DAF-18/PTEN inhibits germline zygotic gene activation during primordial germ cell quiescence

Quiescence, an actively-maintained reversible state of cell cycle arrest, is not well understood. PTEN is one of the most frequently lost tumor suppressors in human cancers and regulates quiescence of stem cells and cancer cells. The sole PTEN ortholog in Caenorhabditis elegans is daf-18. In a C. elegans loss-of-function mutant for daf-18, primordial germ cells (PGCs) divide inappropriately in L1 larvae hatched into starvation conditions, in a TOR-dependent manner. Here, we further investigated the role of daf-18 in maintaining PGC quiescence in L1 starvation. We found that maternal or zygotic daf-18 is sufficient to maintain cell cycle quiescence, that daf-18 acts in the germ line and soma, and that daf-18 affects timing of PGC divisions in fed animals. Importantly, our results also implicate daf-18 in repression of germline zygotic gene activation, though not in germline fate specification. However, TOR is less important to germline zygotic gene expression, suggesting that in the absence of food, daf-18/PTEN prevents inappropriate germline zygotic gene activation and cell division by distinct mechanisms. Author summary PTEN is the second-most commonly lost tumor suppressor in human cancers. The C. elegans daf-18 gene encodes the worm version of PTEN. In the C. elegans embryo, the two primordial germ cells (Z2 and Z3) are born, and they will eventually form the entire germ line. These two cells are quiescent in the embryo. They do not divide until after the L1 larva hatches and starts feeding. That is, if the L1 larva hatches in the absence of food, these cells will remain quiescent until the worm feeds. Previous studies showed that in worms that have lost daf-18 function, Z2 and Z3 inappropriately begin dividing in the L1 larva even in the absence of food. We found that daf-18 normally prevents this inappropriate division when daf-18 function is provided from the mother or from within the larva, and when it is provided from the germ cells or from the somatic cells. We also found that without daf-18, certain germline genes are inappropriately expressed. Finally, we found that one of the mechanisms known to regulate cell division in this context does not similarly regulate germline gene activity.

Automated summary

The study reveals the role of daf-18 in maintaining PGC quiescence in L1 starvation through maternal or zygotic sources and highlights its effects in both germ line and somatic cells. Additionally, daf-18 is implicated in preventing inappropriate germline zygotic gene activation and cell division in the absence of food, possibly through distinct mechanisms from TOR signaling.