Nuclear Speckle-related Protein 70 Binds to Serine/Arginine-rich Splicing Factors 1 and 2 via an Arginine/Serine-like Region and Counteracts Their Alternative Splicing Activity
Autor: | Sin-Hyeog Im, Hyeran Kim, Eun-Kyung Choi, Bo-Ra Na, Chang-Duk Jun, Young-Dae Kim, Chang-Hyun Kim |
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Rok vydání: | 2016 |
Předmět: |
0301 basic medicine
Exonic splicing enhancer Biology Biochemistry 03 medical and health sciences Splicing factor Exon SR protein Protein splicing RNA Precursors Humans Protein Isoforms Protein Interaction Domains and Motifs Protein Structure Quaternary Molecular Biology Serine-Arginine Splicing Factors Alternative splicing Nuclear Proteins Cell Biology Molecular biology Cell biology Alternative Splicing HEK293 Cells Hyaluronan Receptors 030104 developmental biology Ribonucleoproteins RNA splicing RNA Protein Multimerization Protein Binding Minigene |
Zdroj: | Journal of Biological Chemistry. 291:6169-6181 |
ISSN: | 0021-9258 |
Popis: | Nuclear speckles are subnuclear storage sites containing pre-mRNA splicing machinery. Proteins assembled in nuclear speckles are known to modulate transcription and pre-mRNA processing. We have previously identified nuclear speckle-related protein 70 (NSrp70) as a novel serine/arginine (SR)-related protein that co-localizes with classical SR proteins such as serine/arginine-rich splicing factor 1 (SRSF1 or ASF/SF2) and SRSF2 (SC35). NSrp70 mediates alternative splice site selection, targeting several pre-mRNAs, including CD44 exon v5. Here we demonstrated that NSrp70 interacts physically with two SR proteins, SRSF1 and SRSF2, and reverses their splicing activity in terms of CD44 exon v5 as exon exclusion. The NSrp70 RS-like region was subdivided into three areas. Deletion of the first arginine/serine-rich-like region (RS1) completely abrogated binding to the SR proteins and to target mRNA and also failed to induce splicing of CD44 exon v5, suggesting that RS1 is critical for NSrp70 functioning. Interestingly, RS1 deletion also resulted in the loss of NSrp70 and SR protein speckle positioning, implying a potential scaffolding role for NSrp70 in nuclear speckles. NSrp70 contains an N-terminal coiled-coil domain that is critical not only for self-oligomerization but also for splicing activity. Consistently, deletion of the coiled-coil domain resulted in indefinite formation of nuclear speckles. Collectively, these results demonstrate that NSrp70 acts as a new molecular counterpart for alternative splicing of target RNA, counteracting SRSF1 and SRSF2 splicing activity. |
Databáze: | OpenAIRE |
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