[
Vitam Horm,
2011]
Germline proliferation in Caenorhabditis elegans is emerging as a compelling model system for understanding the molecular basis for the developmental and physiological control of cell proliferation. This review covers the discovery and implications of the role of the insulin/IGF-like signaling pathway in germline proliferation during germline development. This pathway plays a host of important roles in C. elegans biology. Its role in germline proliferation is important to generate the proper adult stem/progenitor population and to ensure optimal fecundity. Moreover, in this role, it is restricted to reproductive (as opposed to dauer) larval stages and impinges on the G2 of the cell cycle. Two putative insulin ligands are especially important for the germline role but do not mediate signaling in other tissues. A picture is emerging of a complex web of developmentally and temporally restricted, ligand- and tissue-specific responses to insulin signaling. Avenues for future studies include the regulation of specific insulin-like ligands and the mechanisms for tissue-specific responses to them.
[
Adv Exp Med Biol,
2013]
The intersection between developmental programs and environmental conditions that alter physiology is a growing area of research interest. The C. elegans germ line is emerging as a particularly sensitive and powerful model for these studies. The germ line is subject to environmentally regulated diapause points that allow worms to withstand harsh conditions both prior to and after reproduction commences. It also responds to more subtle changes in physiological conditions. Recent studies demonstrate that different aspects of germ line development are sensitive to environmental and physiological changes and that conserved signaling pathways such as the AMPK, Insulin/IGF, TGF, and TOR-S6K, and nuclear hormone receptor pathways mediate this sensitivity. Some of these pathways genetically interact with but appear distinct from previously characterized mechanisms of germline cell fate control such as Notch signaling. Here, we review several aspects of hermaphrodite germline development in the context of "feasting," "food-limited," and "fasting" conditions. We also consider connections between lifespan, metabolism and the germ line, and we comment on special considerations for examining germline development under altered environmental and physiological conditions. Finally, we summarize the major outstanding questions in the field.