Maternally inherited siRNAs initiate piRNA cluster formation

Abstract

AbstractPIWI-interacting RNAs (piRNAs) guide repression of transposable elements in germlines of animals. In Drosophila, piRNAs are produced from heterochromatic genomic loci, called piRNA clusters, that act as a repositories of information about genome invaders. piRNA generation by dual-strand clusters depend on the chromatin-bound Rhino-Deadlock-Cutoff (RDC) complex, which is deposited on clusters guided by piRNAs, forming a feed-forward loop in which piRNAs promote their own biogenesis. However, how piRNA clusters are formed initially, before cognate piRNAs are present, remained unknown. Here we report spontaneous de novo formation of a piRNA cluster from repetitive transgenic sequences. We show that cluster formation occurs gradually over several generations and requires continuous trans-generational transmission of small RNAs from mothers to their progeny. We discovered that maternally-supplied siRNAs are responsible for triggering de novo cluster activation in progeny. In contrast, the siRNA pathway is dispensable for cluster function after its establishment. These results revealed an unexpected cross-talk between the siRNA and piRNA pathways and suggest a mechanism for de novo formation of piRNA clusters triggered by production of siRNAs.Highlights-A transcribed repetitive transgene is spontaneously converted into dual-strand piRNA cluster-Establishment of piRNA cluster occurs over multiple generations and requires cytoplasmic inheritance of cognate small RNA from mothers-Cognate siRNAs initiate the activation of piRNA cluster, but are dispensable after its establishment