Nuclear speckles regulate functional programs in cancer (RNA ALYkd)

Nuclear speckles are dynamic nuclear bodies characterized by high local concentrations of RNA binding proteins and specific non-coding RNAs. Although the contents of speckles suggest multifaceted roles in regulating chromatin dynamics and gene expression, the overarching biological function(s) of nuclear speckles remain enigmatic. In this study, we investigate speckle compositional variation in human cancer, finding two main speckle compositional states based on RNA expression of speckle-resident proteins. One cancer speckle state was more similar to normal adjacent tissues, while the other was dissimilar from normal tissue, and thus considered an aberrant cancer speckle state. We link the aberrant speckle state to altered speckle positioning within the nucleus, to elevation of the TREX RNA export complex, and to worse patient outcomes in clear cell renal cell carcinoma (ccRCC). ccRCC is typified by hyperactivation of the HIF-2a transcription factor, and we demonstrate that HIF-2a drives physical association of a select subset of its target genes with nuclear speckles depending on HIF-2a's two speckle targeting motifs (STMs) defined in this study. STMs are highly enriched among transcription factors, suggesting that DNA-speckle targeting may be a general mechanism of gene regulation and providing a resource of candidate speckle-targeting factors. Via integration of tissue culture functional studies with tumor genomic and imaging analysis, we show that HIF-2a gene regulatory programs are impacted by speckle compositional state and by abrogation of speckle targeting abilities of HIF-2a. These findings suggest that, in ccRCC, a key biological function of nuclear speckles is to modulate expression of a specific subset of HIF-2a-regulated target genes that, in turn, influence patient outcomes. Beyond ccRCC, tumor speckle compositional states broadly correlate with altered functional pathways and expression of speckle-associated gene neighborhoods, exposing a general link between nuclear speckles and gene expression dysregulation in human cancer. Overall design: 786-O ccRCC cells were treated with non-targeting control siRNA or one of two ALYREF siRNAs and processed for RNA-seq in duplicate.