Autophagy, an evolutionarily conserved lysosome-mediated degradation, promotes cell survival under starvation and is controlled by insulin/target of rapamycin (TOR) signaling. In Drosophila, nutrient depletion induces autophagy in the fat body. Interestingly, nutrient availability and insulin/TOR signaling also influence the size and structure of Drosophila ovaries, however, the role of nutrient signaling and autophagy during this process remains to be elucidated. Here, we show that starvation induces autophagy in germline cells (GCs) and in follicle cells (FCs) in Drosophila ovaries. This process is mediated by the ATG machinery and involves the upregulation of Atg genes. We further demonstrate that insulin/TOR signaling controls autophagy in FCs and GCs. The analysis of chimeric females reveals that autophagy in FCs, but not in GCs, is required for egg development. Strikingly, when animals lack Atg gene function in both cell types, ovaries develop normally, suggesting that the incompatibility between autophagy-competent GCs and autophagy-deficient FCs leads to defective egg development. As egg morphogenesis depends on a tightly linked signaling between FCs and GCs, we propose a model in which autophagy is required for the communication between these two cell types. Our data establish an important function for autophagy during oogenesis and contributes to the understanding of the role of autophagy in animal development. Cell Death and Differentiation (2011) 18, 915-924; doi:10.1038/cdd.2010.157; published online 10 December 2010Autophagy, a conserved degradation process, serves as an energy reserve in response to starvation, but also has critical roles in cellular remodeling during development, immunity and cancer.1 The central regulator of autophagy is the target of rapamycin (TOR), a downstream kinase of the insulin/insulinlike growth factor (IGF) signaling pathway (IIS).
2In Drosophila, IIS/TOR signaling regulates autophagy in the fat body, 3,4 but it remains unclear whether autophagy is also important in other nutrient-responding organs. The Drosophila ovaries are of special interest, as starvation inhibits ovarian development 5 and mutations in IIS components lead to defects in oogenesis and female sterility.6-9 These findings raise the question whether IIS/TOR signaling controls autophagy during oogenesis.Notably, starvation induces programmed cell death (PCD) during Drosophila oogenesis in the germarium, in nurse cells (NCs) and follicle cells (FCs), 5 and increases caspase activity during mid-oogenesis. 10 At later stages, NCs also undergo developmental PCD necessary to complete oogenesis. So far, primarily the implication of apoptosis has been investigated. Only recent reports show that autophagy occurs in the germarium, during mid-oogenesis and in dying NC. Interestingly, inhibition of Atg genes prevents DNA fragmentation, suggesting that autophagy and apoptotic cell death are connected.11,12 However, the regulatory mechanisms underlying these processes and the contribution of different ovarian cell t...
