Identification of stress specific autophagy regulators from tandem CRISPR screens
Autophagy is a conserved degradative process that promotes cellular homeostasis under stress conditions. Under nutrient starvation autophagy is largely non-selective, promoting the indiscriminate breakdown of cytosolic components. Conversely, selective autophagy is responsible for the specific turnover of damaged organelles including endoplasmic reticula, lysosomes, mitochondria, and peroxisomes. The mechanisms of selective autophagy are best understood through the activity of cargo-specific receptors called autophagy receptors, which facilitate the engulfment of the targeted cargo within autophagosomes, leading to subsequent degradation. We hypothesized that selective autophagy may be regulated by distinct upstream signaling from starvation induced autophagy, providing an additional layer of regulatory control to targeted autophagic degradation. To comprehensively address this question we conducted kinome-wide CRISPR screens to identify distinct signaling pathways responsible for the