A function of Spalt proteins in heterochromatin organization and maintenance of genomic DNA integrity

The phylogenetically conserved Spalt proteins regulate gene expression and participate in a variety of cell fate choices during multicellular development, generally acting as transcriptional repressors in different gene regulatory networks. Paradoxically, besides their roles as DNA sequence-specific transcription factors, Spalt proteins show a consistent localization to heterochromatic regions. They can act through interactions with the Nucleosome remodeling and deacetylase complex (NuRD) to promote closing of open chromatin domains, but their activities as epigenetic regulators also rely on interactions with DNA Methyltransferases or with the Lysine-specific histone demethylase LSD1, suggesting that they can participate in multiple regulatory mechanisms. Here we describe several major consequences of loss of spalt function in Drosophila cells, including changes in chromatin accessibility affecting mostly pericentromeric heterochromatin, the generation of DNA damage, alterations in the localization of chromosomes within the nucleus in polyploid cells of the salivary glands and miss-expression of transposable elements. We suggest that most of these effects are related to roles of Spalt proteins in the regulation of heterochromatin formation. We propose that Drosophila Spalt proteins have two complementary functions, acting as sequence-specific transcriptional repressors on specific target genes and regulating more global gene silencing through the generation or maintenance of heterochromatic domains.