We cloned the dbl-1 gene, a C. elegans homolog of Drosophila decapentaplegic and vertebrate BMP genes. Loss-of-function mutations in dbl-1 cause markedly reduced body size and defective male ...copulatory structures. Conversely, dbl-1 overexpression causes markedly increased body size and partly complementary male tail phenotypes, indicating that DBL-1 acts as a dose-dependent regulator of these processes. Evidence from genetic interactions indicates that these effects are mediated by a Smad signaling pathway, for which DBL-1 is a previously unidentified ligand. Our study of the dbl-1 expression pattern suggests a role for neuronal cells in global size regulation as well as male tail patterning.
With the characterization of the Smads 5 years ago, it became possible to trace the TGFβ signal transduction pathway from the plasma membrane to the nucleus. Since that time, many Smad interaction ...partners, cofactors and target genes have been identified using a variety of experimental approaches and model systems. Understanding how these partners generate tissue specificity and crosstalk between pathways is an ongoing pursuit for the field of TGFβ signal transduction. The nematode Caenorhabditis elegans provides a simple, genetically tractable model organism in which to address this goal. This review will examine progress towards the identification of cellular and molecular targets of TGFβ-related signaling in C. elegans.
TGF-beta signaling in the nematode Caenorhabditis elegans plays multiple roles in the development of the animal. The Sma/Mab pathway controls body size, male tail sensory ray identity and spicule ...formation. Three Smad genes, sma-2, sma-3 and sma-4, are all required for signal transduction, suggesting that the functional complex could be a heterotrimer. Because the C termini of Smads play important roles in receptor-mediated activation and heteromeric complex formation, we generated C-terminal mutations in the C. elegans Smad genes and tested their activities in vivo in each of their distinct developmental roles. We show that pseudophosphorylated SMA-3 is dominant negative in body size, but functional in sensory ray and spicule development. Somewhat differently, pseudophosphorylated SMA-2 is active in any tissue. The C-terminal mutants of SMA-4 function like wild type, suggesting that the SMA-4 C terminus is dispensable. Using a combination of different C-terminal mutations in SMA-2 and SMA-3, we found a complex set of requirements for Smad-phosphorylation state that are specific to each outcome. Finally, we detected a physical interaction of SMA-3 with the forkhead transcription factor LIN-31, which is enhanced by SMA-3 pseudophosphorylation and reduced in an unphosphorylatable mutant. We conclude that the tissue-specific requirements for Smad phosphorylation may result, in part, from the need to interact with tissue-specific transcription co-factors that have different affinities for phosphorylated and unphosphorylated Smad protein.
In insects and in mammals, male sperm and seminal fluid provide signaling factors that influence various aspects of female physiology and behavior to promote reproductive success and to compete with ...other males. It is less apparent how important such signaling is in the context of a self-fertile hermaphrodite species. We have addressed this question in the nematode Caenorhabditis elegans, which can reproduce either by hermaphrodite self-fertilization or by male-hermaphrodite mating.
We have studied the egg-laying defective mutant, egl-32, and found that the cellular basis of the egl-32 egg-laying phenotype is likely a defect in sperm. First, the time of egl-32 action coincides with the timing of spermatogenesis in the hermaphrodite. Second, egl-32 interacts with genes expressed in sperm. Third, mating experiments have revealed that wild-type sperm can rescue the egg-laying defect of egl-32 mutant animals. Most importantly, introduction of mutant egl-32 sperm into wild-type hermaphrodites or females is sufficient to induce an egg-laying defective phenotype.
Previous work has revealed that C. elegans sperm release factors that stimulate oocyte maturation and ovulation. Here we describe evidence that sperm also promote egg laying, the release of embryos from the uterus.
Intracellular iron regulates gene expression by inhibiting the interaction of iron regulatory proteins (IRPs) with RNA motifs called iron-responsive elements (IREs). To assay this interaction in ...living cells we have developed two fluorescent IRE-based reporters that rapidly, reversibly, and specifically respond to changes in cellular iron status as well as signaling that modifies IRP activity. The reporters were also sufficiently sensitive to distinguish apo- from holotransferrin in the medium, to detect the effect of modifiers of the transferrin pathway such as HFE, and to detect the donation or chelation of iron by siderophores bound to the lipocalin neutrophil gelatinase-associated lipocalin (Ngal). In addition, alternative configurations of the IRE motif either enhanced or repressed fluorescence, permitting a ratio analysis of the iron-dependent response. These characteristics make it possible to visualize iron-IRP-IRE interactions in vivo.
In C. elegans, a TGFbeta-related signaling pathway regulates body size. Loss of function of the signaling ligand (dbl-1), receptors (daf-4 and sma-6) or Smads (sma-2, sma-3 and sma-4) results in ...viable, but smaller animals because of a reduction in postembryonic growth. We have investigated the tissue specificity of this pathway in body size regulation. We show that different tissues are reduced in size by different proportions, with hypodermal blast cell size most closely proportional to body size. We show that SMA-3 Smad is expressed in pharynx, intestine and hypodermis, as has been previously reported for the type I receptor SMA-6. Furthermore, we find that SMA-3::GFP is nuclear localized in all of these tissues, and that nuclear localization is enhanced by SMA-6 activity. Interestingly, SMA-3 protein accumulation was found to be negatively regulated by the level of Sma/Mab pathway activity. Using genetic mosaic analysis and directed expression of SMA-3, we find that SMA-3 activity in the hypodermis is necessary and sufficient for normal body size. As dbl-1 is expressed primarily in the nervous system, these results suggest a model in which postembryonic growth of hypodermal cells is regulated by TGFbeta-related signaling from the nervous system to the hypodermis.
A TGFβ signal transduction cascade controls body size and male tail morphogenesis in the nematode Caenorhabditis elegans. We have analyzed the function of the sma-3 Smad gene, one of three Smad genes ...that function in this pathway. Null mutations in sma-3 are at least as severe as null mutations in the ligand and type I receptor genes, dbl-1 and sma-6, indicating that the other Smads do not function in the absence of SMA-3. Furthermore, null mutations in sma-3 do not cause defects in egg laying or in regulation of the developmentally arrested dauer larva stage, indicating no overlapping function with another C. elegans TGFβ signaling pathway. The sma-3 gene is widely expressed at all developmental stages in hermaphrodites and males. The molecular lesions associated with eight sma-3 alleles of varying severity have been determined. The missense mutations cluster in two previously identified regions important for Smad function.
TGF-beta superfamily ligands play fundamental roles in the development and physiology of diverse animal species. Genetic and genomic analyses in the model organism Caenorhabditis elegans have ...contributed to the understanding of TGF-beta-related signal transduction mechanisms. In this chapter, I describe the currently characterized TGF-beta-related signals and signal transduction cassettes in C. elegans. Homology searches of the genome identify five TGF-beta-related genes, for which functions have been identified for three. Two of the TGF-beta-related genes, daf-7 and dbl-1, function through conventional signaling pathways. These signaling pathways are comprised of ser/thr kinase receptors, Smads, and transcription co-factors. A third TGF-beta-related gene, unc-129, functions in axonal guidance using novel signaling mechanisms. Thus, TGF-beta-related signaling in C. elegans proceeds via both conserved and novel paradigms that can inform studies in other animal systems.