: Back-splicing is a noncanonical splicing event driving circular RNA (circRNA) biogenesis. While its molecular mechanisms are partly known, global regulation in tumors remains unclear. Here, we uncover an hnRNP C-dependent mechanism that represses a broad repertoire of circRNAs in group 3 medulloblastoma (MB). HnRNP C binds Alu elements, preventing pre-mRNA circularization. Expression of hnRNP C modulates the balance between linear and circular splicing, ensuring efficient expression of genes that sustain the oncogenic phenotype of group 3 MB cells. In the absence of hnRNP C, introns flanking the circularizing exons generate cytoplasmic double-stranded RNAs via inverted Alu base pairing, triggering an interferon-induced antiviral response. These findings unveil hnRNP C as a guardian of transcriptome integrity by repressing circRNA biogenesis. Last, targeting hnRNP C in group 3 MB may trigger an inflammatory immune response, thereby boosting cancer surveillance.
Marini, A., Pitolli, C., Ciccone, S., Pieraccioli, M., Robil, N., Naro, C., Palluzzi, F., Giansanti, M., Tamburrini, G., Giacò, L., De La Grange, P., Nazio, F., Bielli, P., Sette, C., Pagliarini, V., HnRNP C binding to inverted Alu elements protects the transcriptome from pre-mRNA circularization, <<SCIENCE ADVANCES>>, 2026; 12 (18): N/A-N/A. [doi:10.1126/sciadv.aea2351] [https://hdl.handle.net/10807/335421]
HnRNP C binding to inverted Alu elements protects the transcriptome from pre-mRNA circularization
Pitolli, Consuelo;Ciccone, Sabrina;Pieraccioli, Marco;Naro, Chiara;Palluzzi, Fernando;Tamburrini, Gianpiero;Nazio, Francesca;Sette, Claudio;Pagliarini, Vittoria
2026
Abstract
: Back-splicing is a noncanonical splicing event driving circular RNA (circRNA) biogenesis. While its molecular mechanisms are partly known, global regulation in tumors remains unclear. Here, we uncover an hnRNP C-dependent mechanism that represses a broad repertoire of circRNAs in group 3 medulloblastoma (MB). HnRNP C binds Alu elements, preventing pre-mRNA circularization. Expression of hnRNP C modulates the balance between linear and circular splicing, ensuring efficient expression of genes that sustain the oncogenic phenotype of group 3 MB cells. In the absence of hnRNP C, introns flanking the circularizing exons generate cytoplasmic double-stranded RNAs via inverted Alu base pairing, triggering an interferon-induced antiviral response. These findings unveil hnRNP C as a guardian of transcriptome integrity by repressing circRNA biogenesis. Last, targeting hnRNP C in group 3 MB may trigger an inflammatory immune response, thereby boosting cancer surveillance.
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