The nematode Caenorhabditis briggsae is an excellent model organism for the comparative analysis of gene function and developmental mechanisms. To study the evolutionary conservation and divergence of genetic pathways mediating vulva formation, we screened for mutations in C. briggsae that cause the egg-laying defective (Egl) phenotype. Here, we report the characterization of 13 genes, including three that are orthologs of Caenorhabditis elegans unc-84 (SUN domain), lin-39 (Dfd/Scr-related homeobox), and lin-11 (LIM homeobox). Based on the morphology and cell fate changes, the mutants were placed into four different categories. Class 1 animals have normal-looking vulva and vulva-uterine connections, indicating defects in other components of the egg-laying system. Class 2 animals frequently lack some or all of the vulval precursor cells (VPCs) due to defects in the migration of P-cell nuclei into the ventral hypodermal region. Class 3 animals show inappropriate fusion of VPCs to the hypodermal syncytium, leading to a reduced number of vulval progeny. Finally, class 4 animals exhibit abnormal vulval invagination and morphology. Interestingly, we did not find mutations that affect VPC induction and fates. Our work is the first study involving the characterization of genes in C. briggsae vulva formation, and it offers a basis for future investigations of these genes in C. elegans.
The Caenorhabditis elegans LIM homeobox gene lin-11 plays crucial roles in the morphogenesis of the reproductive system and differentiation of several neurons. The expression of lin-11 in different tissues is regulated by enhancer regions located upstream as well as within lin-11 introns. These regions are functionally separable suggesting that multiple regulatory inputs operate to control the spatiotemporal pattern of lin-11 expression. To further dissect apart the nature of lin-11 regulation we focused on three Caenorhabditis species C. briggsae, C. remanei, and C. brenneri that are substantially diverged from C. elegans but share almost identical vulval morphology. We show that, in these species, the 5' region of lin-11 possesses conserved sequences to activate lin-11 expression in the reproductive system. Analysis of the in vivo role of these sequences in C. elegans has led to the identification of three functionally distinct enhancers for the vulva, VC neurons, and uterine pi lineage cells. We found that the pi enhancer is regulated by FOS homolog FOS-1 and LIN-12/Notch pathway effectors, LAG-1 (Su(H)/CBF1 family) and EGL-43 (EVI1 family). These results indicate that multiple factors cooperate to regulate pi-specific expression of lin-11 and together with other findings suggest that the mechanism of lin-11 regulation by LIN-12/Notch signaling is evolutionarily conserved in Caenorhabditis species. Our work demonstrates that 4-way comparison is a powerful tool to study conserved mechanisms of gene regulation in C. elegans and other nematodes.
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