Summary: Development of the C. eleg

Summary: Development of the C. elegans vulva requires coordination between a strikingly complex set of molecular regulators and pathways. In particular, the correct specification of vulval cell-fates requires both the activation of RTK/Ras/Map kinase members as well as negative regulation by a set of genes known as the SynMuvs. SynMuvs comprise two functionally redundant sets of genes that appear to antagonize Ras pathway signaling. In this way, SynMuv genes act to limit the number of cells adopting vulval fates. Recently, a number of SynMuv genes have been shown to encode worm homologs of the Rb transcriptional-regulatory complex. These and other results are discussed and we present several models for understanding the role of SynMuv genes in vulval development. genesis 26:279–284, 2000. © 2000 Wiley-Liss, Inc.
daughter cells relative to each other and to the body axis.
Studies in Caenorhabditis elegans and Drosophila have
implicated the Wnt signaling pathway in regulating the polarity
of certain asymmetric cell divisions (reviewed in Cadigan and
Nusse, 1997; Hawkins and Garriga, 1998).
In the C. elegans four-cell embryo, the EMS blastomere
receives a polarizing signal from its neighbor, the germline
precursor P2 (Goldstein, 1992). This signal, encoded by the
mom-2/Wnt gene, acts in a position-dependent manner to
induce and orient the asymmetric division of the EMS cell
(Goldstein, 1993; Thorpe et al., 1997). As a consequence, the
anterior daughter of EMS adopts a mesodermal fate and the
posterior daughter adopts an endodermal fate. The MOM-
2/Wnt signal polarizes the EMS cell division by regulating
known Wnt pathway components including MOM-5
(Frizzled), APR-1 (adenomatous polyposis coli-related) and
WRM-1 (β-catenin/Armadillo) (Rocheleau et al., 1997; Thorpe
et al., 1997).
would otherwise reverse the polarity of the V5 cell division.
Our findings indicate that this lateral signaling pathway