Speculating on the Roles of Nuclear Speckles: How RNA‐Protein Nuclear Assemblies Affect Gene Expression

Nuclear speckles are eukaryotic nuclear bodies enriched in splicing factors. Their exact purpose has been a matter of debate. The different proposed roles of nuclear speckles are reviewed and an additional layer of function is put forward, suggesting that by accumulating splicing factors within them, nuclear speckles can buffer the nucleoplasmic levels of splicing factors available for splicing and thereby modulate splicing rates. These findings build on the already established model that nuclear speckles function as a storage/recycling site for splicing factors. Many studies have demonstrated proximity between nuclear speckles and sites of active transcription, suggesting that this juxtaposition can enhance the rates of gene expression. It is found that nuclear speckle disassembly increases splicing factor availability in the nucleoplasm, leading to an increase in splicing rates and faster release of nascent transcripts from the gene after transcription. Altogether, this era in which genomic and imaging approaches are applied to study nuclear organization has expanded the outlook on the possible roles of nuclear speckles. Nuclear speckle functions. Left – Actively transcribing genes associate with nuclear speckles for enhanced transcription. Right – Nuclear speckles as storage/recycling areas for splicing factors. Nuclear speckles can buffer the levels of available RNA processing factors in the nucleoplasm by regulated release, thereby modulating splicing rates.