Axin, APC, and the kinase GSK3beta are part of a destruction complex that regulates the stability of the Wnt pathway effector beta-catenin. In C. elegans, several Wnt-controlled developmental processes have been described, but an Axin ortholog has not been found in the genome sequence and SGG-1/GSK3beta, and the APC-related protein APR-1 have been shown to act in a positive, rather than negative fashion in Writ signaling. We have shown previously that the EGL-20/Wnt-dependent expression of the homeobox gene
mab-5 in the Q neuroblast lineage requires BAR-1/beta-catenin and POP-1/Tef. Here, we have investigated how BAR-1 is regulated by the EGL-20 pathway. First, we have characterized a negative regulator of the EGL-20 pathway,
pry-1. We show that
pry-1 encodes an RGS and DIX domain-containing protein that is distantly related to Axin/Conductin. Our results demonstrate that despite its sequence divergence, PRY-1 is a functional Axin homolog. We show that PRY-I interacts with BAR-1, SGG-1, and APR-1 and that overexpression of PRY-1 inhibits
mab-5 expression. Furthermore,
pry-1 rescues the zebrafish axin1 mutation masterblind, showing that it can functionally interact with vertebrate destruction complex components. Finally, we show that SGG-1, in addition to its positive regulatory role in early embryonic Wnt signaling, may function as a negative regulator of the EGL-20 pathway. We conclude that a highly divergent destruction complex consisting of PRY-1, SGG-1, and APR-1 regulates BAR-1/beta-catenin signaling in C.