-
[
Science,
2004]
The amazing precision with which different cell types find their correct locations in developing tissues has fascinated biologists for decades. Models of cell fate patterning during development emphasize the contrast between spatial gradients of developmental signals that act at long range and cell-to-cell signaling events that act locally. Development of the vulva in the nematode Caenorhabditis elegans provides an elegant model system for examining the patterning of cell fate in an animal. There is strong evidence that two different intercellular signals contribute to the relatively simple induction of cell fate among vulval precursor cells (VPCs): a long-range spatial gradient of epidermal growth factor (EGF) mediated by the EGF receptor (1, 2) and a cell-to-cell lateral signal mediated by the Notch-like receptor LIN-12 (35). It is well established that the combined action of the EGF receptor and LIN-12 receptor signaling pathways generate the pattern of VPCs in the developing vulva (6); however, the molecular details of this cooperative effect have remained elusive. On page 663 of this issue, Yoo et al. (7) provide the missing molecular connection. They report that VPCs activated by a low level of EGF are blocked from adopting a particular cell fate by a LIN-12 lateral signal from a neighboring cell.
-
[
PLoS Biol,
2022]
In this issue of PLOS Biology, Lattmann and colleagues report a new function for proteins of the DNA prereplication complex promoting the anchor cell to invade through the basement membrane and initiate vulval development in Caenorhabditis elegans.
-
[
Curr Biol,
2011]
Centrosome size is controlled by a limiting component mechanism in which a fixed quantity of precursor protein is divided up among however many centrosomes are present. This simple scheme explains size control and scaling of centrosomes relative to cell volume.
-
[
Dev Cell,
2002]
Presenilins mediate they-secretase cleavage of Notch transmembrane receptors as well as the transmembrane P-amyloid precursor protein (PAPP), but they are not thought to accomplish this alone. Recent genetic screens in C. elegans, presented in this issue of Developmental Cell, identify two genes that are essential to gamma-secretase activity and may interact with presenilins.
-
[
Zh Obshch Biol,
2004]
The early embryonic development of Nematoda proceeds by three ways, which strictly correspond to three phylogenetic lineages. Under the first way the endodermal precursor is localized in the posterior blastomere at the two-cells stage (such a determination is the peculiarity of all the Chromadoria, including Secernentea and Caenorhabditis elegans). Under the second way the endodermal precursor is localized in the anterior blastomere of the egg. This feature is very unusual for Metazoa, but it is the only way of entoderm determination in all the Dorylaimia orders (Mononchida, Mermithida, Trichinellida, Dioctophymida, Dorylaimida). The third way described for the sea Enoplida is characterized with variable location of blastomers and changeable localization of endodermal precursor before eight-cells stage. It is still unknown of these three variants was typical the most recent common ancestor of present Nematoda. D.A. Voronov (2001) produced argument in favour of variable cleavage as primitive one for Nematoda. This opinion is rejected because of the similarity in development between sea Enoplida and C. elegans. Both of them share such features as low-cell gastrula and neurula, identical phylotypic lima bean stage of embryogenesis, identity of some geometrical figures 4 or 8 blastomers, isolating of the endodermal precursor at the eight-cells stage, the lack in development of any plesiomorphous features, which are widely distributed outside Nematoda (under the variable cleavage of Enoplida there are no such locations of blastomers, which are typical for spiral or radial cleavage, there are no embryonic leaves as well). One can see the homology of separate cells at adult Enoplida and Rhabditia. Cell lineage of Triplonchida as far as it is described at Tobrilus gracilis doesn't exclude the hypothesis on their origin from the cleavage similar to one of present Dorylaimia with localization of the endodermal precursor in the anterior blastomere. In view of all the considerations mentioned above one should interpret variable cleavage of Enoplida as derivation from invariant cleavage
-
[
Cell,
2004]
In this issue of Cell, Inoue et al. (2004) reports that LIN-18, an atypical receptor tyrosine kinase related to mammalian Ryk and Drosophila Derailed, mediates Wnt signaling in parallel to LIN-17/Frizzled (Fz) during worm vulval development. LIN-18/Ryk and LIN-17/Fz appear to exhibit distinct Wnt specificity, and surprisingly, the LIN-18 intracellular domain may be dispensable.
-
[
Dev Cell,
2003]
In multicellular organisms, most cells are confined to a particular tissue. However, some cells invade organs during normal development and in diseases (e.g., angiogenesis and cancer). Recent studies reveal a fascinating step-by-step process in which specific vulval cells induce and attract a single gonadal cell to invade an epithelial tubular organ in order to connect the uterus to the vulva in C. elegans.
-
[
BMC Biol,
2012]
In a paper in BMC Biology Virk et al. show that Caenorhabditis elegans lifespan is extended in response to a diet of folate-deficient Escherichia coli. The deficiencies in folate biosynthesis were due to an aroD mutation, or treatment of E. coli with sulfa drugs, which are mimics of the folate precursor para-aminobenzoic acid. This study suggests that pharmacological manipulation of the gut microbiome folate status may be a viable approach to slow animal aging, and raises questions about folate supplementation.
-
[
Worm,
2014]
Animal development is driven by robust, cell-specific gene expression programs. Understanding mechanistically how a single transcription factor (TF) can govern distinct programs with exquisite precision is a major challenge. We view TFs as signal integrators, taking information from co-regulator interactions, post-translational modifications, other transcription factors, chromatin state, DNA sequence and in some cases, specific noncovalent ligands, to determine the collection of genes regulated by a TF at any given time. Here, we describe a reductionist approach to combinatorial transcriptional regulation, focusing on a single C. elegans TF, the nuclear hormone receptor NHR-25, and a single post-translational modification, SUMO. We suggest that the ratio of sumoylated to unsumoylated NHR-25 could specify a switch-like cell-fate decision during vulval development. Direct examination of this "SUMO ratio" in vivo is challenging and we discuss possible solutions going forward. We also consider how sumoylation of multiple substrates might be coordinated during vulval development. Finally, we note that iteration of this approach could leverage our sumoylation findings to define the roles of other effectors of NHR-25 in the developing vulva and in other tissues.
-
[
Nature,
1992]
Induction is the process in development in which the fate of one cell mass is determined by another. A simple example occurs during vulval development in the nematode Caenorhabditis elegans: a gonadal cell called the anchor cell induces three neighbouring cells to embark on a programme of cell division and morphogenesis, which culminates, in a few hours, in the formation of a vulva. On page 470 of this issue, Hill and Sternberg report strong evidence that they have identified the anchor-cell signalling molecule, which they find is a member of the EGF (epidermal growth factor) group of growth factors.