Abstract

Piwi-interacting RNAs (piRNAs) play critical roles in protecting germline genome integrity and promoting normal spermiogenic differentiation. In mammals, there are two populations of piRNAs: pre-pachytene and pachytene. Transposon-rich pre-pachytene piRNAs are expressed in fetal and perinatal germ cells and are required for retrotransposon silencing, whereas transposon-poor pachytene piRNAs are expressed in spermatocytes and round spermatids and regulate mRNA transcript levels. MOV10L1, a germ cell-specific RNA helicase, is essential for the production of both populations of piRNAs. Although the requirement of the RNA helicase domain located in the MOV10L1 C-terminal region for piRNA biogenesis is well known, its large N-terminal region remains mysterious. Here we report a novel Mov10l1 mutation, named yama, in the Mov10l1 N-terminal region. The yama mutation results in a single amino acid substitution V229E. The yama mutation causes meiotic arrest, de-repression of transposable elements, and male sterility because of defects in pre-pachytene piRNA biogenesis. Moreover, restricting the Mov10l1 mutation effects to later stages in germ cell development by combining with a postnatal conditional deletion of a complementing wild-type allele causes absence of pachytene piRNAs, accumulation of piRNA precursors, polar conglomeration of piRNA pathway proteins in spermatocytes, and spermiogenic arrest. Mechanistically, the V229E substitution in MOV10L1 reduces its interaction with PLD6, an endonuclease that generates the 5' ends of piRNA intermediates. Our results uncover an important role for the MOV10L1-PLD6 interaction in piRNA biogenesis throughout male germ cell development.

Highlights

  • Transposable elements, which constitute around 40% of the mammalian genome, play important roles in genome evolution

  • Mutagenesis was performed on male mice of the C57BL/6J strain, and a three-generation breeding scheme was carried out including outcrossing with females of the FVB/NJ strain (FVB) strain (Fig 1A)

  • We examined the level of precursors of three pachytene Piwi-interacting RNAs (piRNAs): piR1, piR2 and piLR (Fig 4E). qRT-PCR analysis revealed that these three precursors accumulated to 2 to 5-fold higher levels in the mutant testes compared with the wild-type testes (Fig 4E)

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Summary

Introduction

Transposable elements, which constitute around 40% of the mammalian genome, play important roles in genome evolution. Their mobilization can disrupt gene function and cause diseases [1,2]. Pre-pachytene piRNAs associate with MILI and MIWI2 in embryonic and perinatal germ cells and are required for DNA methylation and retrotransposon silencing [4,5,6,7]. Pachytene piRNAs are present in spermatocytes and round spermatids and are associated with MILI and MIWI [8,9,10]. MIWI and pachytene piRNAs function in activating translation of a subset of spermiogenic mRNAs [17]. PiRNAs perform diverse functions throughout male germ cell development in mammals

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