TRA-1A is the sole representative in Caenorhabditis elegans of the Gli transcription factor family. Its activity is required to specify all somatic female cell fates in XX hermaphrodites. We have found that TRA-1 protein levels are much higher in hermaphrodites than in males, and that the difference is attributable to the predominance in hermaphrodites of C-terminally truncated isoforms that are nearly undetectable in males. Our results support a model in which TRA-1A is negatively regulated by male-specific proteolysis that depends upon specific TRA-1A protein sequences and upon the activity of the fem genes. C-terminally truncated TRA-1 isoforms are stable and can inappropriately feminize XO males, suggesting that they escape this negative regulation. Thus, although C. elegans appears to lack a Hedgehog-signaling pathway, our results indicate that proteolytic processing and degradation of Gli family transcription factors, commonly seen during Hedgehog signaling in other organisms, also control C. elegans sex determination.
