Activation of Ras signalling occurs in ∼30% of human cancers; however, activated Ras alone is not sufficient for tumourigenesis. In a screen for tumour suppressors that cooperate with oncogenic Ras (Ras V12) in Drosophila, we identified genes involved in the autophagy pathway. Bioinformatic analysis of human tumours revealed that several core autophagy genes, including GABARAP, correlate with oncogenic KRAS mutations and poor prognosis in human pancreatic cancer, supporting a potential tumour-suppressive effect of the pathway in Ras-driven human cancers. In Drosophila, we demonstrate that blocking autophagy at any step of the pathway enhances Ras V12-driven epithelial tissue overgrowth via the accumulation of reactive oxygen species and activation of the Jun kinase stress response pathway. Blocking autophagy in Ras V12 clones also results in non-cell-autonomous effects with autophagy, cell proliferation and caspase activation induced in adjacent wild-type cells. Our study has implications for understanding the interplay between perturbations in Ras signalling and autophagy in tumourigenesis, which might inform the development of novel therapeutics targeting Ras-driven cancers.
Funding
The project was supported by grants from the National Health and Medical Research Council (NHMRC, no. 1020525) and from the PeterMac Foundation to HER, JMP, KJS and POH, and funds from LIMS and La Trobe University. JM was supported by an NHMRC grant (no. 1020525) and LIMS and La Trobe University, SB by a Australian Postgraduate Research Award and TZ by a Marie Curie Excellence grant. HER and POH are supported by fellowships of the (NHMRC) and funds from LIMS and La Trobe University.