Matsui, M.; Kawaguchi, S.; Kai, T.

Apoptosis plays a central role in shaping tissues and preserving cellular integrity across developmental stages. In the germline, its precise regulation is critical to ensure both the elimination of aberrant cells and the maintenance of reproductive capacity. However, the molecular mechanisms that control apoptotic susceptibility in germline cells remain poorly defined. Here, we identify stand still (stil) as a female germline-specific regulator of apoptosis in Drosophila. Loss of stil leads to near-complete depletion of germline cells at the time of eclosion, associated with upregulation of the pro-apoptotic gene reaper (rpr) and activation of caspase-dependent cell death. Reporter assays in S2 cells show that Stil directly represses rpr transcription through its N-terminal BED-type zinc finger domain. Despite the absence of stil, undifferentiated germline cells remain resistant to apoptosis. Analysis of publicly available chromatin data reveals that the rpr locus in these cells resides in a closed, H3K9me3-enriched chromatin state, suggesting a Stil-independent mode of transcriptional silencing. Together, our findings uncover a dual mechanism that protects the female germline from rpr-dependent apoptosis: active repression by Stil in differentiating cells and chromatin-mediated silencing in undifferentiated cells. This work provides new insights into the transcriptional and chromatin-based mechanisms that maintain germline cell identity and survival.