Keratin 17 regulates nuclear morphology and chromatin organization

Keratin 17 (KRT17; K17), a non-lamin intermediate filament protein, was recently found to occur in the nucleus. We report here on K17-dependent differences in nuclear morphology, chromatin organization, and cell proliferation. Human tumor keratinocyte cell lines lacking K17 exhibit flatter nuclei relative to normal. Re-expression of wildtype K17, but not a mutant form lacking an intact nuclear localization signal (NLS), rescues nuclear morphology in KRT17 null cells. Analyses of primary cultures of skin keratinocytes from a mouse strain expressing K17 with a mutated NLS corroborated these findings. Proteomics screens identified K17-interacting nuclear proteins with known roles in gene expression, chromatin organization, and RNA processing. Key histone modifications and LAP2{beta} localization within the nucleus are altered in the absence of K17, correlating with decreased cell proliferation and suppression of GLI1 target genes. Nuclear K17 thus impacts nuclear morphology with an associated impact on chromatin organization, gene expression, and proliferation in epithelial cells. SummaryKeratin 17 (K17) is one of two non-lamin intermediate filament proteins recently identified to localize to and function in the cell nucleus. K17 is here shown to regulate nuclear morphology, chromatin organization, LAP2 localization, and cell proliferation.