In the Caenorhabditis elegans hermaphrodite, the establishment of the egg-l
aying system requires the connection of two epithelial tubes: the uterus of
the gonad and the vulva in the underlying ectoderm. A specialized uterine
cell, the anchor cell (AC), plays a central role in specifying the fates of
the uterine and vulval precursor cells via the EGF-Ras-MAP kinase and the
Notch/Delta signaling pathways. This central and common inducing source ens
ures that the two sets of cells are in register and it specifies the cell t
ypes that build the T-shaped connection between uterus and vulva. On either
side, progeny of the induced cells form lumen structures and undergo stere
otyped cell-to-cell fusion, thereby building epithelial tubes. Finally, the
anchor cell fuses with a uterine syncytium and thus leaves only a thin cel
lular process between the lumen of the uterus and the vulva. In the adult,
the fertilized eggs exit the lumen of the uterus through the vulva. This re
latively simple developmental process serves as a model to study the biolog
y of cells during organogenesis, such as intercellular signaling, cell pola
rity, invasion of basal laminae and epithelia, cell recognition and cell fu
sion. The anchor cell is a particularly interesting cell as it coordinates
the development of its neighboring cells by using different signaling pathw
ays at different times. (C) 1999 Editions scientifiques et medicales Elsevi
er SAS.