AI Article Synopsis
- Eukaryotes use two pre-mRNA splicing systems: the major spliceosome for most introns and the minor spliceosome for rare introns, but the role of the minor spliceosome is not well understood.
- Research shows that losing the minor spliceosome component ZRSR2 can boost the self-renewal of hematopoietic stem cells, indicating its regulatory importance.
- Mutations in minor introns are linked to various cancers and disorders, such as Noonan syndrome, suggesting that minor intron recognition plays a critical role in blood cell development and cancer progression.
Article Abstract
Most eukaryotes harbor two distinct pre-mRNA splicing machineries: the major spliceosome, which removes >99% of introns, and the minor spliceosome, which removes rare, evolutionarily conserved introns. Although hypothesized to serve important regulatory functions, physiologic roles of the minor spliceosome are not well understood. For example, the minor spliceosome component ZRSR2 is subject to recurrent, leukemia-associated mutations, yet functional connections among minor introns, hematopoiesis and cancers are unclear. Here, we identify that impaired minor intron excision via ZRSR2 loss enhances hematopoietic stem cell self-renewal. CRISPR screens mimicking nonsense-mediated decay of minor intron-containing mRNA species converged on LZTR1, a regulator of RAS-related GTPases. LZTR1 minor intron retention was also discovered in the RASopathy Noonan syndrome, due to intronic mutations disrupting splicing and diverse solid tumors. These data uncover minor intron recognition as a regulator of hematopoiesis, noncoding mutations within minor introns as potential cancer drivers and links among ZRSR2 mutations, LZTR1 regulation and leukemias.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8177065 | PMC |
| http://dx.doi.org/10.1038/s41588-021-00828-9 | DOI Listing |
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