MicroRNAs That Contribute to Coordinating the Immune Response in Drosophila melanogaster

ML Atilano, M Glittenberg, A Monteiro, RR Copley… - Genetics, 2017 - academic.oup.com
ML Atilano, M Glittenberg, A Monteiro, RR Copley, P Ligoxygakis
Genetics, 2017academic.oup.com
Atilano et al. present a Drosophila post-infection survival screen that takes advantage of a
library of miRNA mutant flies. Using genome wide microarray.. Small noncoding RNAs
called microRNAs (miRNAs) have emerged as post-transcriptional regulators of gene
expression related to host defenses. Here, we have used Drosophila melanogaster to
explore the contribution of individual or clusters of miRNAs in countering systemic Candida
albicans infection. From a total of 72 tested, we identify 6 miRNA allelic mutant backgrounds …
Abstract
Atilano et al. present a Drosophila post-infection survival screen that takes advantage of a library of miRNA mutant flies. Using genome wide microarray..
Small noncoding RNAs called microRNAs (miRNAs) have emerged as post-transcriptional regulators of gene expression related to host defenses. Here, we have used Drosophila melanogaster to explore the contribution of individual or clusters of miRNAs in countering systemic Candida albicans infection. From a total of 72 tested, we identify 6 miRNA allelic mutant backgrounds that modulate the survival response to infection and the ability to control pathogen number. These mutants also exhibit dysregulation of the Toll pathway target transcripts Drosomycin (Drs) and Immune-Induced Molecule 1 (IM1). These are characteristics of defects in Toll signaling, and consistent with this, we demonstrate dependency for one of the miRNA mutants on the NF-κΒ homolog Dif. We also quantify changes in the miRNA expression profile over time in response to three pathogen types, and identify 13 mature miRNA forms affected by pathogens that stimulate Toll signaling. To complement this, we provide a genome-wide map of potential NF-κB sites in proximity to miRNA genes. Finally, we demonstrate that systemic C. albicans infection contributes to a reduction in the total amount of branch-chained amino acids, which is miRNA-regulated. Overall, our data reveal a new layer of miRNA complexity regulating the fly response to systemic fungal infection.
Oxford University Press