A double-negative gene regulatory circuit underlies the virgin behavioral state.

Virgin females of many species conduct distinctive behaviors, compared with post-mated and/or pregnant individuals. In Drosophila, this post-mating switch is initiated by seminal factors, implying that the default female state is virgin. However, we recently showed that loss of miR-iab-4/8-mediated repression of the transcription factor Homothorax (Hth) within the abdominal ventral nerve cord (VNC) causes virgins to execute mated behaviors. Here, we use genomic analysis of mir-iab-4/8 deletion and hth-microRNA (miRNA) binding site mutants (hth[BSmut]) to elucidate doublesex (dsx) as a critical downstream factor. Dsx and Hth proteins are highly complementary in CNS, and Dsx is downregulated in miRNA/hth[BSmut] mutants. Moreover, virgin behavior is highly dose sensitive to developmental dsx function. Strikingly, depletion of Dsx from very restricted abdominal neurons (SAG-1 cells) abrogates female virgin conducts, in favor of mated behaviors. Thus, a double-negative regulatory pathway in the VNC (miR-iab-4/8 ˧ Hth ˧ Dsx) specifies the virgin behavioral state.