Abstract
BackgroundFor species survival, the germline must faithfully transmit genetic information to the progeny. Transposable elements (TEs) constitute a significant threat to genome stability due to their mobility. In the metazoan germline, their mobilization is limited by a class of small RNAs called PIWI-interacting RNAs (piRNAs) produced by dedicated genomic loci called piRNA clusters. Although the piRNA pathway is an adaptive genomic immunity system, it remains unclear how the germline gains protection from a new transposon invasion.ResultsTo address this question, we analyze Drosophila melanogaster lines harboring a deletion within flamenco, a major piRNA cluster specifically expressed in somatic follicular cells. This deletion leads to derepression of the retrotransposon ZAM in the somatic follicular cells and subsequent germline genome invasion. In this mutant line, we identify de novo production of sense and antisense ZAM-derived piRNAs that display a germinal molecular signature. These piRNAs originated from a new ZAM insertion into a germline dual-strand piRNA cluster and silence ZAM expression specifically in germ cells. Finally, we find that ZAM trapping in a germinal piRNA cluster is a frequent event that occurs early during the isolation of the mutant line.ConclusionsTransposons can hijack the host developmental process to propagate whenever their silencing is lost. Here, we show that the germline can protect itself by trapping invading somatic-specific TEs into germline piRNA clusters. This is the first demonstration of “auto-immunization” of a germline endangered by mobilization of a surrounding somatic TE.
Highlights
For species survival, the germline must faithfully transmit genetic information to the progeny
The PIWI-interacting RNAs (piRNAs) pathway has been extensively studied in the Drosophila melanogaster ovary that comprises about 16 ovarioles, each of which contains a succession of follicles composed of germline and somatic follicular cells [8]
ZAM is silenced in a tissue-specific manner Previous studies have reported that distinct tissuespecific piRNA populations are expressed in the germline and in somatic follicular cells [17]
Summary
The germline must faithfully transmit genetic information to the progeny. Their mobilization is limited by a class of small RNAs called PIWI-interacting RNAs (piRNAs) produced by dedicated genomic loci called piRNA clusters. Germ cells are the only cell type within multicellular organisms that can transfer genetic and epigenetic material to the offspring Due to their capacity to move, transposable elements (TEs), a major component of eukaryotic genomes, constitute a significant threat to the germline genome integrity [1,2,3]. In D. melanogaster, piRNAs are encoded by dedicated genomic loci that are called piRNA clusters [9] These clusters are composed of full length or truncated TEs that define the repertoire of elements that are recognized and silenced by the piRNA machinery. Unidirectional clusters are expressed predominantly in somatic follicular cells of ovaries, while
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