Testing for a role of Dnmt2 in paternal trans-generational immune priming

Abstract

Trans-generational effects from fathers to offspring are increasingly reported from diverse organisms, but the underlying mechanisms are often unknown. Paternal trans-generational immune priming (TGIP) was demonstrated in the red flour beetle Tribolium castaneum: non-infectious bacterial exposure (priming) of fathers protects their offspring against an infectious challenge. Here we studied a potential role of the Dnmt2 (now also called Trdnmt1) gene, which encodes a highly conserved enzyme that provides CpG methylation to a set of tRNAs and has previously been reported to be involved in transgenerational epigenetic inheritance in mice. We first studied gene expression and found that Dnmt2 was expressed throughout life, with high expression in testes. Knockdown of Dnmt2 in fathers slowed down offspring larval development and increased mortality of the adult offspring upon bacterial infection. However, the observed effects were independent of the paternal priming treatment. In conclusion, our results point towards a role of Dnmt2 for paternal effects, while elucidation of the mechanisms behind paternal TGIP needs further studies.