Dynamics of hnRNPs and omega speckles in normal and heat shocked live cell nuclei of Drosophila melanogaster

Dynamics of hnRNPs and omega speckles in normal and heat shocked live cell nuclei of Drosophila melanogaster

Chromosoma, February 2015

25663367

Anand K. Singh, Subhash C. Lakhotia

The nucleus limited long-noncoding hsrω-n transcripts, hnRNPs, and some other RNA processing proteins organize nucleoplasmic omega speckles in Drosophila. Unlike other nuclear speckles, omega speckles rapidly disappear following cell stress, while hnRNPs and other associated proteins move away from chromosome sites, nucleoplasm, and the disappearing speckles to get uniquely sequestered at hsrω locus. Omega speckles reappear and hnRNPs get redistributed to normal locations during recovery from stress. With a view to understand the dynamics of omega speckles and their associated proteins, we used live imaging of GFP tagged hnRNPs (Hrb87F, Hrb98DE, or Squid) in unstressed and stressed Drosophila cells. Omega speckles display size-dependent mobility in nucleoplasmic domains with significant colocalization with nuclear matrix Tpr/Megator and SAFB proteins, which also accumulate at hsrω gene site after stress. Instead of moving towards the nuclear periphery located hsrω locus following heat shock or colchicine treatment, omega speckles rapidly disappear within nucleoplasm while chromosomal and nucleoplasmic hnRNPs move, stochastically or, more likely, by nuclear matrix-mediated transport to hsrω locus in non-particulate form. Continuing transcription of hsrω during cell stress is essential for sequestering incoming hnRNPs at the site. While recovering from stress, the sequestered hnRNPs are released as omega speckles in ISWI-dependent manner. Photobleaching studies reveal hnRNPs to freely move between nucleoplasm, omega speckles, chromosome regions, and hsrω gene site although their residence periods at chromosomes and hsrω locus are longer. A model for regulation of exchange of hnRNPs between nuclear compartments by hsrω-n transcripts is presented.