Targeting alternative splicing by RNAi: From the differential impact on splice variants to triggering artificial pre-mRNA splicing

Fuchs A, Riegler S, Ayatollahi Z, Cavallari N, Giono LE, Nimeth BA, Mutanwad KV, Schweighofer A, Lucyshyn D, Barta A, Petrillo E, Kalyna M. 2021. Targeting alternative splicing by RNAi: From the differential impact on splice variants to triggering artificial pre-mRNA splicing. Nucleic Acids Research. 49(2), 1133–1151.

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Journal Article | Published | English
Author
Fuchs, Armin; Riegler, Stefan; Ayatollahi, Zahra; Cavallari, NicolaISTA; Giono, Luciana E; Nimeth, Barbara A; Mutanwad, Krishna V; Schweighofer, Alois; Lucyshyn, Doris; Barta, Andrea; Petrillo, Ezequiel; Kalyna, Maria
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Abstract
Alternative splicing generates multiple transcript and protein isoforms from a single gene and controls transcript intracellular localization and stability by coupling to mRNA export and nonsense-mediated mRNA decay (NMD). RNA interference (RNAi) is a potent mechanism to modulate gene expression. However, its interactions with alternative splicing are poorly understood. We used artificial microRNAs (amiRNAs, also termed shRNAmiR) to knockdown all splice variants of selected target genes in Arabidopsis thaliana. We found that splice variants, which vary by their protein-coding capacity, subcellular localization and sensitivity to NMD, are affected differentially by an amiRNA, although all of them contain the target site. Particular transcript isoforms escape amiRNA-mediated degradation due to their nuclear localization. The nuclear and NMD-sensitive isoforms mask RNAi action in alternatively spliced genes. Interestingly, Arabidopsis SPL genes, which undergo alternative splicing and are targets of miR156, are regulated in the same manner. Moreover, similar results were obtained in mammalian cells using siRNAs, indicating cross-kingdom conservation of these interactions among RNAi and splicing isoforms. Furthermore, we report that amiRNA can trigger artificial alternative splicing, thus expanding the RNAi functional repertoire. Our findings unveil novel interactions between different post-transcriptional processes in defining transcript fates and regulating gene expression.
Keywords
Publishing Year
Date Published
2021-01-25
Journal Title
Nucleic Acids Research
Publisher
Oxford University Press
Volume
49
Issue
2
Page
1133-1151
ISSN
eISSN
IST-REx-ID

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Fuchs A, Riegler S, Ayatollahi Z, et al. Targeting alternative splicing by RNAi: From the differential impact on splice variants to triggering artificial pre-mRNA splicing. Nucleic Acids Research. 2021;49(2):1133-1151. doi:10.1093/nar/gkaa1260
Fuchs, A., Riegler, S., Ayatollahi, Z., Cavallari, N., Giono, L. E., Nimeth, B. A., … Kalyna, M. (2021). Targeting alternative splicing by RNAi: From the differential impact on splice variants to triggering artificial pre-mRNA splicing. Nucleic Acids Research. Oxford University Press. https://doi.org/10.1093/nar/gkaa1260
Fuchs, Armin, Stefan Riegler, Zahra Ayatollahi, Nicola Cavallari, Luciana E Giono, Barbara A Nimeth, Krishna V Mutanwad, et al. “Targeting Alternative Splicing by RNAi: From the Differential Impact on Splice Variants to Triggering Artificial Pre-MRNA Splicing.” Nucleic Acids Research. Oxford University Press, 2021. https://doi.org/10.1093/nar/gkaa1260.
A. Fuchs et al., “Targeting alternative splicing by RNAi: From the differential impact on splice variants to triggering artificial pre-mRNA splicing,” Nucleic Acids Research, vol. 49, no. 2. Oxford University Press, pp. 1133–1151, 2021.
Fuchs A, Riegler S, Ayatollahi Z, Cavallari N, Giono LE, Nimeth BA, Mutanwad KV, Schweighofer A, Lucyshyn D, Barta A, Petrillo E, Kalyna M. 2021. Targeting alternative splicing by RNAi: From the differential impact on splice variants to triggering artificial pre-mRNA splicing. Nucleic Acids Research. 49(2), 1133–1151.
Fuchs, Armin, et al. “Targeting Alternative Splicing by RNAi: From the Differential Impact on Splice Variants to Triggering Artificial Pre-MRNA Splicing.” Nucleic Acids Research, vol. 49, no. 2, Oxford University Press, 2021, pp. 1133–51, doi:10.1093/nar/gkaa1260.
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