Characterisation of thein-vivomiRNA landscape inDrosophilaribonuclease mutants reveals Pacman mediated regulation of the highly conservedlet-7cluster during apoptotic processes

Abstract

ABSTRACTThe control of gene expression is a fundamental process essential for correct development and to maintain homeostasis. Many post-transcriptional mechanisms exist to maintain the correct levels of each RNA transcript within the cell. Controlled and targeted cytoplasmic RNA degradation is one such mechanism with the 5’-3’ exoribonuclease Pacman (XRN1) and the 3’-5’ exoribonuclease Dis3L2 playing crucial roles. Loss of function mutations in either Pacman or Dis3L2 have been demonstrated to result in distinct phenotypes, and both have been implicated in human disease. One mechanism by which gene expression is controlled is through the function of miRNAs which have been shown to be crucial for the control of almost all cellular processes. Although the biogenesis and mechanisms of action of miRNAs have been comprehensively studied, the mechanisms regulating their own turnover are not well understood. Here we characterise the miRNA landscape in a natural developing tissue, theDrosophila melanogasterwing imaginal disc, and assess the importance of Pacman and Dis3L2 on the abundance of miRNAs. We reveal a complex landscape of miRNA expression and show that whilst a null mutation indis3L2has a minimal effect on the miRNA expression profile, loss of Pacman has a profound effect with a third of all detected miRNAs demonstrating Pacman-sensitivity. We also reveal a role of Pacman in regulating the highly conservedlet-7cluster (containingmiR-100, let-7andmiR-125) and present a genetic model outlining a positive feedback loop regulated by Pacman which begins to explain the apoptotic phenotype observed in Pacman mutants.