Persistent Replicative Stress Alters Polycomb Phenotypes and Tissue Homeostasis in Drosophila melanogaster

•Mutations in multi sex combs (mxc) disrupt male germline homeostasis•mxc mutation results in high levels of histone H3 and thus replicative stress•Drug-induced replicative stress mimics mxc testis phenotypes•Inhibiting the DNA damage response enhances the mxc testis phenotype

SummaryPolycomb group (PcG) proteins establish and maintain genetic programs that regulate cell-fate decisions. Drosophila multi sex combs (mxc) was categorized as a PcG gene based on a classical Polycomb phenotype and genetic interactions; however, a mechanistic connection between Polycomb and Mxc has not been elucidated. Hypomorphic alleles of mxc are characterized by male and female sterility and ectopic sex combs. Mxc is an important regulator of histone synthesis, and we find that increased levels of the core histone H3 in mxc mutants result in replicative stress and a persistent DNA damage response (DDR). Germline loss, ectopic sex combs and the DDR are suppressed by reducing H3 in mxc mutants. Conversely, mxc phenotypes are enhanced when the DDR is abrogated. Importantly, replicative stress induced by hydroxyurea treatment recapitulated mxc germline phenotypes. These data reveal how persistent replicative stress affects gene expression, tissue homeostasis, and maintenance of cellular identity in vivo.

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