to the cytoplasm, whereas FLAG-SRp30c protein is detected in the nucleus. After overexpression of YB-1 and FLAG-SRp30c, both proteins are co-localized in the nucleus, and this requires the N-terminal region of YB-1. Heat shock treatment of cells, a condition under which SRp30c accumulates in stress-induced Sam68 nuclear bodies, abrogates the co-localization and YB-1 shuttles back to the cytoplasm. Finally, the functional relevance of the YB-1/SRp30c interaction for in vivo splicing is demonstrated in the E1A minigene model system. Here, changes in splice site selection are detected, that is, overexpression of YB-1 is accompanied by preferential 5' splicing site selection and formation of the 12 S isoform.
Highlights
The multifunctional DNA- and RNA-associated Y-box protein 1 (YB-1) binds to splicing recognition motifs and regulates alternative splice site selection
YB-1 localizes to the cytoplasm, whereas FLAG-SRp30c protein is detected in the nucleus
GFP was fused to the C terminus of YB-1 and FLAG was fused to the N terminus of SRp30c (Fig. 1A, GFP: Ͻ1 in lane 1; GFP-YB-1: Ͻ2 in lane 2, FLAG-SRp30c: Ͻ3 in lane 3)
Summary
The multifunctional DNA- and RNA-associated Y-box protein 1 (YB-1) binds to splicing recognition motifs and regulates alternative splice site selection. It has been proposed that YB-1 plays a role as an architectural protein by its propensity to sequence unwind DNA duplexes and stabilize single-stranded templates, thereby altering sequence recognition motifs [1, 4, 8]. In addition to their role in regulating gene transcription, cold shock proteins exhibit a wide spectrum of activities by virtue of sequence-specific and -nonspecific RNA binding. In the present study a direct in vivo interaction of YB-1 with SRp30c is demonstrated, which has fundamental effects on the subcellular YB-1 localization and is of functional relevance in the alternative splicing process
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