Abstract
Hundreds of double homeobox (DUX) genes map within 3.3-kb repeated elements dispersed in the human genome and encode DNA-binding proteins. Among these, we identified DUX4, a potent transcription factor that causes facioscapulohumeral muscular dystrophy (FSHD). In the present study, we performed yeast two-hybrid screens and protein co-purifications with HaloTag-DUX fusions or GST-DUX4 pull-down to identify protein partners of DUX4, DUX4c (which is identical to DUX4 except for the end of the carboxyl terminal domain) and DUX1 (which is limited to the double homeodomain). Unexpectedly, we identified and validated (by co-immunoprecipitation, GST pull-down, co-immunofluorescence and in situ Proximal Ligation Assay) the interaction of DUX4, DUX4c and DUX1 with type III intermediate filament protein desmin in the cytoplasm and at the nuclear periphery. Desmin filaments link adjacent sarcomere at the Z-discs, connect them to sarcolemma proteins and interact with mitochondria. These intermediate filament also contact the nuclear lamina and contribute to positioning of the nuclei. Another Z-disc protein, LMCD1 that contains a LIM domain was also validated as a DUX4 partner. The functionality of DUX4 or DUX4c interactions with cytoplasmic proteins is underscored by the cytoplasmic detection of DUX4/DUX4c upon myoblast fusion. In addition, we identified and validated (by co-immunoprecipitation, co-immunofluorescence and in situ Proximal Ligation Assay) as DUX4/4c partners several RNA-binding proteins such as C1QBP, SRSF9, RBM3, FUS/TLS and SFPQ that are involved in mRNA splicing and translation. FUS and SFPQ are nuclear proteins, however their cytoplasmic translocation was reported in neuronal cells where they associated with ribonucleoparticles (RNPs). Several other validated or identified DUX4/DUX4c partners are also contained in mRNP granules, and the co-localizations with cytoplasmic DAPI-positive spots is in keeping with such an association. Large muscle RNPs were recently shown to exit the nucleus via a novel mechanism of nuclear envelope budding. Following DUX4 or DUX4c overexpression in muscle cell cultures, we observed their association with similar nuclear buds. In conclusion, our study demonstrated unexpected interactions of DUX4/4c with cytoplasmic proteins playing major roles during muscle differentiation. Further investigations are on-going to evaluate whether these interactions play roles during muscle regeneration as previously suggested for DUX4c.
Highlights
Repeated DNA elements constitute a large portion of the human genome and were long considered to be “junk DNA”
During a time course study of immortalized myoblast differentiation, we surprisingly found that nuclear DUX4c staining progressively disappeared and was replaced by a cytoplasmic one, around clusters of nuclei that are normally found for a limited time after fusion [49]
Myoblast fusion is an event that is rarely observed, which is consistent with the low number of muscle cells exhibiting high DUX4/4c cytoplasmic staining
Summary
Repeated DNA elements constitute a large portion of the human genome and were long considered to be “junk DNA”. The Double Homeobox genes map to 3.3-kb repeated elements and constitute a family containing hundreds of members dispersed throughout the human genome; they are located on the short arms of all the acrocentric chromosomes, on the centromeric region of chromosome 1 and in the telomeric regions of chromosomes 4 and 10 [2,3,4,5]. The most studied gene in this family is DUX4, which maps to a 3.3-kb element repeated at the D4Z4 locus in 4q35 [4, 7, 8]. The evolutionary conservation of the DUX gene indicates that it has a key functional role [15, 16]
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