SRSF1 regulates the alternative splicing of caspase 9 via a novel intronic splicing enhancer affecting the chemotherapeutic sensitivity of non-small cell lung cancer cells |
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Authors: | Shultz Jacqueline C Goehe Rachel W Murudkar Charuta S Wijesinghe Dayanjan S Mayton Eric K Massiello Autumn Hawkins Amy J Mukerjee Prabhat Pinkerman Ryan L Park Margaret A Chalfant Charles E |
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Institution: | Department of Biochemistry, Virginia Commonwealth University-School of Medicine, Richmond, VA 23298-0614, USA. |
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Abstract: | Increasing evidence points to the functional importance of alternative splice variations in cancer pathophysiology with the alternative pre-mRNA processing of caspase 9 as one example. In this study, we delve into the underlying molecular mechanisms that regulate the alternative splicing of caspase 9. Specifically, the pre-mRNA sequence of caspase 9 was analyzed for RNA cis-elements known to interact with SRSF1, a required enhancer for caspase 9 RNA splicing. This analysis revealed 13 possible RNA cis-elements for interaction with SRSF1 with mutagenesis of these RNA cis-elements identifying a strong intronic splicing enhancer located in intron 6 (C9-I6/ISE). SRSF1 specifically interacted with this sequence, which was required for SRSF1 to act as a splicing enhancer of the inclusion of the 4 exon cassette. To further determine the biological importance of this mechanism, we employed RNA oligonucleotides to redirect caspase 9 pre-mRNA splicing in favor of caspase 9b expression, which resulted in an increase in the IC(50) of non-small cell lung cancer (NSCLC) cells to daunorubicin, cisplatinum, and paclitaxel. In contrast, downregulation of caspase 9b induced a decrease in the IC(50) of these chemotherapeutic drugs. Finally, these studies showed that caspase 9 RNA splicing was a major mechanism for the synergistic effects of combination therapy with daunorubicin and erlotinib. Overall, we have identified a novel intronic splicing enhancer that regulates caspase 9 RNA splicing and specifically interacts with SRSF1. Furthermore, we showed that the alternative splicing of caspase 9 is an important molecular mechanism with therapeutic relevance to NSCLCs. |
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