Highlights d Drosophila ELAV regulates all sites of neuronal alternative polyadenylation in vivo d ELAV directly binds to sites of neuron-specific splicing and 3 0 end processing d ELAV represses inclusion of an fne mini-exon that mediates FNE nuclear localization d In ELAV's absence, FNE rescues neuronal alternative polyadenylation and splicing
RNA binding proteins and messenger RNAs (mRNAs) assemble into ribonucleoprotein granules that regulate mRNA trafficking, local translation, and turnover. The dysregulation of RNA-protein condensation disturbs synaptic plasticity and neuron survival and has been widely associated with human neurological disease. Neuronal granules are thought to condense around particular proteins that dictate the identity and composition of each granule type. Here, we show in
Drosophila
that a previously uncharacterized long noncoding RNA,
mimi
, is required to scaffold large neuronal granules in the adult nervous system. Neuronal ELAV-like proteins directly bind
mimi
and mediate granule assembly, while Staufen maintains condensate integrity.
mimi
granules contain mRNAs and proteins involved in synaptic processes; granule loss in
mimi
mutant flies impairs nervous system maturity and neuropeptide-mediated signaling and causes phenotypes of neurodegeneration. Our work reports an architectural RNA for a neuronal granule and provides a handle to interrogate functions of a condensate independently of those of its constituent proteins.
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