Knockdown of Atg1 or Atg18 in adult adipocytes impairs lipophagy and reduces lifespan of fruit flies (Drosophila melanogaster)

Autophagy, a lysosome-based eukaryotic cellular degradation system, has previously been implicated in lifespan regulation in different animal models. In this report, we show that expression of the RNAi transgenes targeting the transcripts of the key autophagy genes such as Atg1 or Atg18 in adult fly muscle or glia does not affect the overall levels of autophagosomes in those tissues and does not change the lifespan of the tested flies, but lifespan reduction phenotype has become apparent when Atg1 RNAi or Atg18 RNAi is expressed in a non-tissue-specific manner through a Tub-Gal4 in adult flies or after lipophagy is eradicated through the knockdown of Atg1 or Atg18 in adult fly adipocytes. Lifespan reduction was also observed when Atg1 or Atg18 was knocked down in adult fly enteroblasts and middle gut stem cells. Over-expression of wildtype Atg1 in adult fly muscle or adipocytes reduces lifespan. High levels of ubiquitinated protein aggregates could be the culprit of the reduced lifespan of Atg1 over-expression flies. Our research data presented here have highlighted the important functions of the key autophagy genes in adult fly adipocytes, enteroblasts, and midgut stem cells for lifespan regulation and their undetermined functions in adult fly muscle and glia. Summary In this research, we have demonstrated that the key autophagy genes play important roles in fly lifespan regulation through adult adipose tissues, enteroblasts, and middle gut stem cells.