The dual role of Spn-E in supporting heterotypic ping-pong piRNA amplification in silkworms

The PIWI-interacting RNA (piRNA) pathway plays a crucial role in silencing transposons in the germline. piRNA-guided target cleavage by PIWI proteins triggers the biogenesis of new piRNAs from the cleaved RNA fragments. This process, known as the ping-pong cycle, is mediated by the two PIWI proteins, Siwi and BmAgo3, in silkworms. However, the detailed molecular mechanism of the ping-pong cycle remains largely unclear. Here, we show that Spindle-E (Spn-E), a putative ATP-dependent RNA helicase, is essential for BmAgo3-dependent production of Siwi-bound piRNAs in the ping-pong cycle and that this function of Spn-E requires its ATPase activity. Moreover, Spn-E acts to suppress homotypic Siwi-Siwi ping-pong, but this function of Spn-E is independent of its ATPase activity. These results highlight the dual role of Spn-E in facilitating proper heterotypic ping-pong in silkworms.

The piRNA pathway is required for nucleopolyhedrovirus replication in Lepidoptera

The Piwi-interacting RNA (piRNA) pathway has been shown to be involved in the antiviral defense against RNA viruses, especially in mosquitoes, but its universality has been questioned. Here, we used the Bombyx mori nucleopolyhedrovirus (BmNPV) -infected silkworm as a model to explore the effects of the key factors of piRNA pathway, BmAgo3 and Siwi, on replication of a large DNA virus (belonging to the family of Baculoviridae). We demonstrated that BmAgo3 and Siwi could promote the replication of BmNPV through both overexpression and knockdown experiments in BmN cell lines and silkworm larvae. In addition, we also studied the effect of PIWI-class genes on Autographa californica nucleopolyhedrovirus (AcMNPV) replication in the Spodoptera frugiperda cell line Sf9. By knocking down the expression of PIWI-class genes in Sf9, we found that Piwi-like-1 and Piwi-like-2-3 could inhibit AcMNPV replication, while Piwi-like-4-5 promoted virus replication. Our study provides compelling evidence that the piRNA pathway affects host infection by exogenous viruses in Lepidoptera. Also, our results reflect the diversity of the roles of PIWI-class genes in virus infection of the host across species. This study is the first to explore the interaction of PIWI-class proteins with DNA viruses, providing new insights into the functional roles of the piRNA pathway.

Functional Characterization of Silkworm PIWI Proteins by Embryonic RNAi

The molecular mechanisms of sex-determination systems among insect orders and species are diverse. Therefore, genes involved in sex determination are strong candidates for insect pest management. Even though lepidopterans are major agricultural insect pests that cause widespread economic damage to various crops, their sex-determination systems have not been fully elucidated, even in the silkworm (Bombyx mori), a model lepidopteran insect. In 2014, we found that a female-specific W chromosome-derived PIWI-interacting RNA (piRNA) determines femaleness in silkworms. To analyze the function of two core silkworm piRNA biogenesis pathway genes, Siwi and BmAgo3, in the sex-determination system, we developed a genomic DNA and total RNA extraction strategy for a siRNA-injected single embryo. The siRNA-injected embryo can be molecularly sexed by W chromosome-specific DNA markers. Using complementary DNA (cDNA) reverse transcribed from the sexed RNA, we evaluated the knockdown effect of the PIWI protein-coding genes on a sexual development-related gene, Bombyx mori doublesex.