U1 snRNP Telescripting Roles in Transcription and Its Mechanism.

Telescripting is a fundamental cotranscriptional gene regulation process that relies on U1 snRNP (U1) to suppress premature 3'-end cleavage and polyadenylation (PCPA) in RNA polymerase II (Pol II) transcripts, which is necessary for full-length transcription of thousands of protein-coding (pre-mRNAs) and long noncoding (lncRNA) genes. Like U1 role in splicing, telescripting requires U1 snRNA base-pairing with nascent transcripts. Inhibition of U1 base-pairing with U1 snRNA antisense morpholino oligonucleotide (U1 AMO) mimics widespread PCPA from cryptic polyadenylation signals (PASs) in human tissues, including PCPA in introns and last exons' 3'-untranslated regions (3' UTRs). U1 telescripting-PCPA balance changes generate diverse RNAs depending on where in a gene it occurs. Long genes are highly U1-telescripting-dependent because of PASs in introns compared to short genes. Enrichment of cell cycle control, differentiation, and developmental functions in long genes, compared to housekeeping and acute cell stress response genes in short genes, reveals a gene size-function relationship in mammalian genomes. This polarization increased in metazoan evolution by previously unexplained intron expansion, suggesting that U1 telescripting could shift global gene expression priorities. We show that that modulating U1 availability can profoundly alter cell phenotype, such as cancer cell migration and invasion, underscoring the critical role of U1 homeostasis and suggesting it as a potential target for therapies. We describe a complex of U1 with cleavage and polyadenylation factors that silences PASs in introns and 3' UTR, which gives insights into U1 telescripting mechanism and transcription elongation regulation.

© 2019 Di et al.; Published by Cold Spring Harbor Laboratory Press.