Exploring the Connection between Autophagy and Heat-Stress Tolerance in Drosophila melanogaster

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Abstract

Mechanisms aimed at recovering from heat-induced damage are closely associated with the ability of ectotherms to survive exposition to stressful temperatures. Among these mechanisms the respective contribution of autophagy, a ubiquitous stress-responsive catabolic process, has more recently come to light. By increasing the turnover of cellular structures as well as the clearance of long-lived protein and protein aggregates, the induction of autophagy has been linked to increased tolerance to range of abiotic stressors in diverse ectothermic organisms. Since our understanding of the relationship between autophagy and heat-tolerance currently remains limited in insect models, we hypothesized that (1) heat-stress would cause an increase of autophagy in Drosophila melanogaster tissues and (2) rapamycin exposure would trigger a detectable autophagic response in flies and increase their heat-tolerance. In line with our hypothesis, we report that flies exposed to heat-stress present signs of protein aggregation and appears to trigger an autophagy-related homoeostatic response as a result. We further show that rapamycin feeding causes the systemic effect associated with TOR inhibition, induces autophagy at least locally in the fly gut, and increase the heat-stress tolerance of individuals. This points toward a likely substantial contribution of this autophagy to cope with stressful temperatures in insects.

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