A male-pheromone-elevated transcription factor ZNF362.1 in female schistosomes determines sexual maturation
Abstract
Egg production by female schistosomes drives both transmission and pathology of schistosomiasis, affecting over 200 million people. Female maturation relies on the male-derived pheromone β-alanyl-tryptamine (BATT), but underlying molecular mechanisms are unclear. We identified the BATT-responsive transcription factor gene znf362 as a key regulator of female reproductive development. Functional studies showed that znf362.1, but not znf362.2, is essential for BATT-induced ovary and vitellaria maturation. Single-cell transcriptomics and in situ hybridization revealed up-regulation of znf362.1 in oocytes and vitellaria S1 cells after BATT exposure. Multiomics analysis showed ZNF362.1 directly activates Smp_349410, a female gonad-specific gene encoding a CPEB1 homolog. Loss of znf362.1 or Smp_349410 impaired oocyte and vitellocyte differentiation without affecting progenitors. Mechanistically, SmCPEB1 promotes female ovary development by regulating polyadenylation of cyclin B1 mRNA and drives S1 cell differentiation in the vitellaria. These findings define a transcriptional and post-transcriptional axis, BATT-znf362.1-cpeb1, that initiates female sexual maturation, offering mechanistic insight into schistosome reproduction and potential targets for schistosomiasis control.