Dual modes of ZFC3H1 confer selectivity in nuclear RNA sorting

The export and degradation pathways compete to sort nuclear RNAs, yet the default pathway remains unclear. Sorting of mature RNAs to degradation, facilitated by the exosome co-factor poly(A) exosome targeting (PAXT), is particularly challenging for their resemblance to mRNAs intended for translation. Here, we unveil that ZFC3H1, a core PAXT component, is co-transcriptionally loaded onto the first exon/intron of RNA precursors (pre-RNAs). Interestingly, this initial loading does not lead to pre-RNA degradation, as ZFC3H1 adopts a “closed” conformation, effectively blocking exosome recruitment. As processing progresses, RNA fate can be reshaped. Longer RNAs with more exons are allowed for nuclear export. By contrast, short RNAs with fewer exons preferentially recruit transient PAXT components ZC3H3 and RBM26/27 to the 3′ end, triggering ZFC3H1 “opening” and subsequent exosomal degradation. Together, the decoupled loading and activation of ZFC3H1 pre-configures RNA fate for decay while still allowing a switch to nuclear export, depending on mature RNA features.