The molecular principles of Piwi-mediated co-transcriptional silencing through the dimeric SFiNX complex
Nuclear Argonaute proteins, guided to nascent target RNAs by their bound small RNAs, elicit co-transcriptional silencing through heterochromatin formation at transposon insertions and repetitive genomic loci. The molecular mechanisms involved in this process are incompletely understood. Here, we propose that the SFiNX complex, a silencing mediator downstream of nuclear Piwi-piRNA complexes in Drosophila, enables co-transcriptional silencing via the formation of molecular condensates. Condensate formation is stimulated by nucleic acid binding and requires SFiNX dimerization, mediated by the dynein light chain protein, LC8/Cutup. LC8's function within SFiNX can be bypassed with a heterologous dimerization domain, suggesting that dimerization is a constitutive feature of SFiNX. Mutations preventing LC8- mediated SFiNX dimerization result in loss of condensate formation in vitro and inability of Piwi to initiate heterochromatin formation and silence transposons in vivo. Formation of molecular condensates might be a general mechanism that underlies effective heterochromatin establishment at small RNA target loci in a co-transcriptional manner.